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<title>How Do Trends in Women's Labor Force Activity and Marriage Patterns Affect Social Security Replacement Rates?</title>
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<h1 itemprop="headline">How Do Trends in Women's Labor Force Activity and Marriage Patterns Affect Social Security Replacement Rates?</h1>
<div id="hByline">by <span itemprop="author">April Yanyuan Wu, Nadia&nbsp;S. Karamcheva, Alicia&nbsp;H. Munnell, and Patrick&nbsp;J. Purcell</span><br>Social Security Bulletin, <abbr title="Volume">Vol.</abbr>&nbsp;73, <abbr title="Number">No.</abbr>&nbsp;4, 2013 (released November 2013)</div>
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<p id="synopsis" itemprop="description">This article examines how women's increased labor force participation, increased earnings, and reduced marriage rates affect Social Security replacement rates over time. Based on data from the Health and Retirement Study and Modeling Income in the Near Term, our estimates show that Social Security replacement rates have dropped sharply at both the household and individual levels, and the declines will continue for future retirees. We also find that this aggregate change masks a complex relationship between replacement rates and the marital status and income levels of individuals. The decline in replacement rates over time is largest for married couples with husbands having higher earnings. Increases in the labor force activity and earnings of women explain more than <span class="nobr">one-third</span> of the change. By contrast, the impact of changing marital patterns is relatively small. Changes to the full retirement age and the timing of benefit claiming explain much of the remaining decline.</p>
<hr />
<div class="eightypercent">
<p>April Yanyuan Wu is a research economist with the Center for Retirement Research (<abbr class="spell">CRR</abbr>) at Boston College. Nadia Karamcheva is a research associate with the Urban Institute. Alicia Munnell is the Peter&nbsp;F. Drucker Professor of Management Sciences at Boston College's Carroll School of Management and the director of the <abbr class="spell">CRR</abbr> at Boston College. Patrick Purcell is an economist with the Office of Policy Evaluation and Modeling, Office of Research, Evaluation, and Statistics, Office of Retirement and Disability Policy, Social Security Administration.</p>
<p><i>Acknowledgments:</i> The authors thank Zhenya Karamcheva, Katherine Burnham, and Madeline Medenica for excellent research assistance. The authors also thank Ben Bridges, Barbara&nbsp;A. Butrica, Irena Dushi, Melissa Favreault, Susan Grad, Alice&nbsp;M. Henriques, Virginia&nbsp;P. Reno, Karen&nbsp;E. Smith, Glenn Springstead, and Karen van der Wiel for their thoughtful comments and suggestions.</p>
<p>Contents of this publication are <a href="/policy/accessibility.html">not copyrighted</a>; any items may be reprinted, but citation of the <i>Social Security Bulletin</i> as the source is requested. The findings and conclusions presented in the <i>Bulletin</i> are those of the authors and do not necessarily represent the views of the Social Security Administration, the <abbr class="spell">CRR</abbr> at Boston College, or the Urban Institute.</p>
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<h2>Introduction</h2>
<div class="abbrtable">
<table role="presentation">
<caption>Selected Abbreviations</caption>
<colgroup span="1" style="width:25%"></colgroup>
<colgroup span="1"></colgroup>
<tbody>
<tr>
<td><abbr>AIME</abbr></td>
<td>average indexed monthly earnings</td>
</tr>
<tr>
<td><abbr class="spell">DE</abbr></td>
<td>Depression Era</td>
</tr>
<tr>
<td><abbr class="spell">EBB</abbr></td>
<td>early baby boomer</td>
</tr>
<tr>
<td><abbr class="spell">FRA</abbr></td>
<td>full retirement age</td>
</tr>
<tr>
<td>Gen&nbsp;X</td>
<td>generation&nbsp;X</td>
</tr>
<tr>
<td><abbr class="spell">HRS</abbr></td>
<td>Health and Retirement Study</td>
</tr>
<tr>
<td><abbr class="spell">LBB</abbr></td>
<td>late baby boomer</td>
</tr>
<tr>
<td><abbr class="spell">MBB</abbr></td>
<td>middle baby boomer</td>
</tr>
<tr>
<td><abbr>MINT</abbr></td>
<td>Modeling Income in the Near Term</td>
</tr>
<tr>
<td><abbr class="spell">PIA</abbr></td>
<td>primary insurance amount</td>
</tr>
<tr>
<td><abbr>SIPP</abbr></td>
<td>Survey of Income and Program Participation</td>
</tr>
<tr>
<td><abbr class="spell">SSA</abbr></td>
<td>Social Security Administration</td>
</tr>
</tbody>
</table>
</div>
<p>For the medium earner, the percentage of preretirement earnings replaced by Social Security benefits&mdash;the replacement rate&mdash;rose from about 30&nbsp;percent in the 1970s to 40&nbsp;percent in the 1980s, where it remains today (Board of Trustees&nbsp;2012). Replacement rates for individuals and households depend partly on Social Security program provisions and partly on retirees' labor force histories and household arrangements.</p>
<p>Although an extensive literature has explored how policy changes affect the Social Security program, only a few studies have focused on the impacts of demographic factors&mdash;importantly, the changing role of women.<sup><a href="#mn1" id="mt1">1</a></sup> Compared with 30&nbsp;years ago, women today have higher levels of education, increased labor force participation, more stable career trajectories, higher salaries, and a higher probability of being divorced or never married.</p>
<p>This article explores how the changing trends among women affect Social Security replacement rates and thereby the program's finances. The analysis starts with trends in replacement rates for current retirees based on data from the Health and Retirement Study (<abbr class="spell">HRS</abbr>), which contains workers' actual lifetime earnings profiles as well as their demographics, including marital status. We then use the Modeling Income in the Near Term (<abbr>MINT</abbr>) microsimulation model to project changes in replacement rates for future retirees. The article extends previous studies in that it makes use of these rich data sources to calculate replacement rates across a broad range of birth cohorts: Depression Era&nbsp;1 (<span class="nobr"><abbr class="spell">DE</abbr>1</span>, born <span class="nobr">1931&ndash;1935),</span> Depression Era 2 (<span class="nobr"><abbr class="spell">DE</abbr>2</span>, born <span class="nobr">1936&ndash;1941),</span> war baby (born <span class="nobr">1942&ndash;1947),</span> early baby boomer (<abbr class="spell">EBB</abbr>, born <span class="nobr">1948&ndash;1953),</span> middle baby boomer (<abbr class="spell">MBB</abbr>, born <span class="nobr">1954&ndash;1959),</span> late baby boomer (<abbr class="spell">LBB</abbr>, born <span class="nobr">1960&ndash;1965),</span> and generation&nbsp;X (Gen&nbsp;X, born <span class="nobr">1966&ndash;1975).</span> Moreover, information on actual workers makes it possible to examine changes in replacement rates within cohorts by marital status and by income.</p>
<p>The article also uses an Oaxaca-Blinder method to decompose the replacement rate changes into contributing factors such as labor force activity; marital patterns; and the timing with which Social Security benefits are claimed, against the backdrop of the legislated gradual increase of the full retirement age (<abbr class="spell">FRA</abbr>). This approach not only isolates the impact of the changing trends among women from other factors, it also allows us to quantify the effect of these sweeping changes on replacement rates over time.</p>
<p>This article focuses on replacement rates&mdash;benefits as a percentage of preretirement earnings. As wages have risen over time, so have Social Security benefit levels; therefore, relative measures, such as replacement rates, are more appropriate than absolute measures when assessing the degree to which the program helps beneficiaries maintain their standard of living in retirement. Of course, Social Security is only one component of retirement income, and therefore Social Security replacement rates alone do not provide a complete measure of retirement income adequacy; however, because Social Security is the largest source of retirement income for a majority of retirees, the replacement rate is nevertheless an important measure.</p>
<p>The article is arranged in six sections, beginning with this introduction. The second section provides background information on the Social Security program, documents how women's roles have changed over time, and presents a brief overview of prior studies. The third section describes the data sets and the methodology. The fourth section summarizes the trends in replacement rates across cohorts and within cohorts by marital status and income. The fifth section discusses the decomposition procedure used to investigate how the changing roles of women&mdash;characterized by both labor force activity and marital patterns&mdash;explain the differences in replacement rates across cohorts. The final section concludes.</p>
<p>The findings can be summarized as follows. First, the changing role of women has led to a marked decrease in the proportion of preretirement income that Social Security replaces at both the household and individual levels, and the decline will continue for future retirees. Second, changes at the aggregate level mask the more complex relationship by marital status. The change is relatively modest for the never-married, but is larger for married, divorced, and widowed households. The decline in replacement rates for couples is largest for households with husbands' earnings in the top tercile. At the individual level, the decline in replacement rates is most dramatic for widows, and the decline is more pronounced for women than for men.</p>
<p>Third, the decomposition analysis shows that changes in labor force participation, including increased labor supply and earnings, account for more than <span class="nobr">one-third</span> of the difference in replacement rates between individuals born&nbsp;<span class="nobr">1931&ndash;1935</span> and those born <span class="nobr">1966&ndash;1975.</span> Although marital patterns have also changed dramatically over time, the impact of that factor is relatively small. However, changes to the <abbr class="spell">FRA</abbr> and in claiming behaviors across cohorts explain a significant fraction of the change in replacement rates. Nevertheless, up to 30&nbsp;percent of the change across cohorts cannot be attributed to differences in mean characteristics identified in our analysis, and remain &ldquo;unexplained.&rdquo; Those unexplained differences could be driven in part by the underlying assumptions used for the projection, as the explanatory power of the models is significantly higher for comparisons of cohorts who have already claimed Social Security benefits or will do so in the near future. As the age difference between cohorts grows, the explanatory power of the models declines.<sup><a href="#mn2" id="mt2">2</a></sup></p>
<h2>Background</h2>
<p>This section frames the trends and parameters our study examines. It addresses the Social Security program characteristics relevant to retired-worker benefits, <span class="nobr">long-term</span> changes in economic and marital patterns among women, and existing literature on those topics.</p>
<h3>Social Security Program </h3>
<p>Before exploring how women's labor force activity affects replacement rates, it is necessary to understand how Social Security benefits are determined. Social Security benefits, on which over <span class="nobr">one-third</span> of beneficiaries aged&nbsp;65 or older depend for 90&nbsp;percent or more of their total income, are programmatically linked to both earnings and marital histories (<abbr class="spell">SSA</abbr>&nbsp;2012). Social Security pays retired-worker benefits to individuals who have accumulated 40 or more quarters of earnings in covered employment over their lives. Benefits at <abbr class="spell">FRA</abbr> are determined with a three-step process. First, a worker's previous earnings are restated in terms of current wages by indexing past earnings (up to age&nbsp;60) to wage growth. Second, indexed earnings for the highest 35 earnings years are averaged and then divided by 12 to determine average indexed monthly earnings (<abbr>AIME</abbr>). The final step is to calculate the primary insurance amount (<abbr class="spell">PIA</abbr>), which equals the sum of different percentages of three separate portions of the <abbr>AIME</abbr>. The portions are determined by a formula that uses earnings thresholds&mdash;or &ldquo;bend points&rdquo;&mdash;that are indexed to wage growth, and thus depend on the year in which a person reaches age&nbsp;62. For example, the <abbr class="spell">PIA</abbr> for workers first becoming eligible for benefits in 2013 is calculated as follows:</p>
<ul>
<li>90&nbsp;percent of the first $791 of their <abbr>AIME</abbr> plus</li>
<li>32&nbsp;percent of <abbr>AIME</abbr> between $791 and $4,768 plus</li>
<li>15&nbsp;percent of any <abbr>AIME</abbr> in excess of $4,768.</li>
</ul>
<p>The benefit actually paid depends on when the worker claims. Benefits paid between age&nbsp;62 and the <abbr class="spell">FRA</abbr> are actuarially reduced, and benefits paid between the <abbr class="spell">FRA</abbr> and age&nbsp;70 are actuarially increased.</p>
<p>In addition to the worker's own benefit, Social Security provides dependent (or &ldquo;auxiliary&rdquo;) benefits to qualified spouses of retired workers. Although those benefits are not gender-based, they typically go to women because women have historically tended to work and earn less than men. Thus, a wife is entitled to either of two types of benefits: (1)&nbsp;a spouse's benefit that bridges any gap between her own retirement benefit and 50&nbsp;percent of her husband's <abbr class="spell">PIA</abbr> (unreduced for his early retirement); or (2)&nbsp;a survivor's benefit that bridges any gap between her own benefit and 100&nbsp;percent of her husband's benefit (reduced for early retirement). Divorced spouses are entitled to dependent benefits if their marriage lasted at least 10&nbsp;years.</p>
<p>When most people retired as married couples and most women did not work, it was straightforward to calculate replacement rates. The wife who claimed benefits at her <abbr class="spell">FRA</abbr> was entitled to a benefit equal to 50&nbsp;percent of her husband's (if he also claimed at <abbr class="spell">FRA</abbr>), so if the replacement rate for the typical worker was 40&nbsp;percent, the replacement rate for the couple would be 60&nbsp;percent. As women increasingly joined the workforce, the calculation became less obvious, because married women were entitled to the larger of either the spouse's benefit or the benefit they could earn on their own. Further, over time, the share of never-married or ever-divorced women reaching retirement has increased and will continue to rise.</p>
<h3>Women's Changing Economic and Social Characteristics</h3>
<p>On virtually every dimension, women's economic and social characteristics have changed, and these changes are remaking the current and future profile of the <abbr class="spell">US</abbr> retiree population. This subsection describes the changing role of women in two key dimensions: labor force participation and marital status.</p>
<p class="noindent"><span class="h4">Labor market trends</span>. Women's labor force participation has risen dramatically over the past five decades. Only 37&nbsp;percent of women aged&nbsp;<span class="nobr">20&ndash;64</span> worked in 1950, but more than 71&nbsp;percent of them worked by 2011. Chart&nbsp;1 shows the labor force participation rate of women aged&nbsp;<span class="nobr">25&ndash;34</span> by birth cohort. For Gen&nbsp;X women, 73&nbsp;percent were in the labor force at ages&nbsp;<span class="nobr">25&ndash;34,</span> about twice the rate for <span class="nobr"><abbr class="spell">DE</abbr>1</span> women.</p>
<div class="chartCenter">
<div class="chart400" id="chart1">
<div class="title">Chart&nbsp;1.<br>Labor force participation rates for all and married women aged&nbsp;<span class="nobr">25&ndash;34,</span> by birth cohort</div>
<div class="scrollChart"><img src="v73n4p1-chart01.gif" alt="Line chart with tabular version below." width="400" height="268" /></div>
<div class="table altTable"><a class="altToggle" href="">Show as table</a>
<table>
<caption><span class="tableNumber">Table equivalent for Chart&nbsp;1. </span>Labor force participation rates for all and married women aged&nbsp;<span class="nobr">25&ndash;34,</span> by birth cohort (in&nbsp;percent)</caption>
<colgroup span="1" style="width:8em"></colgroup>
<colgroup span="2" style="width:8em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Cohort</th>
<th scope="col">All</th>
<th scope="col">Married</th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>1</span></th>
<td>36.73</td>
<td>33.63</td>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span></th>
<td>43.60</td>
<td>41.37</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby</th>
<td>53.58</td>
<td>49.71</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr></th>
<td>64.42</td>
<td>61.17</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr></th>
<td>69.56</td>
<td>67.51</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr></th>
<td>71.90</td>
<td>69.45</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X</th>
<td>72.97</td>
<td>69.73</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="noNotes" colspan="3">&nbsp;</td>
</tr>
</tfoot>
</table>
</div>
<div class="firstNote">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</div>
<div class="lastNote">NOTE: &ldquo;Labor force participation&rdquo; is defined as having positive earnings during the year.</div>
</div>
</div>
<p>The increase in labor force participation has occurred mostly among married women: Between 1970 and 2010, the percentage of married women in the labor market rose from 40&nbsp;percent to 61&nbsp;percent (Kreider and Ellis&nbsp;2011). Similarly, Chart&nbsp;1 shows that 34&nbsp;percent of married <span class="nobr"><abbr class="spell">DE</abbr>1</span> women aged&nbsp;<span class="nobr">25&ndash;34</span> were in the labor force; the corresponding number for married Gen&nbsp;X women is close to 70&nbsp;percent.</p>
<p>Participation levels do not tell the whole story. Occupation and pay scale also determine how labor market trends affect the economic status of women. With respect to job type, women are moving away from lower-paying jobs towards managerial and professional positions with higher wages. Currently, 40&nbsp;percent of women are in managerial and professional jobs, compared with just 18&nbsp;percent in 1975 (Department of Labor&nbsp;2010).</p>
<p>The gender difference in wages has endured, but it is declining. Women who work full time are now earning 80&nbsp;percent of the male wage, compared with 62&nbsp;percent in 1979 (<abbr class="spell">BLS</abbr>&nbsp;2008). Chart&nbsp;2 shows the median ratio of the wife's <abbr>AIME</abbr> to husband's <abbr>AIME</abbr> by cohort. Gen&nbsp;X wives are projected to earn about 68&nbsp;percent of their husbands' lifetime earnings, which is 2.3&nbsp;times the ratio for <span class="nobr"><abbr class="spell">DE</abbr>1</span> wives. As more women enter the labor force, and their earnings increase relative to their husbands' earnings, more women qualify for worker-only benefits. Similarly, the proportion of women receiving only spousal or widow's benefits will decline over time.</p>
<div class="chartCenter">
<div class="chart400" id="chart2">
<div class="title">Chart&nbsp;2.<br>Median ratio of wife's <abbr>AIME</abbr> to husband's <abbr>AIME</abbr>, by birth cohort</div>
<div class="scrollChart"><img src="v73n4p1-chart02.gif" alt="Line chart with tabular version below." width="400" height="268" /></div>
<div class="table altTable"><a class="altToggle" href="">Show as table</a>
<table>
<caption><span class="tableNumber">Table equivalent for Chart&nbsp;2. </span>Median ratio of wife's <abbr>AIME</abbr> to husband's <abbr>AIME</abbr>, by birth cohort</caption>
<colgroup span="1" style="width:8em"></colgroup>
<colgroup span="1" style="width:8em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Cohort</th>
<th scope="col">Percent</th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>1</span></th>
<td>29.89</td>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span></th>
<td>34.19</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby</th>
<td>45.11</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr></th>
<td>55.83</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr></th>
<td>58.93</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr></th>
<td>60.40</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X</th>
<td>68.04</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="noNotes" colspan="2">&nbsp;</td>
</tr>
</tfoot>
</table>
</div>
<div class="firstNote">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</div>
<div class="lastNote">NOTE: Ratios are projected for three youngest cohorts.</div>
</div>
</div>
<p class="noindent"><span class="h4">Marriage trends</span>. Dramatic changes in family formation have occurred in the past four decades. Two family formation behaviors&mdash;marriage and divorce&mdash;are critical to determining Social Security outcomes and adequacy.</p>
<p>Marriage rates have fallen sharply over the past few decades. Chart&nbsp;3 summarizes marriage trends for women by age and cohort. Although 84&nbsp;percent of <span class="nobr"><abbr class="spell">DE</abbr>1</span> women were married at ages&nbsp;<span class="nobr">25&ndash;34,</span> the proportion declines to less than 60&nbsp;percent for Gen&nbsp;Xers. Although nearly 70&nbsp;percent of women in the oldest cohort were married at ages&nbsp;<span class="nobr">55&ndash;64,</span> the proportion is projected to decline for Gen&nbsp;Xers to about 56&nbsp;percent. Along with changing marriage rates, the median age at first marriage has also increased, from 20.3 in 1950 to 25.1 in 2000 (Kreider and Ellis&nbsp;2011).</p>
<div class="chartCenter">
<div class="chart400" id="chart3">
<div class="title">Chart&nbsp;3.<br>Percentage of women who are married, by age group and birth cohort</div>
<div class="scrollChart"><img src="v73n4p1-chart03.gif" alt="Line chart with tabular version below." width="400" height="268" /></div>
<div class="table altTable"><a class="altToggle" href="">Show as table</a>
<table>
<caption><span class="tableNumber">Table equivalent for Chart&nbsp;3. </span>Percentage of women who are married, by age group and birth cohort</caption>
<colgroup span="1" style="width:8em"></colgroup>
<colgroup span="2" style="width:8em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Cohort</th>
<th scope="col"><span class="nobr">25&ndash;34</span></th>
<th scope="col"><span class="nobr">55&ndash;64</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>1</span></th>
<td>83.45</td>
<td>68.92</td>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span></th>
<td>79.90</td>
<td>68.44</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby</th>
<td>75.33</td>
<td>63.95</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr></th>
<td>67.48</td>
<td>61.40</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr></th>
<td>63.40</td>
<td>58.27</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr></th>
<td>59.16</td>
<td>55.79</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X</th>
<td>59.10</td>
<td>56.14</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="noNotes" colspan="3">&nbsp;</td>
</tr>
</tfoot>
</table>
</div>
<div class="firstNote">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</div>
<div class="lastNote">NOTE: Percentages for women aged&nbsp;<span class="nobr">55&ndash;64</span> in three youngest cohorts are projected.</div>
</div>
</div>
<p>Divorce rates increased rapidly beginning in 1960, peaked in 1979, and have remained flat since the <span class="nobr">mid-1980s.</span> Although the divorce rate has leveled off, the characteristics of divorce have been changing. In particular, the duration of marriages ending in divorce appears to have declined among more recent cohorts of women. Among first marriages, the share of those who remained married at their 10th anniversaries declined from 82.8&nbsp;percent for those married in <span class="nobr">1960&ndash;1964</span> to 74.5&nbsp;percent for those married in <span class="nobr">1990&ndash;1994</span> (Kreider and Ellis&nbsp;2011).</p>
<p>As a result of trends in marriage, divorce, and marriage duration, a higher percentage of women is likely to enter retirement without having married or having been married only for a short time, which has important implications for women's retirement security generally and their Social Security benefits specifically.</p>
<h3>Literature to Date</h3>
<p>Although an extensive literature has explored how policy changes affect the Social Security program, only a few studies have focused on the impact of demographic factors&mdash;particularly the changes among women. Using <abbr>MINT</abbr>, Butrica, Iams, and Smith&nbsp;(2007) and Butrica, Smith, and Iams&nbsp;(2012) examine how sweeping demographic and economic changes (including rising educational attainment, changing marital patterns, changes in both women's and men's labor force participation and earnings, and the increasing share of immigrants and minorities) impact retirement income across generations. They find that total income replacement rates will decline and that baby boomers and Gen&nbsp;Xers are less likely than current retirees to have enough postretirement income to maintain their preretirement standard of living.</p>
<p>A few studies have focused specifically on women. Butrica and Smith&nbsp;(2012a) explore the impact of women's increasing labor force participation and earnings on married women's Social Security benefits and find that the share of married women projected to receive spouses' benefits at retirement has declined in more recent birth cohorts. Although most wives will still be eligible for survivor benefits, the ineligible share is projected to double between cohorts. Using the Current Population Survey, Munnell, Sanzenbacher, and Soto&nbsp;(2007) evaluate the impact of the increased labor force participation of wives on the Social Security replacement rate for couples and find that, over the past 40&nbsp;years, the rate for the hypothetical average couple has declined from 50&nbsp;percent to 45&nbsp;percent.</p>
<p>Another strand of literature examines changes in marital patterns and the economic well-being of divorced women in retirement. For instance, Butrica and Smith (2012b) find that changes in women's earnings, work patterns, and marriage-duration trends result in more divorced women receiving retired-worker benefits based on their own earnings. However, those who do not meet the <span class="nobr">10-year</span> marriage requirement are projected to have low retirement income and high poverty rates.</p>
<p>This article, which builds on the existing literature, has three goals. The first is to investigate how Social Security replacement rates have changed across a broad range of cohorts, and within cohorts by marital status and income. Second, the study aims to improve the estimates of the previous studies by using data from two different household surveys matched with Social Security administrative records. The third goal is to determine the extent to which the changing trends among women can explain the pattern of replacement rates across cohorts.</p>
<h2>Data and Methodology</h2>
<p>This section begins with a description of the datasets. It then describes the methodology of the replacement rate calculations.</p>
<h3>Data</h3>
<p>The analysis of current retirees uses data from the <abbr class="spell">HRS</abbr> 1992 through 2010 waves, matched to Social Security administrative records for covered earnings from 1951 through 2008.<sup><a href="#mn3" id="mt3">3</a></sup> The <abbr class="spell">HRS</abbr> is a nationally representative longitudinal study of older Americans. The survey began in 1992 with an initial cohort of 12,652 individuals from 7,607 households in which at least one member was born during <span class="nobr">1931&ndash;1941.</span> Additional cohorts were added later. Individuals may consent to have their Social Security earnings histories linked to the survey, and approximately 70&nbsp;percent of respondents have done so. Our <abbr class="spell">HRS</abbr> sample is grouped into four birth cohorts: <span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935),</span> <span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941),</span> war baby <span class="nobr">(1942&ndash;1947),</span> and <abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953).</span><sup><a href="#mn4" id="mt4">4</a>, <a href="#mn5" id="mt5">5</a></sup></p>
<p>To project replacement rates for future retirees, we use <abbr>MINT</abbr>, a microsimulation model developed by the Social Security Administration (<abbr class="spell">SSA</abbr>). <abbr>MINT</abbr> links individuals' demographic information, marital histories, and income and wealth information from the Survey of Income and Program Participation (<abbr>SIPP</abbr>) with their earnings and benefit histories from Social Security administrative data. Based on those data, <abbr>MINT</abbr> projects each retiree's income from Social Security benefits, pensions, assets, and, for working beneficiaries, earnings. Using <abbr>MINT</abbr>, we can project the changes in replacement rates for the <abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959),</span> <abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965),</span> and Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span> birth cohorts, where female labor force participation and marital patterns have changed most dramatically. <abbr>MINT</abbr> can also be used to estimate benefits for households that are already retired.<sup><a href="#mn6" id="mt6">6</a></sup></p>
<h3>Replacement Rate Calculation Methodology</h3>
<p>In this study, we define replacement rate as the ratio of the Social Security benefit to the <abbr>AIME</abbr>. As discussed in Purcell&nbsp;(2012), there is no common measure of replacement rates. Whether a given replacement rate represents an adequate retirement income depends on whether the denominator in the replacement rate calculation is an appropriate measure of preretirement earnings. We use <abbr>AIME</abbr> in the replacement rate calculation rather than peak or final earnings because the <abbr>AIME</abbr> measures lifetime earnings and thus reflects available resources over individuals' careers, from which they could reasonably accrue retirement income.</p>
<p>Estimating the replacement rate is a three-step process. First, we construct the lifetime earnings profile; second, we estimate Social Security benefits based on earnings and marital-status histories; and third, we calculate replacement rates at the time of first benefit receipt to account for actuarial adjustments for early or delayed claiming.</p>
<p class="noindent"><span class="h4">Lifetime earnings</span>. Lifetime earnings serve as the base for calculating career average indexed earnings and Social Security benefits. As noted earlier, matched administrative data provide Social Security earnings histories back to 1951 for the approximately 70&nbsp;percent of the <abbr class="spell">HRS</abbr> sample that has consented to data linkage. Although previous work has documented that giving permission to link is nonrandom (Haider and Solon&nbsp;2000), the distribution of Social Security benefits is similar across the linked and nonlinked respondents (Kapteyn and others&nbsp;2006). Thus, for the approximately 30&nbsp;percent of the <abbr class="spell">HRS</abbr> sample that has not consented to link, we follow Gustman and Steinmeier&nbsp;(2001) and estimate earnings histories based on survey data on previous jobs and wages, using the estimated returns to tenure from Anderson, Gustman, and Steinmeier&nbsp;(1999).<sup><a href="#mn7" id="mt7">7</a></sup></p>
<p><abbr>MINT</abbr> projects each person's mortality, entry to and exit from the Social Security Disability Insurance rolls, and age at first receipt of Social Security retirement benefits. For younger cohorts, <abbr>MINT</abbr> projections are adjusted for expected demographic and socioeconomic changes. Further, <abbr>MINT</abbr> accounts for the growth of economy-wide real earnings, the distribution of earnings both between and within birth cohorts, and the composition of the retiree population. Because <abbr>MINT</abbr> simulates the whole earnings profile, no additional simulation is needed.</p>
<p class="noindent"><span class="h4">Social Security benefits</span>. As discussed in the background section, <abbr class="spell">SSA</abbr> calculates the <abbr class="spell">PIA</abbr> by applying a piecewise linear formula to each worker's <abbr>AIME</abbr>. In computing <abbr>AIME</abbr>s using <abbr class="spell">HRS</abbr> data, we follow the <abbr class="spell">SSA</abbr> practice of indexing earnings prior to age&nbsp;60 to the average wage index for the year the individual attains age&nbsp;60.<sup><a href="#mn8" id="mt8">8</a></sup> Earnings after age&nbsp;60 are not indexed. <abbr>AIME</abbr> is the simple monthly average of the indexed earnings in the 35 highest-earnings years. At <abbr class="spell">FRA</abbr>, a retiree is entitled to a benefit equal to the <abbr class="spell">PIA</abbr>. A worker may choose to retire as early as age&nbsp;62, with reduced benefits. Conversely, if a worker delays receipt of benefits to an age as late as 70, the eventual benefits are permanently increased for each year of delay.</p>
<p>Marital status at retirement and marital history are important in determining spousal or survivor benefits. Those who have claimed Social Security benefits are categorized according to marital status at the time of first benefit receipt. In the <abbr class="spell">HRS</abbr> data for those not yet retired, we assume that the last reported marital status does not change before retirement. If a respondent is divorced with a previous marriage that lasted 10 or more years, we first determine if the sample includes the <span class="nobr">ex-spouse.</span> If not, we match the respondent to someone else in the survey by sex, education, race, and <span class="nobr">5-year</span> birth-year band. We then use the earnings history of the matched spouse to compute the spousal and survivor benefit available from the <span class="nobr">ex-spouse.</span> For the <span class="nobr">widow(er)s</span> whose deceased spouses are missing from the sample, we match the respondent with another <span class="nobr">widow(er)</span> in the sample, based on sex, race, education, <span class="nobr">5-year</span> birth cohort, and retirement age. We then use the earnings history of that person's deceased spouse to estimate survivor benefits.</p>
<p>We use an analogous method to calculate benefits using <abbr>MINT</abbr> data. <abbr>MINT</abbr> observes marriage patterns in the periods covered in the <abbr>SIPP</abbr> panels when husbands and wives can be precisely identified. For individuals projected to change marital status after the last <abbr>SIPP</abbr> observation (or whose former spouses from before the <abbr>SIPP</abbr> panel are not observed), the model statistically matches married individuals to a spouse with characteristics of a likely match. The spousal and survivor benefits then are calculated using data for the observed and imputed spouses.</p>
<p class="noindent"><span class="h4">Mortality adjustments</span>. In the 2010 <abbr class="spell">HRS</abbr>, some war baby and <abbr class="spell">EBB</abbr> respondents had not yet retired, requiring mortality adjustments to account for the possibility of their dying before claiming.<sup><a href="#mn9" id="mt9">9</a></sup> Mortality assumptions are already imbedded in the <abbr>MINT</abbr> data; therefore, no additional adjustments or projections are needed (Smith and others&nbsp;2010,&nbsp;<abbr title="two">II</abbr>-11).</p>
<p class="noindent"><span class="h4">Replacement rates by marital status</span>. For currently married households, the replacement rate is the ratio of household benefits (the sum of the husband's and the wife's benefit) to the sum of each spouse's <abbr>AIME</abbr>. It is calculated as of the first time that both spouses receive their Social Security benefits. For individuals who are widowed or divorced when they start receiving benefits, we create a lifetime shared earnings measure that equals the individual's earnings in the years when not married and the average of the couple's earnings in the years when married. Thus, the household replacement rate for widowed and divorced persons is the ratio of the benefit that the <span class="nobr">widow(er)</span>/divorcee receives to the average lifetime shared indexed earnings. At the individual level, we calculate the replacement rate as the ratio of the benefit (which can be a spouse/survivor or a retired-worker benefit) to the individual's career average indexed earnings.<sup><a href="#mn10" id="mt10">10</a></sup></p>
<p class="noindent"><span class="h4">Cross-cohort demographic changes</span>. <abbr class="spell">HRS</abbr> data for the <span class="nobr"><abbr class="spell">DE</abbr>1</span>, <span class="nobr"><abbr class="spell">DE</abbr>2</span>, war baby, and <abbr class="spell">EBB</abbr> cohorts suggest several reasons why Social Security replacement rates have changed over time (Table&nbsp;1). Marriage rates have declined across successive cohorts, and the labor force participation of women has increased (based on Social Security quarters of coverage).<sup><a href="#mn11" id="mt11">11</a></sup> The share of individuals that are divorced or never married when they first claim has risen from about 29&nbsp;percent for the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort to 44&nbsp;percent for the <abbr class="spell">EBB</abbr> cohort. Quarters of coverage have increased dramatically for women, by about 20&nbsp;percent to 40&nbsp;percent over time for those who were ever married. That change has increased the share of women eligible for Social Security retired-worker benefits based on their own earnings: Only 50&nbsp;percent of women were eligible for benefits as a retired worker in the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort compared with 73&nbsp;percent in the <abbr class="spell">EBB</abbr> cohort.<sup><a href="#mn12" id="mt12">12</a></sup> At the same time, women eligible only for auxiliary benefits declined from 25&nbsp;percent in the oldest cohort to about 9&nbsp;percent in the youngest. Along with the increased female labor market attachment, household <abbr>AIME</abbr> rose, with the biggest increase among married couples. Although the benefit amounts have also increased over time, those changes are relatively modest compared with the changes in <abbr>AIME</abbr>, suggesting that replacement rates may continue to fall.</p>
<div class="table" id="table1">
<table>
<caption><span class="tableNumber">Table&nbsp;1. </span>Characteristics of individuals when first claiming Social Security benefits, by <abbr class="spell">HRS</abbr> birth&nbsp;cohort</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" id="c1">Characteristic</th>
<th id="c2"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th id="c3"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th id="c4">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th id="c5"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="4" class="subpanel" id="r1">Percentage distributions</th>
</tr>
<tr>
<th class="stub0" id="r2" headers="r1 c1">Sex</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r3" headers="r1 r2 c1">Men</th>
<td headers="r1 r2 r3 c2">46.3</td>
<td headers="r1 r2 r3 c3">47.6</td>
<td headers="r1 r2 r3 c4">47.2</td>
<td headers="r1 r2 r3 c5">46.9</td>
</tr>
<tr>
<th class="stub1" id="r4" headers="r1 r2 c1">Women</th>
<td headers="r1 r2 r4 c2">53.7</td>
<td headers="r1 r2 r4 c3">52.4</td>
<td headers="r1 r2 r4 c4">52.8</td>
<td headers="r1 r2 r4 c5">53.1</td>
</tr>
<tr>
<th class="stub0" id="r5" headers="r1 c1">Marital status</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r6" headers="r1 r5 c1">Married</th>
<td headers="r1 r5 r6 c2">54.7</td>
<td headers="r1 r5 r6 c3">53.5</td>
<td headers="r1 r5 r6 c4">52.7</td>
<td headers="r1 r5 r6 c5">49.7</td>
</tr>
<tr>
<th class="stub1" id="r7" headers="r1 r5 c1">Divorced</th>
<td headers="r1 r5 r7 c2">22.7</td>
<td headers="r1 r5 r7 c3">29.0</td>
<td headers="r1 r5 r7 c4">31.6</td>
<td headers="r1 r5 r7 c5">35.7</td>
</tr>
<tr>
<th class="stub1" id="r8" headers="r1 r5 c1">Never married</th>
<td headers="r1 r5 r8 c2">5.9</td>
<td headers="r1 r5 r8 c3">6.0</td>
<td headers="r1 r5 r8 c4">6.5</td>
<td headers="r1 r5 r8 c5">8.3</td>
</tr>
<tr>
<th class="stub1" id="r9" headers="r1 r5 c1">Widowed</th>
<td headers="r1 r5 r9 c2">16.7</td>
<td headers="r1 r5 r9 c3">11.5</td>
<td headers="r1 r5 r9 c4">9.2</td>
<td headers="r1 r5 r9 c5">6.3</td>
</tr>
<tr>
<th class="stub0" id="r10" headers="r1 c1">Education</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r11" headers="r1 r10 c1">Less than high school</th>
<td headers="r1 r10 r11 c2">22.0</td>
<td headers="r1 r10 r11 c3">17.3</td>
<td headers="r1 r10 r11 c4">9.9</td>
<td headers="r1 r10 r11 c5">8.8</td>
</tr>
<tr>
<th class="stub1" id="r12" headers="r1 r10 c1">High school degree</th>
<td headers="r1 r10 r12 c2">57.9</td>
<td headers="r1 r10 r12 c3">58.9</td>
<td headers="r1 r10 r12 c4">60.7</td>
<td headers="r1 r10 r12 c5">56.7</td>
</tr>
<tr>
<th class="stub1" id="r13" headers="r1 r10 c1">At least some college</th>
<td headers="r1 r10 r13 c2">20.1</td>
<td headers="r1 r10 r13 c3">23.8</td>
<td headers="r1 r10 r13 c4">29.5</td>
<td headers="r1 r10 r13 c5">34.5</td>
</tr>
<tr>
<th class="stub0" id="r14" headers="r1 c1">Benefit type (women only)</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r15" headers="r1 r14 c1">Retired worker</th>
<td headers="r1 r14 r15 c2">50.3</td>
<td headers="r1 r14 r15 c3">56.9</td>
<td headers="r1 r14 r15 c4">64.1</td>
<td headers="r1 r14 r15 c5">72.5</td>
</tr>
<tr>
<th class="stub1" id="r16" headers="r1 r14 c1">Dually entitled</th>
<td headers="r1 r14 r16 c2">25.1</td>
<td headers="r1 r14 r16 c3">26.5</td>
<td headers="r1 r14 r16 c4">23.8</td>
<td headers="r1 r14 r16 c5">18.9</td>
</tr>
<tr>
<th class="stub1" id="r17" headers="r1 r14 c1">Auxiliary only</th>
<td headers="r1 r14 r17 c2">24.7</td>
<td headers="r1 r14 r17 c3">16.6</td>
<td headers="r1 r14 r17 c4">12.1</td>
<td headers="r1 r14 r17 c5">8.6</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="4" class="panelWithSub" id="r18">Cohort average values</th>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="4" class="subWithPanel" id="r19" headers="r18">Quarters of coverage</th>
</tr>
<tr>
<th class="stub0" id="r20" headers="r18 r19 c1">Women</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r21" headers="r18 r19 r20 c1">Married</th>
<td headers="r18 r19 r20 r21 c2">89</td>
<td headers="r18 r19 r20 r21 c3">103</td>
<td headers="r18 r19 r20 r21 c4">113</td>
<td headers="r18 r19 r20 r21 c5">124</td>
</tr>
<tr>
<th class="stub1" id="r22" headers="r18 r19 r20 c1">Divorced</th>
<td headers="r18 r19 r20 r22 c2">109</td>
<td headers="r18 r19 r20 r22 c3">114</td>
<td headers="r18 r19 r20 r22 c4">124</td>
<td headers="r18 r19 r20 r22 c5">133</td>
</tr>
<tr>
<th class="stub1" id="r23" headers="r18 r19 r20 c1">Never married</th>
<td headers="r18 r19 r20 r23 c2">145</td>
<td headers="r18 r19 r20 r23 c3">145</td>
<td headers="r18 r19 r20 r23 c4">143</td>
<td headers="r18 r19 r20 r23 c5">153</td>
</tr>
<tr>
<th class="stub1" id="r24" headers="r18 r19 r20 c1">Widowed</th>
<td headers="r18 r19 r20 r24 c2">98</td>
<td headers="r18 r19 r20 r24 c3">95</td>
<td headers="r18 r19 r20 r24 c4">113</td>
<td headers="r18 r19 r20 r24 c5">117</td>
</tr>
<tr>
<th class="stub0" id="r25" headers="r18 r19 c1">Men</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r26" headers="r18 r19 r25 c1">Married</th>
<td headers="r18 r19 r25 r26 c2">147</td>
<td headers="r18 r19 r25 r26 c3">156</td>
<td headers="r18 r19 r25 r26 c4">154</td>
<td headers="r18 r19 r25 r26 c5">154</td>
</tr>
<tr>
<th class="stub1" id="r27" headers="r18 r19 r25 c1">Divorced</th>
<td headers="r18 r19 r25 r27 c2">135</td>
<td headers="r18 r19 r25 r27 c3">144</td>
<td headers="r18 r19 r25 r27 c4">152</td>
<td headers="r18 r19 r25 r27 c5">152</td>
</tr>
<tr>
<th class="stub1" id="r28" headers="r18 r19 r25 c1">Never married</th>
<td headers="r18 r19 r25 r28 c2">122</td>
<td headers="r18 r19 r25 r28 c3">139</td>
<td headers="r18 r19 r25 r28 c4">146</td>
<td headers="r18 r19 r25 r28 c5">147</td>
</tr>
<tr>
<th class="stub1" id="r29" headers="r18 r19 r25 c1">Widowed</th>
<td headers="r18 r19 r25 r29 c2">142</td>
<td headers="r18 r19 r25 r29 c3">151</td>
<td headers="r18 r19 r25 r29 c4">141</td>
<td headers="r18 r19 r25 r29 c5">148</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="4" class="subpanel" id="r30" headers="r18"><abbr>AIME</abbr> (annual, household level, 2012&nbsp;dollars)</th>
</tr>
<tr>
<th class="stub0" id="r31" headers="r18 r30 c1">Marital status</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r32" headers="r18 r30 r31 c1">Married</th>
<td headers="r18 r30 r31 r32 c2">55,679</td>
<td headers="r18 r30 r31 r32 c3">70,879</td>
<td headers="r18 r30 r31 r32 c4">81,200</td>
<td headers="r18 r30 r31 r32 c5">89,750</td>
</tr>
<tr>
<th class="stub1" id="r33" headers="r18 r30 r31 c1">Divorced</th>
<td headers="r18 r30 r31 r33 c2">24,786</td>
<td headers="r18 r30 r31 r33 c3">30,951</td>
<td headers="r18 r30 r31 r33 c4">36,551</td>
<td headers="r18 r30 r31 r33 c5">39,769</td>
</tr>
<tr>
<th class="stub1" id="r34" headers="r18 r30 r31 c1">Never married</th>
<td headers="r18 r30 r31 r34 c2">25,258</td>
<td headers="r18 r30 r31 r34 c3">37,799</td>
<td headers="r18 r30 r31 r34 c4">38,924</td>
<td headers="r18 r30 r31 r34 c5">43,330</td>
</tr>
<tr>
<th class="stub1" id="r35" headers="r18 r30 r31 c1">Widowed</th>
<td headers="r18 r30 r31 r35 c2">20,774</td>
<td headers="r18 r30 r31 r35 c3">21,630</td>
<td headers="r18 r30 r31 r35 c4">28,142</td>
<td headers="r18 r30 r31 r35 c5">29,229</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="4" class="subpanel" id="r36" headers="r18">Benefit amount (annual, household level, 2012&nbsp;dollars)</th>
</tr>
<tr>
<th class="stub0" id="r37" headers="r18 r36 c1">Marital status</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" id="r38" headers="r18 r36 r37 c1">Married</th>
<td headers="r18 r36 r37 r38 c2">24,783</td>
<td headers="r18 r36 r37 r38 c3">29,071</td>
<td headers="r18 r36 r37 r38 c4">29,736</td>
<td headers="r18 r36 r37 r38 c5">32,271</td>
</tr>
<tr>
<th class="stub1" id="r39" headers="r18 r36 r37 c1">Divorced</th>
<td headers="r18 r36 r37 r39 c2">11,428</td>
<td headers="r18 r36 r37 r39 c3">13,338</td>
<td headers="r18 r36 r37 r39 c4">14,091</td>
<td headers="r18 r36 r37 r39 c5">14,906</td>
</tr>
<tr>
<th class="stub1" id="r40" headers="r18 r36 r37 c1">Never married</th>
<td headers="r18 r36 r37 r40 c2">10,966</td>
<td headers="r18 r36 r37 r40 c3">14,560</td>
<td headers="r18 r36 r37 r40 c4">14,201</td>
<td headers="r18 r36 r37 r40 c5">15,671</td>
</tr>
<tr>
<th class="stub1" id="r41" headers="r18 r36 r37 c1">Widowed</th>
<td headers="r18 r36 r37 r41 c2">11,805</td>
<td headers="r18 r36 r37 r41 c3">13,528</td>
<td headers="r18 r36 r37 r41 c4">15,063</td>
<td headers="r18 r36 r37 r41 c5">16,626</td>
</tr>
<tr class="shaded">
<th class="stub0" id="r42" headers="r18 r36 c1">Number of observations</th>
<td headers="r18 r36 r42 c2">3,397</td>
<td headers="r18 r36 r42 c3">4,345</td>
<td headers="r18 r36 r42 c4">2,014</td>
<td headers="r18 r36 r42 c5">2,544</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="5">SOURCE: Authors' calculations based on the <abbr class="spell">HRS</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="5">NOTE: Rounded components of percentage distributions do not necessarily sum to 100.0.</td>
</tr>
</tfoot>
</table>
</div>
<h2>Changes in Replacement Rates Over Time</h2>
<p>This section examines cross-cohort differences in replacement rates. We first examine the cohorts covered in the <abbr class="spell">HRS</abbr> sample; then, we look at the <abbr>MINT</abbr> cohorts.</p>
<h3>Current Retirees: Actual Earners in the <abbr class="spell">HRS</abbr></h3>
<p>Table&nbsp;2 shows individual replacement rates for the same four cohorts shown in Table&nbsp;1. The median replacement rate for all groups has declined over time, from 47&nbsp;percent for the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort to 39&nbsp;percent for the <abbr class="spell">EBB</abbr> cohort.<sup><a href="#mn13" id="mt13">13</a></sup> The aggregate trend masks more complex patterns by sex and marital status: The decline is more dramatic for women than for men, and the drop in the replacement rate for women is substantially larger for the currently married, divorced, and widowed than for the never-married. Those patterns reflect the changing labor force participation of married women: As more married women work, more of them earn their own benefits, which reduces their eligibility for spousal benefits and lowers their replacement rate.</p>
<div class="table" id="table2">
<table>
<caption><span class="tableNumber">Table&nbsp;2. </span>Estimated median individual replacement rates, by sex, marital status, and <abbr class="spell">HRS</abbr> birth cohort (in&nbsp;percent)</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Marital status and sex</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">All individuals</th>
<td>47</td>
<td>44</td>
<td>39</td>
<td>39</td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>38</td>
<td>37</td>
<td>34</td>
<td>35</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>65</td>
<td>56</td>
<td>49</td>
<td>45</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Never married</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>50</td>
<td>45</td>
<td>39</td>
<td>41</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>43</td>
<td>41</td>
<td>38</td>
<td>42</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Currently married</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>38</td>
<td>37</td>
<td>33</td>
<td>34</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>70</td>
<td>56</td>
<td>49</td>
<td>45</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Widowed</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>41</td>
<td>37</td>
<td>37</td>
<td>34</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>72</td>
<td>82</td>
<td>77</td>
<td>62</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Divorced</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>40</td>
<td>39</td>
<td>37</td>
<td>36</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>57</td>
<td>52</td>
<td>44</td>
<td>42</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="5">SOURCE: Authors' calculations based on the <abbr class="spell">HRS</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="5">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<p>The change in median household replacement rates (Table&nbsp;3) largely mirrors that for individual replacement rates.<sup><a href="#mn14" id="mt14">14</a></sup> Among married couples, the results are broken out for single-earner and two-earner households; a single-earner household is one in which only one spouse works long enough to qualify for Social Security worker benefits and a two-earner household is one in which both spouses qualify for benefits based on their own earnings histories.<sup><a href="#mn15" id="mt15">15</a></sup> The decline for two-earner households is greater than that for single-earner households, reflecting the fact that working wives add substantially more to married couples' preretirement earnings than they do to their Social Security benefits.<sup><a href="#mn16" id="mt16">16</a></sup></p>
<div class="table" id="table3">
<table>
<caption><span class="tableNumber">Table&nbsp;3. </span>Estimated median household replacement rates, by marital status and <abbr class="spell">HRS</abbr> birth cohort (in&nbsp;percent)</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Marital status</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">All households</th>
<td>47</td>
<td>44</td>
<td>39</td>
<td>39</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Never married</th>
<td>49</td>
<td>44</td>
<td>38</td>
<td>42</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Currently married</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Single earner</th>
<td>54</td>
<td>53</td>
<td>49</td>
<td>52</td>
</tr>
<tr>
<th class="stub1" scope="row">Two earners</th>
<td>43</td>
<td>41</td>
<td>37</td>
<td>36</td>
</tr>
<tr>
<th class="stub1" scope="row">Combined</th>
<td>46</td>
<td>42</td>
<td>38</td>
<td>37</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Widowed</th>
<td>64</td>
<td>68</td>
<td>61</td>
<td>61</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Divorced</th>
<td>48</td>
<td>46</td>
<td>40</td>
<td>39</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="5">SOURCE: Authors' calculations based on the <abbr class="spell">HRS</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="5">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<p>Table&nbsp;4 shifts the focus from marital status to earnings and shows replacement rates of married couples by the husband's earnings level. Over time, the replacement rate has declined more for households with husbands in the top earnings tercile than for households with a husband in the bottom earnings tercile, in terms of percent change from the baseline. That pattern likely reflects the change in the correlation between husbands' and wives' earnings. Schwartz&nbsp;(2010) reports that the earnings of husbands and wives were negatively correlated in the late 1960s and 1970s; but as highly educated women increasingly joined the workforce thereafter, the correlation became positive.</p>
<div class="table" id="table4">
<table>
<caption><span class="tableNumber">Table&nbsp;4. </span>Estimated median replacement rates for married-couple households, by number of earners, husband's earnings tercile, and <abbr class="spell">HRS</abbr> birth cohort (in&nbsp;percent)</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Number of earners and husband's earnings tercile</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">Single-earner households</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Low</th>
<td>67</td>
<td>71</td>
<td>78</td>
<td>76</td>
</tr>
<tr>
<th class="stub1" scope="row">Median</th>
<td>51</td>
<td>52</td>
<td>48</td>
<td>51</td>
</tr>
<tr>
<th class="stub1" scope="row">High</th>
<td>45</td>
<td>46</td>
<td>39</td>
<td>39</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Dual-earner households</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Low</th>
<td>52</td>
<td>49</td>
<td>44</td>
<td>45</td>
</tr>
<tr>
<th class="stub1" scope="row">Median</th>
<td>42</td>
<td>40</td>
<td>36</td>
<td>36</td>
</tr>
<tr>
<th class="stub1" scope="row">High</th>
<td>37</td>
<td>35</td>
<td>31</td>
<td>30</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">All households</th>
<td colspan="4"></td>
</tr>
<tr>
<th class="stub1" scope="row">Low</th>
<td>57</td>
<td>53</td>
<td>47</td>
<td>48</td>
</tr>
<tr>
<th class="stub1" scope="row">Median</th>
<td>45</td>
<td>42</td>
<td>38</td>
<td>37</td>
</tr>
<tr>
<th class="stub1" scope="row">High</th>
<td>38</td>
<td>35</td>
<td>31</td>
<td>30</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="5">SOURCE: Authors' calculations based on the <abbr class="spell">HRS</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="5">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<h3>Future Retirees: Projections Using <abbr>MINT</abbr></h3>
<p>Although the growth in women's labor force participation has slowed, later cohorts will have increasing shares of women who spend most of their lives in the workforce. Further, the shares of women that are divorced or never married as they reach retirement have increased and will continue to increase. These two phenomena suggest that replacement rates for future retirees will keep changing. To investigate the extent of cohort-to-cohort replacement rate changes for future retirees, we use <abbr>MINT</abbr> to project replacement rates for the <abbr class="spell">MBB</abbr>, <abbr class="spell">LBB</abbr>, and Gen&nbsp;X cohorts. The results are presented in Tables&nbsp;5 and 6.</p>
<div class="table" id="table5">
<table>
<caption><span class="tableNumber">Table&nbsp;5. </span>Estimated median replacement rates for individuals, by <abbr>MINT</abbr> birth cohort, marital status, and sex (in&nbsp;percent)</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="7" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Marital status and sex</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
<th scope="col"><abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959)</span></th>
<th scope="col"><abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965)</span></th>
<th scope="col">Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">All individuals</th>
<td>53</td>
<td>49</td>
<td>46</td>
<td>46</td>
<td>45</td>
<td>40</td>
<td>40</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Never married</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>47</td>
<td>45</td>
<td>44</td>
<td>43</td>
<td>45</td>
<td>43</td>
<td>41</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>52</td>
<td>49</td>
<td>44</td>
<td>44</td>
<td>47</td>
<td>38</td>
<td>39</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Currently married</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>39</td>
<td>39</td>
<td>37</td>
<td>39</td>
<td>38</td>
<td>35</td>
<td>35</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>78</td>
<td>68</td>
<td>57</td>
<td>52</td>
<td>49</td>
<td>44</td>
<td>44</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Widowed</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>41</td>
<td>40</td>
<td>40</td>
<td>42</td>
<td>38</td>
<td>37</td>
<td>41</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>121</td>
<td>86</td>
<td>81</td>
<td>70</td>
<td>66</td>
<td>58</td>
<td>58</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Divorced</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Men</th>
<td>44</td>
<td>43</td>
<td>40</td>
<td>41</td>
<td>41</td>
<td>37</td>
<td>36</td>
</tr>
<tr>
<th class="stub1" scope="row">Women</th>
<td>66</td>
<td>57</td>
<td>53</td>
<td>52</td>
<td>50</td>
<td>46</td>
<td>44</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="8">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="8">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<div class="table" id="table6">
<table>
<caption><span class="tableNumber">Table&nbsp;6. </span>Estimated median replacement rates for households, by <abbr>MINT</abbr> birth cohort and marital status (in&nbsp;percent)</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="7" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Marital status</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
<th scope="col"><abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959)</span></th>
<th scope="col"><abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965)</span></th>
<th scope="col">Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">All households</th>
<td>50</td>
<td>47</td>
<td>45</td>
<td>45</td>
<td>44</td>
<td>39</td>
<td>39</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Never married</th>
<td>47</td>
<td>47</td>
<td>43</td>
<td>44</td>
<td>45</td>
<td>40</td>
<td>38</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Currently married</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Single earner</th>
<td>53</td>
<td>54</td>
<td>54</td>
<td>54</td>
<td>48</td>
<td>39</td>
<td>38</td>
</tr>
<tr>
<th class="stub1" scope="row">Two earners</th>
<td>45</td>
<td>43</td>
<td>41</td>
<td>41</td>
<td>40</td>
<td>36</td>
<td>37</td>
</tr>
<tr>
<th class="stub1" scope="row">Combined</th>
<td>47</td>
<td>45</td>
<td>42</td>
<td>42</td>
<td>41</td>
<td>37</td>
<td>37</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Widowed</th>
<td>64</td>
<td>60</td>
<td>61</td>
<td>56</td>
<td>53</td>
<td>48</td>
<td>50</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Divorced</th>
<td>52</td>
<td>48</td>
<td>46</td>
<td>47</td>
<td>45</td>
<td>41</td>
<td>40</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="8">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="8">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<p>Although we use <abbr>MINT</abbr> primarily to project outcomes for future retirees, its rich information also allows us to estimate replacement rates for the earlier cohorts, which provides an external comparison to our <abbr class="spell">HRS</abbr> estimates. Comparing overlapped cohorts shows that <abbr>MINT</abbr> and <abbr class="spell">HRS</abbr> estimates of replacement rates are largely consistent, although <abbr>MINT</abbr> estimates are somewhat higher and the estimated decline for the first four cohorts is slightly smaller. For instance, although the <abbr class="spell">HRS</abbr> data show that replacement rates of currently married households declined from 46&nbsp;percent to 37&nbsp;percent (about 20&nbsp;percent from baseline) between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and <abbr class="spell">EBB</abbr> cohorts (<a href="#table3">Table&nbsp;3</a>), <abbr>MINT</abbr> shows a decline from 47&nbsp;percent to 42&nbsp;percent (about 11&nbsp;percent from baseline, Table&nbsp;6).</p>
<p>A close look at the demographics of the <abbr>MINT</abbr> sample (Table&nbsp;7) reveals possible sources of the difference. Compared with the <abbr class="spell">HRS</abbr> (<a href="#table1">Table&nbsp;1</a>), the <abbr>MINT</abbr> sample is relatively more educated, more likely to be married, and less likely to be divorced or never married. In terms of labor force participation, the women in the <abbr class="spell">HRS</abbr> sample work more than those in <abbr>MINT</abbr>, while the men work less. Consequently, the proportion of women that is eligible for own retired-worker benefits is higher for the <abbr class="spell">HRS</abbr> sample than for the <abbr>MINT</abbr> sample. In addition, across groups, beneficiaries in the <abbr class="spell">HRS</abbr> have higher <abbr>AIME</abbr>s than those in the <abbr>MINT</abbr>, which likely contributes to lower replacement rates on average. This study's scope does not include investigating which of <abbr>MINT</abbr>'s embedded assumptions lead to these differences, but the differences between <abbr>MINT</abbr> and the <abbr class="spell">HRS</abbr> should be taken into account when assessing projections for future retirees.</p>
<div class="table" id="table7">
<table>
<caption><span class="tableNumber">Table&nbsp;7. </span>Characteristics of individuals when first claiming Social Security benefits, by <abbr>MINT</abbr> birth cohort</caption>
<colgroup span="1" style="width:14em"></colgroup>
<colgroup span="7" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" id="c1">Characteristic</th>
<th id="c2"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th id="c3"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th id="c4">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th id="c5"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
<th id="c6"><abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959)</span></th>
<th id="c7"><abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965)</span></th>
<th id="c8">Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span></th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="subpanel" id="r1">Percentage distributions</th>
</tr>
<tr>
<th class="stub0" id="r2" headers="r1 c1">Sex</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r3" headers="r1 r2 c1">Men</th>
<td headers="r1 r2 r3 c2">46.8</td>
<td headers="r1 r2 r3 c3">47.2</td>
<td headers="r1 r2 r3 c4">47.1</td>
<td headers="r1 r2 r3 c5">46.2</td>
<td headers="r1 r2 r3 c6">46.9</td>
<td headers="r1 r2 r3 c7">47.4</td>
<td headers="r1 r2 r3 c8">47.6</td>
</tr>
<tr>
<th class="stub1" id="r4" headers="r1 r2 c1">Women</th>
<td headers="r1 r2 r4 c2">53.2</td>
<td headers="r1 r2 r4 c3">52.8</td>
<td headers="r1 r2 r4 c4">52.9</td>
<td headers="r1 r2 r4 c5">53.8</td>
<td headers="r1 r2 r4 c6">53.1</td>
<td headers="r1 r2 r4 c7">52.6</td>
<td headers="r1 r2 r4 c8">52.4</td>
</tr>
<tr>
<th class="stub0" id="r5" headers="r1 c1">Marital status</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r6" headers="r1 r5 c1">Married</th>
<td headers="r1 r5 r6 c2">73.8</td>
<td headers="r1 r5 r6 c3">72.1</td>
<td headers="r1 r5 r6 c4">68.1</td>
<td headers="r1 r5 r6 c5">63.4</td>
<td headers="r1 r5 r6 c6">61.1</td>
<td headers="r1 r5 r6 c7">60.5</td>
<td headers="r1 r5 r6 c8">58.5</td>
</tr>
<tr>
<th class="stub1" id="r7" headers="r1 r5 c1">Divorced</th>
<td headers="r1 r5 r7 c2">10.6</td>
<td headers="r1 r5 r7 c3">12.9</td>
<td headers="r1 r5 r7 c4">17.6</td>
<td headers="r1 r5 r7 c5">19.4</td>
<td headers="r1 r5 r7 c6">20.1</td>
<td headers="r1 r5 r7 c7">20.3</td>
<td headers="r1 r5 r7 c8">21.0</td>
</tr>
<tr>
<th class="stub1" id="r8" headers="r1 r5 c1">Never married</th>
<td headers="r1 r5 r8 c2">3.5</td>
<td headers="r1 r5 r8 c3">3.8</td>
<td headers="r1 r5 r8 c4">4.8</td>
<td headers="r1 r5 r8 c5">6.5</td>
<td headers="r1 r5 r8 c6">7.7</td>
<td headers="r1 r5 r8 c7">8.2</td>
<td headers="r1 r5 r8 c8">10.3</td>
</tr>
<tr>
<th class="stub1" id="r9" headers="r1 r5 c1">Widowed</th>
<td headers="r1 r5 r9 c2">12.1</td>
<td headers="r1 r5 r9 c3">11.2</td>
<td headers="r1 r5 r9 c4">9.6</td>
<td headers="r1 r5 r9 c5">10.8</td>
<td headers="r1 r5 r9 c6">11.1</td>
<td headers="r1 r5 r9 c7">11.0</td>
<td headers="r1 r5 r9 c8">10.2</td>
</tr>
<tr>
<th class="stub0" id="r10" headers="r1 c1">Education</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r11" headers="r1 r10 c1">Less than high school</th>
<td headers="r1 r10 r11 c2">20.6</td>
<td headers="r1 r10 r11 c3">13.9</td>
<td headers="r1 r10 r11 c4">9.0</td>
<td headers="r1 r10 r11 c5">6.4</td>
<td headers="r1 r10 r11 c6">7.3</td>
<td headers="r1 r10 r11 c7">7.2</td>
<td headers="r1 r10 r11 c8">8.1</td>
</tr>
<tr>
<th class="stub1" id="r12" headers="r1 r10 c1">High school degree</th>
<td headers="r1 r10 r12 c2">58.8</td>
<td headers="r1 r10 r12 c3">61.6</td>
<td headers="r1 r10 r12 c4">59.8</td>
<td headers="r1 r10 r12 c5">58.2</td>
<td headers="r1 r10 r12 c6">60.3</td>
<td headers="r1 r10 r12 c7">59.0</td>
<td headers="r1 r10 r12 c8">54.6</td>
</tr>
<tr>
<th class="stub1" id="r13" headers="r1 r10 c1">At least some college</th>
<td headers="r1 r10 r13 c2">20.6</td>
<td headers="r1 r10 r13 c3">24.5</td>
<td headers="r1 r10 r13 c4">31.2</td>
<td headers="r1 r10 r13 c5">35.4</td>
<td headers="r1 r10 r13 c6">32.4</td>
<td headers="r1 r10 r13 c7">33.8</td>
<td headers="r1 r10 r13 c8">37.3</td>
</tr>
<tr>
<th class="stub0" id="r14" headers="r1 c1">Benefit type (women only)</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r15" headers="r1 r14 c1">Retired worker</th>
<td headers="r1 r14 r15 c2">44.2</td>
<td headers="r1 r14 r15 c3">55.3</td>
<td headers="r1 r14 r15 c4">59.5</td>
<td headers="r1 r14 r15 c5">67.9</td>
<td headers="r1 r14 r15 c6">70.5</td>
<td headers="r1 r14 r15 c7">71.8</td>
<td headers="r1 r14 r15 c8">75.2</td>
</tr>
<tr>
<th class="stub1" id="r16" headers="r1 r14 c1">Dually entitled</th>
<td headers="r1 r14 r16 c2">31.3</td>
<td headers="r1 r14 r16 c3">28.3</td>
<td headers="r1 r14 r16 c4">27.9</td>
<td headers="r1 r14 r16 c5">23.9</td>
<td headers="r1 r14 r16 c6">21.6</td>
<td headers="r1 r14 r16 c7">20.6</td>
<td headers="r1 r14 r16 c8">17.7</td>
</tr>
<tr>
<th class="stub1" id="r17" headers="r1 r14 c1">Auxiliary only</th>
<td headers="r1 r14 r17 c2">24.5</td>
<td headers="r1 r14 r17 c3">16.4</td>
<td headers="r1 r14 r17 c4">12.6</td>
<td headers="r1 r14 r17 c5">8.2</td>
<td headers="r1 r14 r17 c6">7.9</td>
<td headers="r1 r14 r17 c7">7.7</td>
<td headers="r1 r14 r17 c8">7.1</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="panelWithSub" id="r18">Cohort average values</th>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="subWithPanel" id="r19" headers="r18">Quarters of coverage</th>
</tr>
<tr>
<th class="stub0" id="r20" headers="r18 r19 c1">Women</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r21" headers="r18 r19 r20 c1">Married</th>
<td headers="r18 r19 r20 r21 c2">75</td>
<td headers="r18 r19 r20 r21 c3">86</td>
<td headers="r18 r19 r20 r21 c4">99</td>
<td headers="r18 r19 r20 r21 c5">110</td>
<td headers="r18 r19 r20 r21 c6">117</td>
<td headers="r18 r19 r20 r21 c7">119</td>
<td headers="r18 r19 r20 r21 c8">120</td>
</tr>
<tr>
<th class="stub1" id="r22" headers="r18 r19 r20 c1">Divorced</th>
<td headers="r18 r19 r20 r22 c2">106</td>
<td headers="r18 r19 r20 r22 c3">107</td>
<td headers="r18 r19 r20 r22 c4">121</td>
<td headers="r18 r19 r20 r22 c5">129</td>
<td headers="r18 r19 r20 r22 c6">131</td>
<td headers="r18 r19 r20 r22 c7">131</td>
<td headers="r18 r19 r20 r22 c8">129</td>
</tr>
<tr>
<th class="stub1" id="r23" headers="r18 r19 r20 c1">Never married</th>
<td headers="r18 r19 r20 r23 c2">124</td>
<td headers="r18 r19 r20 r23 c3">132</td>
<td headers="r18 r19 r20 r23 c4">132</td>
<td headers="r18 r19 r20 r23 c5">142</td>
<td headers="r18 r19 r20 r23 c6">134</td>
<td headers="r18 r19 r20 r23 c7">140</td>
<td headers="r18 r19 r20 r23 c8">137</td>
</tr>
<tr>
<th class="stub1" id="r24" headers="r18 r19 r20 c1">Widowed</th>
<td headers="r18 r19 r20 r24 c2">84</td>
<td headers="r18 r19 r20 r24 c3">92</td>
<td headers="r18 r19 r20 r24 c4">106</td>
<td headers="r18 r19 r20 r24 c5">113</td>
<td headers="r18 r19 r20 r24 c6">116</td>
<td headers="r18 r19 r20 r24 c7">119</td>
<td headers="r18 r19 r20 r24 c8">117</td>
</tr>
<tr>
<th class="stub0" id="r25" headers="r18 r19 c1">Men</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r26" headers="r18 r19 r25 c1">Married</th>
<td headers="r18 r19 r25 r26 c2">141</td>
<td headers="r18 r19 r25 r26 c3">143</td>
<td headers="r18 r19 r25 r26 c4">144</td>
<td headers="r18 r19 r25 r26 c5">143</td>
<td headers="r18 r19 r25 r26 c6">144</td>
<td headers="r18 r19 r25 r26 c7">146</td>
<td headers="r18 r19 r25 r26 c8">142</td>
</tr>
<tr>
<th class="stub1" id="r27" headers="r18 r19 r25 c1">Divorced</th>
<td headers="r18 r19 r25 r27 c2">137</td>
<td headers="r18 r19 r25 r27 c3">135</td>
<td headers="r18 r19 r25 r27 c4">142</td>
<td headers="r18 r19 r25 r27 c5">139</td>
<td headers="r18 r19 r25 r27 c6">144</td>
<td headers="r18 r19 r25 r27 c7">148</td>
<td headers="r18 r19 r25 r27 c8">147</td>
</tr>
<tr>
<th class="stub1" id="r28" headers="r18 r19 r25 c1">Never married</th>
<td headers="r18 r19 r25 r28 c2">127</td>
<td headers="r18 r19 r25 r28 c3">132</td>
<td headers="r18 r19 r25 r28 c4">131</td>
<td headers="r18 r19 r25 r28 c5">136</td>
<td headers="r18 r19 r25 r28 c6">133</td>
<td headers="r18 r19 r25 r28 c7">135</td>
<td headers="r18 r19 r25 r28 c8">140</td>
</tr>
<tr>
<th class="stub1" id="r29" headers="r18 r19 r25 c1">Widowed</th>
<td headers="r18 r19 r25 r29 c2">139</td>
<td headers="r18 r19 r25 r29 c3">141</td>
<td headers="r18 r19 r25 r29 c4">134</td>
<td headers="r18 r19 r25 r29 c5">137</td>
<td headers="r18 r19 r25 r29 c6">141</td>
<td headers="r18 r19 r25 r29 c7">141</td>
<td headers="r18 r19 r25 r29 c8">137</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="subpanel" id="r30" headers="r18"> <abbr>AIME</abbr> (annual, household level, 2012&nbsp;dollars)</th>
</tr>
<tr>
<th class="stub0" id="r31" headers="r18 r30 c1">Marital status</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r32" headers="r18 r30 r31 c1">Married</th>
<td headers="r18 r30 r31 r32 c2">48,474</td>
<td headers="r18 r30 r31 r32 c3">58,188</td>
<td headers="r18 r30 r31 r32 c4">69,901</td>
<td headers="r18 r30 r31 r32 c5">77,339</td>
<td headers="r18 r30 r31 r32 c6">84,564</td>
<td headers="r18 r30 r31 r32 c7">90,867</td>
<td headers="r18 r30 r31 r32 c8">96,205</td>
</tr>
<tr>
<th class="stub1" id="r33" headers="r18 r30 r31 c1">Divorced</th>
<td headers="r18 r30 r31 r33 c2">24,499</td>
<td headers="r18 r30 r31 r33 c3">28,366</td>
<td headers="r18 r30 r31 r33 c4">35,004</td>
<td headers="r18 r30 r31 r33 c5">36,661</td>
<td headers="r18 r30 r31 r33 c6">41,158</td>
<td headers="r18 r30 r31 r33 c7">44,629</td>
<td headers="r18 r30 r31 r33 c8">49,003</td>
</tr>
<tr>
<th class="stub1" id="r34" headers="r18 r30 r31 c1">Never married</th>
<td headers="r18 r30 r31 r34 c2">25,829</td>
<td headers="r18 r30 r31 r34 c3">31,681</td>
<td headers="r18 r30 r31 r34 c4">37,679</td>
<td headers="r18 r30 r31 r34 c5">40,096</td>
<td headers="r18 r30 r31 r34 c6">40,939</td>
<td headers="r18 r30 r31 r34 c7">43,625</td>
<td headers="r18 r30 r31 r34 c8">51,373</td>
</tr>
<tr>
<th class="stub1" id="r35" headers="r18 r30 r31 c1">Widowed</th>
<td headers="r18 r30 r31 r35 c2">21,491</td>
<td headers="r18 r30 r31 r35 c3">25,465</td>
<td headers="r18 r30 r31 r35 c4">29,014</td>
<td headers="r18 r30 r31 r35 c5">32,608</td>
<td headers="r18 r30 r31 r35 c6">36,855</td>
<td headers="r18 r30 r31 r35 c7">39,889</td>
<td headers="r18 r30 r31 r35 c8">40,475</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="subpanel" id="r36" headers="r18">Benefit amount (annual, household level, 2012&nbsp;dollars)</th>
</tr>
<tr>
<th class="stub0" id="r37" headers="r18 r36 c1">Marital status</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" id="r38" headers="r18 r36 r37 c1">Married</th>
<td headers="r18 r36 r37 r38 c2">22,126</td>
<td headers="r18 r36 r37 r38 c3">25,536</td>
<td headers="r18 r36 r37 r38 c4">28,888</td>
<td headers="r18 r36 r37 r38 c5">31,400</td>
<td headers="r18 r36 r37 r38 c6">33,225</td>
<td headers="r18 r36 r37 r38 c7">32,046</td>
<td headers="r18 r36 r37 r38 c8">33,647</td>
</tr>
<tr>
<th class="stub1" id="r39" headers="r18 r36 r37 c1">Divorced</th>
<td headers="r18 r36 r37 r39 c2">12,397</td>
<td headers="r18 r36 r37 r39 c3">13,012</td>
<td headers="r18 r36 r37 r39 c4">15,620</td>
<td headers="r18 r36 r37 r39 c5">16,360</td>
<td headers="r18 r36 r37 r39 c6">17,543</td>
<td headers="r18 r36 r37 r39 c7">17,063</td>
<td headers="r18 r36 r37 r39 c8">18,148</td>
</tr>
<tr>
<th class="stub1" id="r40" headers="r18 r36 r37 c1">Never married</th>
<td headers="r18 r36 r37 r40 c2">11,290</td>
<td headers="r18 r36 r37 r40 c3">13,533</td>
<td headers="r18 r36 r37 r40 c4">14,908</td>
<td headers="r18 r36 r37 r40 c5">16,043</td>
<td headers="r18 r36 r37 r40 c6">16,260</td>
<td headers="r18 r36 r37 r40 c7">15,209</td>
<td headers="r18 r36 r37 r40 c8">17,291</td>
</tr>
<tr>
<th class="stub1" id="r41" headers="r18 r36 r37 c1">Widowed</th>
<td headers="r18 r36 r37 r41 c2">13,264</td>
<td headers="r18 r36 r37 r41 c3">14,439</td>
<td headers="r18 r36 r37 r41 c4">16,062</td>
<td headers="r18 r36 r37 r41 c5">17,004</td>
<td headers="r18 r36 r37 r41 c6">18,300</td>
<td headers="r18 r36 r37 r41 c7">17,606</td>
<td headers="r18 r36 r37 r41 c8">18,353</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="subpanel" id="r42" headers="r18">Age when claiming (years)</th>
</tr>
<tr>
<th class="stub0" id="r43" headers="r18 r42 c1">All</th>
<td headers="r18 r42 r43 c2">63.5</td>
<td headers="r18 r42 r43 c3">63.4</td>
<td headers="r18 r42 r43 c4">63.9</td>
<td headers="r18 r42 r43 c5">64.3</td>
<td headers="r18 r42 r43 c6">64.1</td>
<td headers="r18 r42 r43 c7">64.1</td>
<td headers="r18 r42 r43 c8">64.1</td>
</tr>
<tr>
<th class="stub0" id="r44" headers="r18 r42 c1">Men</th>
<td headers="r18 r42 r44 c2">63.9</td>
<td headers="r18 r42 r44 c3">63.7</td>
<td headers="r18 r42 r44 c4">64.0</td>
<td headers="r18 r42 r44 c5">64.5</td>
<td headers="r18 r42 r44 c6">64.3</td>
<td headers="r18 r42 r44 c7">64.4</td>
<td headers="r18 r42 r44 c8">64.4</td>
</tr>
<tr>
<th class="stub0" id="r45" headers="r18 r42 c1">Women</th>
<td headers="r18 r42 r45 c2">63.3</td>
<td headers="r18 r42 r45 c3">63.2</td>
<td headers="r18 r42 r45 c4">63.7</td>
<td headers="r18 r42 r45 c5">64.1</td>
<td headers="r18 r42 r45 c6">63.9</td>
<td headers="r18 r42 r45 c7">63.8</td>
<td headers="r18 r42 r45 c8">63.8</td>
</tr>
<tr class="shaded">
<th class="stub0" id="r46" headers="r18 r42 c1">Number of observations</th>
<td headers="r18 r42 r46 c2">6,460</td>
<td headers="r18 r42 r46 c3">4,820</td>
<td headers="r18 r42 r46 c4">6,041</td>
<td headers="r18 r42 r46 c5">6,962</td>
<td headers="r18 r42 r46 c6">7,676</td>
<td headers="r18 r42 r46 c7">7,590</td>
<td headers="r18 r42 r46 c8">10,966</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="8">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="8">NOTE: Rounded components of percentage distributions do not necessarily sum to 100.0.</td>
</tr>
</tfoot>
</table>
</div>
<p>Current trends suggest a continuing decline in the share of households that will retire as married couples and increasing shares of never-married and divorced households at retirement. Table&nbsp;7 also shows that the average number of covered quarters generally rises for women in successively younger cohorts. Consequently, more women will be eligible for their own worker benefits at retirement, with the proportion increasing from 68&nbsp;percent for the <abbr class="spell">EBB</abbr>s to 75&nbsp;percent for Gen&nbsp;Xers.</p>
<p>Projections from <abbr>MINT</abbr> indicate that the replacement rate will continue to decline for future retirees.<sup><a href="#mn17" id="mt17">17</a></sup> At the individual level, the replacement rate will decline from 46&nbsp;percent for <abbr class="spell">EBB</abbr>s to 40&nbsp;percent for Gen&nbsp;Xers (<a href="#table5">Table&nbsp;5</a>), and at the household level, it will decline from 45&nbsp;percent to 39&nbsp;percent (<a href="#table6">Table&nbsp;6</a>). Further, for both the earlier and later cohorts, the decline in replacement rates occurs across all income groups, but is more pronounced in the highest income tercile (Table&nbsp;8). That pattern reflects the influx of highly educated women into the workforce among the two-earner couples.</p>
<div class="table" id="table8">
<table>
<caption><span class="tableNumber">Table&nbsp;8. </span>Estimated median replacement rates for married-couple households, by <abbr>MINT</abbr> birth cohort, number of earners in household, and husband's earnings tercile (in&nbsp;percent)</caption>
<colgroup span="1" style="width:8em"></colgroup>
<colgroup span="7" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Husband's earnings tercile</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
<th scope="col"><abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959)</span></th>
<th scope="col"><abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965)</span></th>
<th scope="col">Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span></th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="panel" scope="rowgroup">Single-earner households</th>
</tr>
<tr>
<th class="stub0" scope="row">Low</th>
<td>73</td>
<td>72</td>
<td>67</td>
<td>72</td>
<td>52</td>
<td>54</td>
<td>55</td>
</tr>
<tr>
<th class="stub0" scope="row">Median</th>
<td>53</td>
<td>52</td>
<td>48</td>
<td>46</td>
<td>44</td>
<td>31</td>
<td>34</td>
</tr>
<tr>
<th class="stub0" scope="row">High</th>
<td>46</td>
<td>44</td>
<td>46</td>
<td>37</td>
<td>42</td>
<td>33</td>
<td>26</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="panel" scope="rowgroup">Two-earner households</th>
</tr>
<tr>
<th class="stub0" scope="row">Low</th>
<td>53</td>
<td>53</td>
<td>51</td>
<td>51</td>
<td>49</td>
<td>44</td>
<td>46</td>
</tr>
<tr>
<th class="stub0" scope="row">Median</th>
<td>45</td>
<td>43</td>
<td>40</td>
<td>42</td>
<td>41</td>
<td>36</td>
<td>38</td>
</tr>
<tr>
<th class="stub0" scope="row">High</th>
<td>41</td>
<td>38</td>
<td>37</td>
<td>36</td>
<td>36</td>
<td>31</td>
<td>30</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="7" class="panel" scope="rowgroup">Combined households</th>
</tr>
<tr>
<th class="stub0" scope="row">Low</th>
<td>58</td>
<td>57</td>
<td>54</td>
<td>53</td>
<td>50</td>
<td>45</td>
<td>47</td>
</tr>
<tr>
<th class="stub0" scope="row">Median</th>
<td>46</td>
<td>44</td>
<td>41</td>
<td>42</td>
<td>41</td>
<td>36</td>
<td>37</td>
</tr>
<tr>
<th class="stub0" scope="row">High</th>
<td>42</td>
<td>39</td>
<td>37</td>
<td>36</td>
<td>36</td>
<td>31</td>
<td>30</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="8">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="8">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<p><abbr>MINT</abbr> projects that replacement rates will decline more for single-earner households than for two-earner households: From the <abbr class="spell">EBB</abbr> to the Gen&nbsp;X birth cohorts, replacement rates are projected to drop from 54&nbsp;percent to 38&nbsp;percent for single-earner households (<a href="#table6">Table&nbsp;6</a>). That sharp decline, which is concentrated in the last two cohorts, is a surprising departure from the experience of older cohorts. The difference is driven primarily by projected changes in the nature of single-earner households. The share of single-earner households in which spouses receive benefits based solely on the husband's earnings record is projected to drop sharply across cohorts, from 72&nbsp;percent for <abbr class="spell">EBB</abbr>s to 64&nbsp;percent for Gen&nbsp;Xers (not shown). At the same time, the share of households in which spouses receive benefits based on the wife's work history will increase. The latter category tends to have lower replacement rates because a husband who is not eligible for Social Security benefits based on his own working history usually has worked more and earned more than a noneligible wife. As a result, a noneligible husband ends up contributing more to the denominator of the replacement rate.</p>
<p>In summary, the analyses using the <abbr class="spell">HRS</abbr> and the <abbr>MINT</abbr> both show declining individual and household replacement rates. Moreover, the simulations indicate that the increasing labor force participation of women will continue to put downward pressure on Social Security replacement rates for future retirees.</p>
<h2>Factors Contributing to Replacement Rate Changes</h2>
<p>This section presents the decomposition analysis of the factors influencing cross-cohort declines in replacement rates. It describes the Oaxaca-Blinder decomposition model and then presents the decomposition results under actual and hypothetical assumptions about claiming age.</p>
<h3>Conceptual Framework</h3>
<p>How much of the decline in replacement rates can be explained by changes in women's labor force participation and marriage patterns&mdash;as opposed to other major factors, such as the raising of the <abbr class="spell">FRA</abbr> and early claiming? Claiming behavior may be particularly important because, under the 1983 Amendments to the Social Security Act, the <abbr class="spell">FRA</abbr> began to rise incrementally from 65 to 67. The actuarial reduction for early claiming means that if younger cohorts do not postpone claiming to keep pace with the scheduled increases in the <abbr class="spell">FRA</abbr>, they face lower replacement rates than older cohorts, all else equal. Chart&nbsp;4 shows the magnitude of the decline by comparing the ratio of benefits claimed at age&nbsp;62 to benefits claimed at <abbr class="spell">FRA</abbr> by birth year.<sup><a href="#mn18" id="mt18">18</a></sup> <abbr>MINT</abbr> projects that the average actual claiming age will increase from 63.5 for the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort to 64.1 for the Gen&nbsp;X cohort (<a href="#table7">Table&nbsp;7</a>).<sup><a href="#mn19" id="mt19">19</a></sup></p>
<div class="chartCenter">
<div class="chart400" id="chart4">
<div class="title">Chart&nbsp;4.<br>Legislated changes in <abbr class="spell">FRA</abbr> and in early eligibility (age&nbsp;62) retirement benefit as a percentage of full retirement benefit, by birth year</div>
<div class="scrollChart"><img src="v73n4p1-chart04.gif" alt="Line chart with tabular version below." width="400" height="242" /></div>
<div class="table altTable"><a class="altToggle" href="">Show as table</a>
<table>
<caption><span class="tableNumber">Table equivalent for Chart&nbsp;4. </span>Legislated changes in <abbr class="spell">FRA</abbr> and in early eligibility (age&nbsp;62) retirement benefit as a percentage of full retirement benefit, by birth year</caption>
<colgroup span="1" style="width:8em"></colgroup>
<colgroup span="2" style="width:8em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Birth year</th>
<th scope="col"><abbr class="spell">FRA</abbr> (years)</th>
<th scope="col">Age-62 benefit (%)</th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="row">1931</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1932</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1933</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1934</th>
<td>65</td>
<td>80</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1935</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1936</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1937</th>
<td>65</td>
<td>80</td>
</tr>
<tr>
<th class="stub0" scope="row">1938</th>
<td>65.17</td>
<td>79.17</td>
</tr>
<tr>
<th class="stub0" scope="row">1939</th>
<td>65.33</td>
<td>78.33</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1940</th>
<td>65.5</td>
<td>77.5</td>
</tr>
<tr>
<th class="stub0" scope="row">1941</th>
<td>65.67</td>
<td>76.67</td>
</tr>
<tr>
<th class="stub0" scope="row">1942</th>
<td>65.83</td>
<td>75.83</td>
</tr>
<tr>
<th class="stub0" scope="row">1943</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1944</th>
<td>66</td>
<td>75</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1945</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1946</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1947</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1948</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1949</th>
<td>66</td>
<td>75</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1950</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1951</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1952</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1953</th>
<td>66</td>
<td>75</td>
</tr>
<tr>
<th class="stub0" scope="row">1954</th>
<td>66</td>
<td>75</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1955</th>
<td>66.17</td>
<td>74.17</td>
</tr>
<tr>
<th class="stub0" scope="row">1956</th>
<td>66.33</td>
<td>73.33</td>
</tr>
<tr>
<th class="stub0" scope="row">1957</th>
<td>66.5</td>
<td>72.5</td>
</tr>
<tr>
<th class="stub0" scope="row">1958</th>
<td>66.67</td>
<td>71.67</td>
</tr>
<tr>
<th class="stub0" scope="row">1959</th>
<td>66.83</td>
<td>70.83</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1960</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1961</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1962</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1963</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1964</th>
<td>67</td>
<td>70</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1965</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1966</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1967</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1968</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1969</th>
<td>67</td>
<td>70</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1970</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1971</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1972</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1973</th>
<td>67</td>
<td>70</td>
</tr>
<tr>
<th class="stub0" scope="row">1974</th>
<td>67</td>
<td>70</td>
</tr>
<tr class="topPad1">
<th class="stub0" scope="row">1975</th>
<td>67</td>
<td>70</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="noNotes" colspan="3">&nbsp;</td>
</tr>
</tfoot>
</table>
</div>
<div class="onlyNote">SOURCE: Social Security Act, as amended.</div>
</div>
</div>
<p>To examine the relative contributions of observable characteristics&mdash;such as labor force experience, marriage patterns, and claiming behavior&mdash;to the gaps in replacement rates between birth cohorts, we use a decomposition method developed by Oaxaca&nbsp;(1973) and Blinder&nbsp;(1973). That method, widely used in social science research, essentially involves calculating what one cohort's outcomes would have looked like if it had the characteristics of another cohort. We estimate the following linear regression to predict household replacement rates for individuals at retirement:</p>
<div class="equation">
<math display='inline'>
<mrow>
<msub>
<mi>R</mi>
<mi>i</mi>
</msub>
<mo>=</mo>
<msub>
<mi>X</mi>
<mi>i</mi>
</msub>
<msub>
<mi>&#x03B2;</mi>
<mi>i</mi>
</msub>
<mo>+</mo>
<msub>
<mi>&#x03B5;</mi>
<mi>i</mi>
</msub>
</mrow>
</math>
,&emsp;(1)</div>
<p class="noindent">where
<math display='inline'>
<mrow>
<msub>
<mi>R</mi>
<mi>i</mi>
</msub>
</mrow>
</math>
denotes the household replacement rate for individual <i>i;</i>
<math display='inline'>
<mrow>
<msub>
<mi>X</mi>
<mi>i</mi>
</msub>
</mrow>
</math>
denotes a set of observed characteristics and a constant,
<math display='inline'>
<mrow>
<msub>
<mi>&#x03B2;</mi>
<mi>i</mi>
</msub>
</mrow>
</math>
, contains the slope parameters and the intercept; and
<math display='inline'>
<mrow>
<msub>
<mi>&#x03B5;</mi>
<mi>i</mi>
</msub>
</mrow>
</math>
is a random error term. To explore the difference between two cohorts, we estimate parallel regressions for each cohort:</p>
<div class="equation">&emsp;
<math display='inline'>
<mrow>
<msub>
<mi>R</mi>
<mrow>
<mi>C</mi>
<mn>1</mn>
</mrow>
</msub>
<mo>=</mo>
<msub>
<mi>X</mi>
<mrow>
<mi>C</mi>
<mn>1</mn>
</mrow>
</msub>
<msub>
<mi>&#x03B2;</mi>
<mrow>
<mi>C</mi>
<mn>1</mn>
</mrow>
</msub>
<mo>+</mo>
<msub>
<mi>&#x03B5;</mi>
<mrow>
<mi>C</mi>
<mn>1</mn>
</mrow>
</msub>
</mrow>
</math>
&emsp;(2)</div>
<div class="equation">
<math display='inline'>
<mrow>
<msub>
<mi>R</mi>
<mrow>
<mi>C</mi>
<mn>2</mn>
</mrow>
</msub>
<mo>=</mo>
<msub>
<mi>X</mi>
<mrow>
<mi>C</mi>
<mn>2</mn>
</mrow>
</msub>
<msub>
<mi>&#x03B2;</mi>
<mrow>
<mi>C</mi>
<mn>2</mn>
</mrow>
</msub>
<mo>+</mo>
<msub>
<mi>&#x03B5;</mi>
<mrow>
<mi>C</mi>
<mn>2</mn>
</mrow>
</msub>
</mrow>
</math>
,&emsp;(3)</div>
<p class="noindent">where <i>C</i>1 denotes cohort&nbsp;1 and <i>C</i>2 denotes cohort&nbsp;2, and the error terms
<math display='inline'>
<mrow>
<msub>
<mi>&#x03B5;</mi>
<mrow>
<mi>C</mi>
<mn>1</mn>
</mrow>
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<p class="noindent">where
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is the coefficient from a pooled regression in either cohort (Neumark&nbsp;1988).<sup><a href="#mn20" id="mt20">20</a></sup> This equation decomposes the difference in cross-cohort outcomes into the &ldquo;explained&rdquo; portion (attributable to differences in the mean of the variables <i>X</i> in the two groups) and the &ldquo;unexplained&rdquo; portion (owing to differences in the coefficients between the two groups for the same values of <i>X,</i> including differences in the intercept).<sup><a href="#mn21" id="mt21">21</a></sup></p>
<p>In the main analysis, the <i>X</i> vector includes three major components that could contribute to the difference across cohorts: marital status <i>(M),</i> labor force participation <i>(L),</i> and claiming behavior <i>(B ratio).</i> The vector for marital status <i>M</i> includes dummies for married, widowed, and divorced; the vector for labor force participation <i>L</i> includes total number of covered quarters, a dummy of whether 40&nbsp;quarters have been accrued, and a measure of average lifetime earnings.<sup><a href="#mn22" id="mt22">22</a></sup> <i>B ratio</i> is the outcome of claiming behavior, given the gradually increasing <abbr class="spell">FRA</abbr> across cohorts; it is constructed as the ratio of actual to full benefits, which differ depending on whether individuals claim early and receive an actuarially reduced benefit, or claim late and receive delayed retirement credits.<sup><a href="#mn23" id="mt23">23</a></sup> The model also controls for changes over time in the population distribution by education, race, and sex; those factors are grouped in the <i>D</i> vector. Finally, <i>&epsilon;</i> is a random error term with mean zero.</p>
<h3>Empirical Results</h3>
<p>The results of estimating equation (5)&nbsp;are summarized in Table&nbsp;9, which decomposes the differences in mean replacement rates between cohorts to their contributing factors.<sup><a href="#mn24" id="mt24">24</a></sup> Overall, the difference in average replacement rates between the oldest cohort (<span class="nobr"><abbr class="spell">DE</abbr>1</span>) and the youngest (Gen&nbsp;X) is 12.7&nbsp;percentage points.<sup><a href="#mn25" id="mt25">25</a></sup> Changes in labor force activity (and the resulting earnings) explain 31.7&nbsp;percent of the difference in replacement rates between the oldest and youngest cohorts.<sup><a href="#mn26" id="mt26">26</a></sup> Moreover, when comparing the oldest cohort (<span class="nobr"><abbr class="spell">DE</abbr>1</span>) with its more proximate cohorts, labor force activity accounts for even more of the change&mdash;ranging from 31.7 to 74.6&nbsp;percent. For instance, the labor force activity explains 67.7&nbsp;percent of the change when comparing the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort with the <span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort.</p>
<div class="table" id="table9">
<table>
<caption><span class="tableNumber">Table&nbsp;9. </span>Decomposition of changes in mean household-level replacement rates between <abbr>MINT</abbr> cohort pairs: All beneficiaries</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="1" style="width:7em"></colgroup>
<colgroup span="5" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="2" class="stubHeading" scope="colgroup">Difference between <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort and&mdash;</th>
<th rowspan="2" scope="colgroup">Total decline in mean replacement rate</th>
<th colspan="5" class="spanner" scope="colgroup">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th scope="col">Demographics&nbsp;<sup>a</sup></th>
<th scope="col">Marital status</th>
<th scope="col">Claiming behavior</th>
<th scope="col">Labor force activity</th>
<th scope="col">Unexplained factors</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" scope="rowgroup">Percentage points</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>2.4</td>
<td class="align3asterisks">0.2</td>
<td class="align3asterisks">0.1</td>
<td>1.1***</td>
<td>1.6***</td>
<td class="align3asterisks">-0.6</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>5.2</td>
<td>0.6***</td>
<td class="align3asterisks">0.0</td>
<td>1.7***</td>
<td>3.5***</td>
<td class="align3asterisks">-0.6</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>5.5</td>
<td>0.7***</td>
<td>-0.4***</td>
<td class="align3asterisks">0.3</td>
<td>4.1***</td>
<td class="align1asterisk">0.9**</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>7.8</td>
<td>0.6***</td>
<td>-0.5***</td>
<td>2.5***</td>
<td>4.1***</td>
<td class="align1asterisk">1.1**</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>12.8</td>
<td>0.8***</td>
<td>-0.5***</td>
<td>4.2***</td>
<td>4.5***</td>
<td>3.7***</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>12.7</td>
<td>0.6***</td>
<td>-0.3***</td>
<td>4.3***</td>
<td>4.0***</td>
<td>4.2***</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" scope="rowgroup">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>100.0</td>
<td class="align3asterisks">8.4</td>
<td class="align3asterisks">2.8</td>
<td class="align3asterisks">47.9</td>
<td class="align3asterisks">67.7</td>
<td class="align3asterisks">-26.9</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>100.0</td>
<td class="align3asterisks">12.0</td>
<td class="align3asterisks">0.9</td>
<td class="align3asterisks">31.8</td>
<td class="align3asterisks">67.7</td>
<td class="align3asterisks">-12.4</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">12.7</td>
<td class="align3asterisks">-7.6</td>
<td class="align3asterisks">4.7</td>
<td class="align3asterisks">74.6</td>
<td class="align3asterisks">15.7</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.7</td>
<td class="align3asterisks">-6.4</td>
<td class="align3asterisks">32.0</td>
<td class="align3asterisks">52.7</td>
<td class="align3asterisks">14.1</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">5.9</td>
<td class="align3asterisks">-3.6</td>
<td class="align3asterisks">33.0</td>
<td class="align3asterisks">35.4</td>
<td class="align3asterisks">29.3</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>100.0</td>
<td class="align3asterisks">4.5</td>
<td class="align3asterisks">-2.7</td>
<td class="align3asterisks">33.7</td>
<td class="align3asterisks">31.7</td>
<td class="align3asterisks">32.8</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="7">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="7">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="7">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<p>Changes in marital patterns over time also affect the replacement rate, but in the opposite direction as the effect of labor force activity&mdash;at least, for some cohort pairs, particularly those with greater age differences.<sup><a href="#mn27" id="mt27">27</a></sup> Because married couples have, on average, lower replacement rates than other groups, a decline in the share of married households leads to an increase in the replacement rate.<sup><a href="#mn28" id="mt28">28</a></sup> In terms of magnitude, these effects are small yet statistically significant. Changes in marital patterns account for less than 3&nbsp;percent of the difference in mean replacement rates between the oldest and youngest cohorts in our sample (Table&nbsp;9).</p>
<p>Given the incremental raising of the <abbr class="spell">FRA</abbr>, change in claiming behavior over time is also an important factor. It accounts for over <span class="nobr">one-third</span> of the change in replacement rates between the oldest and the youngest cohorts. The reason claiming behavior exerts such influence is that even though the younger generations are projected to retire later, the delay is not sufficient to keep pace with the increase in the <abbr class="spell">FRA</abbr>. As a result, <abbr>MINT</abbr> expects a larger portion of future retirees to face an actuarial reduction in benefits.</p>
<p>Additionally, changes in demographic factors such as race, sex, and education distributions explain about 5&nbsp;percent of the total decline in replacement rates between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and Gen&nbsp;X cohorts. Finally, although differences in three major factors (labor force activity, marital status, and claiming behavior) can account for much of the decline in replacement rates over time, more than 30&nbsp;percent of the change between the oldest and the youngest cohort remains unexplained. The unexplained component is bigger when comparing cohorts with greater age differences, suggesting that these unexplained factors could in part be driven by the underlying assumptions used for the projections.</p>
<p>We repeated the Oaxaca-Blinder analysis for women only. The results (Table&nbsp;10) are largely consistent with those for all households, although changes in labor force activity explain a larger fraction of the change in mean replacement rates across cohorts. About half (50.6&nbsp;percent) of the difference is explained by the changes in labor force activity when comparing replacement rates of the oldest and the youngest cohorts. Further, the unexplained effect is much smaller (15.6&nbsp;percent), which is consistent with the premise that the changes in replacement rates over time are primarily driven by the changing role of women.</p>
<div class="table" id="table10">
<table>
<caption><span class="tableNumber">Table&nbsp;10. </span>Decomposition of changes in mean household-level replacement rates between <abbr>MINT</abbr> cohort pairs: Women</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="1" style="width:7em"></colgroup>
<colgroup span="5" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="2" class="stubHeading" scope="colgroup">Difference between <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort and&mdash;</th>
<th rowspan="2" scope="colgroup">Total decline in mean replacement rate</th>
<th colspan="5" class="spanner" scope="colgroup">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th scope="col">Demographics&nbsp;<sup>a</sup></th>
<th scope="col">Marital status</th>
<th scope="col">Claiming behavior</th>
<th scope="col">Labor force activity</th>
<th scope="col">Unexplained factors</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" scope="rowgroup">Percentage points</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>3.3</td>
<td class="align1asterisk">0.2**</td>
<td class="align3asterisks">0.1</td>
<td>0.9***</td>
<td>2.1***</td>
<td class="align3asterisks">-0.1</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>5.9</td>
<td>0.6***</td>
<td class="align3asterisks">0.2</td>
<td>1.1***</td>
<td>5.2***</td>
<td class="align1asterisk">-1.2**</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>7.0</td>
<td class="align1asterisk">0.6**</td>
<td class="align3asterisks">-0.2</td>
<td class="align3asterisks">0.0</td>
<td>7.0***</td>
<td class="align3asterisks">-0.5</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>9.0</td>
<td>0.7***</td>
<td class="align3asterisks">-0.2</td>
<td>2.1***</td>
<td>7.0***</td>
<td class="align3asterisks">-0.6</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>14.1</td>
<td>1.0***</td>
<td class="align3asterisks">-0.3</td>
<td>4.0***</td>
<td>7.7***</td>
<td class="align1asterisk">1.7**</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>14.2</td>
<td>0.9***</td>
<td class="align3asterisks">-0.1</td>
<td>4.0***</td>
<td>7.2***</td>
<td>2.2***</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" scope="rowgroup">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.0</td>
<td class="align3asterisks">3.6</td>
<td class="align3asterisks">28.0</td>
<td class="align3asterisks">63.3</td>
<td class="align3asterisks">-1.8</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>100.0</td>
<td class="align3asterisks">10.5</td>
<td class="align3asterisks">3.4</td>
<td class="align3asterisks">18.1</td>
<td class="align3asterisks">88.0</td>
<td class="align3asterisks">-20.0</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">8.9</td>
<td class="align3asterisks">-2.2</td>
<td class="align3asterisks">-0.7</td>
<td class="align3asterisks">100.9</td>
<td class="align3asterisks">-6.9</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.6</td>
<td class="align3asterisks">-2.7</td>
<td class="align3asterisks">23.0</td>
<td class="align3asterisks">78.2</td>
<td class="align3asterisks">-6.2</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.3</td>
<td class="align3asterisks">-2.0</td>
<td class="align3asterisks">28.1</td>
<td class="align3asterisks">54.3</td>
<td class="align3asterisks">12.3</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>100.0</td>
<td class="align3asterisks">6.1</td>
<td class="align3asterisks">-0.7</td>
<td class="align3asterisks">28.5</td>
<td class="align3asterisks">50.6</td>
<td class="align3asterisks">15.6</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="7">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="7">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="7">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<p>Finally, we applied the Oaxaca-Blinder decomposition analysis to different marital-status groups. The results (Table&nbsp;11) are largely consistent with the previous analyses, except that changing claiming behaviors play a much more important role for the divorced and never-married groups, accounting for nearly 50&nbsp;percent of the change in replacement rates between the oldest and the youngest cohorts. For the married, the model also controls for spouses' characteristics. Doing so provides further evidence on how marriage, specifically assortative mating, impacts replacement rates.<sup><a href="#mn29" id="mt29">29</a></sup> The results show that a spouse's claiming behavior and labor force activity are nearly as important as those of the reference person in explaining changes in household replacement rates over time.</p>
<div class="table" id="table11">
<table>
<caption><span class="tableNumber">Table&nbsp;11. </span>Decomposition of changes in mean household-level replacement rates between <abbr>MINT</abbr> cohorts <span class="nobr"><abbr class="spell">DE</abbr>1</span> and Gen&nbsp;X, by marital status</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="8" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="3" class="stubHeading" id="c1">Marital status</th>
<th rowspan="3" id="c2">Total decline in mean replacement rate</th>
<th colspan="7" class="spanner" id="c3">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th colspan="3" class="spanner" id="c4" headers="c3">Own</th>
<th colspan="3" class="spanner" id="c5" headers="c3">Spouse's</th>
<th rowspan="2" id="c6" headers="c3">Unexplained factors</th>
</tr>
<tr>
<th id="c7" headers="c3 c4">Demographics&nbsp;<sup>a</sup></th>
<th id="c8" headers="c3 c4">Claiming behavior</th>
<th id="c9" headers="c3 c4">Labor force activity</th>
<th id="c10" headers="c3 c5">Demographics&nbsp;<sup>a</sup></th>
<th id="c11" headers="c3 c5">Claiming behavior</th>
<th id="c12" headers="c3 c5">Labor force activity</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="8" class="panel" id="r1">Percentage points</th>
</tr>
<tr>
<th class="stub0" id="r2" headers="r1 c1">Married</th>
<td headers="r1 r2 c2">11.2</td>
<td headers="r1 r2 c3 c4 c7">0.0</td>
<td headers="r1 r2 c3 c4 c8">2.6***</td>
<td headers="r1 r2 c3 c4 c9">2.7***</td>
<td headers="r1 r2 c3 c5 c10">0.2**</td>
<td headers="r1 r2 c3 c5 c11">2.2***</td>
<td headers="r1 r2 c3 c5 c12">3.2***</td>
<td class="align2asterisks" headers="r1 r2 c3 c6">0.1</td>
</tr>
<tr>
<th class="stub0" id="r3" headers="r1 c1">Widowed</th>
<td headers="r1 r3 c2">17.7</td>
<td headers="r1 r3 c3 c4 c7">0.4</td>
<td headers="r1 r3 c3 c4 c8">4.9***</td>
<td headers="r1 r3 c3 c4 c9">9.3***</td>
<td class="align2asterisks" headers="r1 r3 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r3 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r3 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td headers="r1 r3 c3 c6">3.1**</td>
</tr>
<tr>
<th class="stub0" id="r4" headers="r1 c1">Divorced</th>
<td headers="r1 r4 c2">15.0</td>
<td headers="r1 r4 c3 c4 c7">0.2</td>
<td headers="r1 r4 c3 c4 c8">7.3***</td>
<td headers="r1 r4 c3 c4 c9">6.8***</td>
<td class="align2asterisks" headers="r1 r4 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r4 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r4 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td class="align2asterisks" headers="r1 r4 c3 c6">0.7</td>
</tr>
<tr>
<th class="stub0" id="r5" headers="r1 c1">Never married</th>
<td headers="r1 r5 c2">17.0</td>
<td headers="r1 r5 c3 c4 c7">0.3</td>
<td headers="r1 r5 c3 c4 c8">8.5***</td>
<td headers="r1 r5 c3 c4 c9">6.0***</td>
<td class="align2asterisks" headers="r1 r5 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r5 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r5 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td headers="r1 r5 c3 c6">2.2**</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="8" class="panel" id="r6">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" id="r7" headers="r6 c1">Married</th>
<td headers="r6 r7 c2">100.0</td>
<td headers="r6 r7 c3 c4 c7">0.1</td>
<td class="align3asterisks" headers="r6 r7 c3 c4 c8">23.5</td>
<td class="align3asterisks" headers="r6 r7 c3 c4 c9">24.4</td>
<td class="align2asterisks" headers="r6 r7 c3 c5 c10">2.0</td>
<td class="align3asterisks" headers="r6 r7 c3 c5 c11">20.0</td>
<td class="align3asterisks" headers="r6 r7 c3 c5 c12">28.2</td>
<td class="align2asterisks" headers="r6 r7 c3 c6">1.3</td>
</tr>
<tr>
<th class="stub0" id="r8" headers="r6 c1">Widowed</th>
<td headers="r6 r8 c2">100.0</td>
<td headers="r6 r8 c3 c4 c7">2.1</td>
<td class="align3asterisks" headers="r6 r8 c3 c4 c8">27.7</td>
<td class="align3asterisks" headers="r6 r8 c3 c4 c9">52.5</td>
<td class="align2asterisks" headers="r6 r8 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r8 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r8 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td class="align2asterisks" headers="r6 r8 c3 c6">17.7</td>
</tr>
<tr>
<th class="stub0" id="r9" headers="r6 c1">Divorced</th>
<td headers="r6 r9 c2">100.0</td>
<td headers="r6 r9 c3 c4 c7">1.5</td>
<td class="align3asterisks" headers="r6 r9 c3 c4 c8">48.7</td>
<td class="align3asterisks" headers="r6 r9 c3 c4 c9">45.0</td>
<td class="align2asterisks" headers="r6 r9 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r9 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r9 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td class="align2asterisks" headers="r6 r9 c3 c6">4.9</td>
</tr>
<tr>
<th class="stub0" id="r10" headers="r6 c1">Never married</th>
<td headers="r6 r10 c2">100.0</td>
<td headers="r6 r10 c3 c4 c7">1.8</td>
<td class="align3asterisks" headers="r6 r10 c3 c4 c8">49.8</td>
<td class="align3asterisks" headers="r6 r10 c3 c4 c9">35.3</td>
<td class="align2asterisks" headers="r6 r10 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r10 c3 c5 c11">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r10 c3 c5 c12">.&nbsp;.&nbsp;.</td>
<td class="align2asterisks" headers="r6 r10 c3 c6">13.1</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="9">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="9">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">.&nbsp;.&nbsp;.&nbsp;= not applicable.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="9">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<h3>Alternative Claiming Behavior Specifications</h3>
<p>The results from our main model reveal the importance of individuals' claiming behavior to replacement rates. By design, the variable that captures the effect of claiming behavior, <i>B ratio,</i> reflects the actuarial reduction or delayed retirement credit applied to an individual's full benefit; thus, it is a function of both the age at claiming and the individual's <abbr class="spell">FRA</abbr>, which has risen over time. Although <i>B ratio</i> does not separate the relative effects of age at claiming and the legislated change in <abbr class="spell">FRA</abbr>, its combined effect is important to the empirical specification because its omission would confound the estimates of the impacts of labor force activity and marriage rates.</p>
<p>However, to isolate the impacts of our variables of interest from those of claiming and law changes, we compare actual household replacement rates with the rates that would have resulted if all units claimed at <abbr class="spell">FRA</abbr> (Table&nbsp;12).<sup><a href="#mn30" id="mt30">30</a></sup> As expected, we see higher median replacement rates at <abbr class="spell">FRA</abbr> than at actual claiming age. Further, replacement rates at <abbr class="spell">FRA</abbr> decline more gradually over time than do those at actual claiming age for all marital-status groups.</p>
<div class="table" id="table12">
<table>
<caption><span class="tableNumber">Table&nbsp;12. </span>Median household-level replacement rates, by marital status and <abbr>MINT</abbr> birth cohort: Actual claiming age versus <abbr class="spell">FRA</abbr> (in&nbsp;percent)</caption>
<colgroup span="1" style="width:12em"></colgroup>
<colgroup span="7" style="width:7em"></colgroup>
<thead>
<tr>
<th class="stubHeading" scope="col">Marital status and claiming age</th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>1</span> <span class="nobr">(1931&ndash;1935)</span></th>
<th scope="col"><span class="nobr"><abbr class="spell">DE</abbr>2</span> <span class="nobr">(1936&ndash;1941)</span></th>
<th scope="col">War baby <span class="nobr">(1942&ndash;1947)</span></th>
<th scope="col"><abbr class="spell">EBB</abbr> <span class="nobr">(1948&ndash;1953)</span></th>
<th scope="col"><abbr class="spell">MBB</abbr> <span class="nobr">(1954&ndash;1959)</span></th>
<th scope="col"><abbr class="spell">LBB</abbr> <span class="nobr">(1960&ndash;1965)</span></th>
<th scope="col">Gen&nbsp;X <span class="nobr">(1966&ndash;1975)</span></th>
</tr>
</thead>
<tbody>
<tr>
<th class="stub0" scope="rowgroup">All households</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Actual claiming age</th>
<td>50</td>
<td>47</td>
<td>45</td>
<td>45</td>
<td>44</td>
<td>39</td>
<td>39</td>
</tr>
<tr>
<th class="stub1" scope="row">If claimed at <abbr class="spell">FRA</abbr></th>
<td>55</td>
<td>53</td>
<td>51</td>
<td>51</td>
<td>51</td>
<td>49</td>
<td>49</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Never married</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Actual claiming age</th>
<td>47</td>
<td>47</td>
<td>43</td>
<td>44</td>
<td>45</td>
<td>40</td>
<td>38</td>
</tr>
<tr>
<th class="stub1" scope="row">If claimed at <abbr class="spell">FRA</abbr></th>
<td>53</td>
<td>50</td>
<td>49</td>
<td>48</td>
<td>52</td>
<td>51</td>
<td>49</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Currently married</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Actual claiming age</th>
<td>47</td>
<td>45</td>
<td>42</td>
<td>42</td>
<td>41</td>
<td>37</td>
<td>37</td>
</tr>
<tr>
<th class="stub1" scope="row">If claimed at <abbr class="spell">FRA</abbr></th>
<td>53</td>
<td>51</td>
<td>48</td>
<td>48</td>
<td>48</td>
<td>45</td>
<td>46</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Widowed</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Actual claiming age</th>
<td>64</td>
<td>60</td>
<td>61</td>
<td>56</td>
<td>53</td>
<td>48</td>
<td>50</td>
</tr>
<tr>
<th class="stub1" scope="row">If claimed at <abbr class="spell">FRA</abbr></th>
<td>77</td>
<td>70</td>
<td>70</td>
<td>64</td>
<td>63</td>
<td>62</td>
<td>63</td>
</tr>
<tr>
<th class="stub0" scope="rowgroup">Divorced</th>
<td colspan="7"></td>
</tr>
<tr>
<th class="stub1" scope="row">Actual claiming age</th>
<td>52</td>
<td>48</td>
<td>46</td>
<td>47</td>
<td>45</td>
<td>41</td>
<td>40</td>
</tr>
<tr>
<th class="stub1" scope="row">If claimed at <abbr class="spell">FRA</abbr></th>
<td>55</td>
<td>53</td>
<td>52</td>
<td>53</td>
<td>52</td>
<td>51</td>
<td>50</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="8">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="lastNote" colspan="8">NOTE: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.</td>
</tr>
</tfoot>
</table>
</div>
<p>We estimate decompositions at the <abbr class="spell">FRA</abbr> to mitigate the effects of potential behavioral responses to the scheduled <abbr class="spell">FRA</abbr> increase and to provide a robustness check to the earlier estimation results. By defining the <abbr class="spell">FRA</abbr> replacement rates as the outcome variable, we remove the variable <i>B ratio</i> from the right-hand side of the model and avoid the potentially confounding effects of the previous specification.</p>
<p>Tables&nbsp;13, 14, and 15 present the estimates for the full sample of households, for women only, and for households by marital status, respectively. With the effect of claiming behavior removed, differences in labor supply (including labor force attachment and earnings) explain over 70&nbsp;percent of the gap in replacement rates between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort and all subsequent cohorts through the <abbr class="spell">MBB</abbr>s, and about half of the difference between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and Gen&nbsp;X cohorts (Table&nbsp;13). Marital pattern effects are statistically significant but economically small.<sup><a href="#mn31" id="mt31">31</a></sup> Changing demographics also account for only a small percentage of the difference. Again, nearly <span class="nobr">one-half</span> of the difference between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and the last two cohorts remains unexplained by differences in mean characteristics and is instead attributed to the changes in the returns to the factors (that is, due to changes in the coefficient estimates, rather than the differences in mean characteristics) or to unobservable factors.</p>
<div class="table" id="table13">
<table>
<caption><span class="tableNumber">Table&nbsp;13. </span>Decomposition of changes in mean household-level replacement rates at <abbr class="spell">FRA</abbr> between <abbr>MINT</abbr> cohort pairs: All beneficiaries</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="1" style="width:7em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="2" class="stubHeading" scope="colgroup">Difference between <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort and&mdash;</th>
<th rowspan="2" scope="colgroup">Total decline in mean replacement rate</th>
<th colspan="4" class="spanner" scope="colgroup">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th scope="col">Demographics&nbsp;<sup>a</sup></th>
<th scope="col">Marital status</th>
<th scope="col">Labor force activity</th>
<th scope="col">Unexplained factors</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="5" class="panel" scope="rowgroup">Percentage points</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>1.7</td>
<td class="align3asterisks">0.2</td>
<td class="align3asterisks">0.1</td>
<td>1.8***</td>
<td class="align3asterisks">-0.4</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>4.4</td>
<td>0.6***</td>
<td class="align3asterisks">0.1</td>
<td>3.9***</td>
<td class="align3asterisks">-0.2</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>5.9</td>
<td>0.7***</td>
<td>-0.5***</td>
<td>4.6***</td>
<td class="align1asterisk">1.1**</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>6.6</td>
<td>0.6***</td>
<td>-0.6***</td>
<td>4.7***</td>
<td>1.9***</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>10.2</td>
<td>0.8***</td>
<td>-0.6***</td>
<td>5.3***</td>
<td>4.8***</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>10.0</td>
<td>0.6***</td>
<td>-0.5***</td>
<td>5.0***</td>
<td>4.9***</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="5" class="panel" scope="rowgroup">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>100.0</td>
<td class="align3asterisks">11.8</td>
<td class="align3asterisks">5.9</td>
<td class="align3asterisks">105.9</td>
<td class="align3asterisks">-23.5</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>100.0</td>
<td class="align3asterisks">13.6</td>
<td class="align3asterisks">2.3</td>
<td class="align3asterisks">88.6</td>
<td class="align3asterisks">-4.5</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">11.9</td>
<td class="align3asterisks">-8.5</td>
<td class="align3asterisks">78.0</td>
<td class="align3asterisks">18.6</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">9.1</td>
<td class="align3asterisks">-9.1</td>
<td class="align3asterisks">71.2</td>
<td class="align3asterisks">28.8</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.8</td>
<td class="align3asterisks">-5.9</td>
<td class="align3asterisks">52.0</td>
<td class="align3asterisks">47.1</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>100.0</td>
<td class="align3asterisks">6.0</td>
<td class="align3asterisks">-5.0</td>
<td class="align3asterisks">50.0</td>
<td class="align3asterisks">49.0</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="6">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="6">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="6">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<div class="table" id="table14">
<table>
<caption><span class="tableNumber">Table&nbsp;14. </span>Decomposition of changes in mean household-level replacement rates at <abbr class="spell">FRA</abbr> between <abbr>MINT</abbr> cohort pairs: Women</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="1" style="width:7em"></colgroup>
<colgroup span="4" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="2" class="stubHeading" scope="colgroup">Difference between <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort and&mdash;</th>
<th rowspan="2" scope="colgroup">Total decline in mean replacement rate</th>
<th colspan="4" class="spanner" scope="colgroup">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th scope="col">Demographics&nbsp;<sup>a</sup></th>
<th scope="col">Marital status</th>
<th scope="col">Labor force activity</th>
<th scope="col">Unexplained factors</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="5" class="panel" scope="rowgroup">Percentage points</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>3.0</td>
<td class="align1asterisk">0.3**</td>
<td class="align2asterisks">0.1</td>
<td>2.4***</td>
<td class="align3asterisks">0.2</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>5.6</td>
<td>0.8***</td>
<td class="align2asterisks">0.3</td>
<td>5.7***</td>
<td class="align2asterisks">-1.1*</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>7.9</td>
<td>0.7***</td>
<td class="align2asterisks">-0.2</td>
<td>7.9***</td>
<td class="align3asterisks">-0.5</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>8.3</td>
<td>0.7***</td>
<td class="align1asterisk">-0.4*</td>
<td>8.1***</td>
<td class="align3asterisks">0.0</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>11.7</td>
<td>1.2***</td>
<td>-0.5**</td>
<td>8.9***</td>
<td class="align1asterisk">2.0**</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>11.7</td>
<td>0.9***</td>
<td class="align2asterisks">-0.2</td>
<td>8.6***</td>
<td>2.5***</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="5" class="panel" scope="rowgroup">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" scope="row"><span class="nobr"><abbr class="spell">DE</abbr>2</span> cohort</th>
<td>100.0</td>
<td class="align3asterisks">10.2</td>
<td class="align2asterisks">4.6</td>
<td class="align3asterisks">78.8</td>
<td class="align3asterisks">6.4</td>
</tr>
<tr>
<th class="stub0" scope="row">War baby cohort</th>
<td>100.0</td>
<td class="align3asterisks">13.5</td>
<td class="align2asterisks">4.9</td>
<td class="align3asterisks">101.4</td>
<td class="align3asterisks">-19.8</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">EBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">9.1</td>
<td class="align2asterisks">-2.8</td>
<td class="align3asterisks">99.9</td>
<td class="align3asterisks">-6.2</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">MBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">8.6</td>
<td class="align2asterisks">-5.0</td>
<td class="align3asterisks">96.6</td>
<td class="align3asterisks">-0.2</td>
</tr>
<tr>
<th class="stub0" scope="row"><abbr class="spell">LBB</abbr> cohort</th>
<td>100.0</td>
<td class="align3asterisks">10.5</td>
<td class="align2asterisks">-4.0</td>
<td class="align3asterisks">76.2</td>
<td class="align3asterisks">17.2</td>
</tr>
<tr>
<th class="stub0" scope="row">Gen&nbsp;X cohort</th>
<td>100.0</td>
<td class="align3asterisks">7.4</td>
<td class="align2asterisks">-2.0</td>
<td class="align3asterisks">73.6</td>
<td class="align3asterisks">21.0</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="6">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="6">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="6">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<div class="table" id="table15">
<table>
<caption><span class="tableNumber">Table&nbsp;15. </span>Decomposition of changes in mean household-level replacement rates at <abbr class="spell">FRA</abbr> between <abbr>MINT</abbr> cohorts <span class="nobr"><abbr class="spell">DE</abbr>1</span> and Gen&nbsp;X, by marital status</caption>
<colgroup span="1" style="width:10em"></colgroup>
<colgroup span="6" style="width:7em"></colgroup>
<thead>
<tr>
<th rowspan="3" class="stubHeading" id="c1">Marital status</th>
<th rowspan="3" id="c2">Total decline in mean replacement rate</th>
<th colspan="5" class="spanner" id="c3">Decline in replacement rate attributable to&mdash;</th>
</tr>
<tr>
<th colspan="2" class="spanner" id="c4" headers="c3">Own</th>
<th colspan="2" class="spanner" id="c5" headers="c3">Spouse's</th>
<th rowspan="2" id="c6" headers="c3">Unexplained factors</th>
</tr>
<tr>
<th id="c7" headers="c3 c4">Demographics&nbsp;<sup>a</sup></th>
<th id="c8" headers="c3 c4">Labor force activity</th>
<th id="c9" headers="c3 c5">Demographics&nbsp;<sup>a</sup></th>
<th id="c10" headers="c3 c5">Labor force activity</th>
</tr>
</thead>
<tbody>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" id="r1">Percentage points</th>
</tr>
<tr>
<th class="stub0" id="r2" headers="r1 c1">Married</th>
<td headers="r1 r2 c2">8.9</td>
<td headers="r1 r2 c3 c4 c7">-0.2</td>
<td headers="r1 r2 c3 c4 c8">3.4***</td>
<td headers="r1 r2 c3 c5 c9">0.2</td>
<td headers="r1 r2 c3 c5 c10">3.8***</td>
<td headers="r1 r2 c3 c6">1.6***</td>
</tr>
<tr>
<th class="stub0" id="r3" headers="r1 c1">Widowed</th>
<td headers="r1 r3 c2">16.5</td>
<td headers="r1 r3 c3 c4 c7">0.4</td>
<td headers="r1 r3 c3 c4 c8">11.1***</td>
<td headers="r1 r3 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r3 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align1asterisk" headers="r1 r3 c3 c6">5.1**</td>
</tr>
<tr>
<th class="stub0" id="r4" headers="r1 c1">Divorced</th>
<td headers="r1 r4 c2">11.3</td>
<td headers="r1 r4 c3 c4 c7">0.0</td>
<td headers="r1 r4 c3 c4 c8">8.1***</td>
<td headers="r1 r4 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r4 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align1asterisk" headers="r1 r4 c3 c6">3.2**</td>
</tr>
<tr>
<th class="stub0" id="r5" headers="r1 c1">Never married</th>
<td headers="r1 r5 c2">11.0</td>
<td headers="r1 r5 c3 c4 c7">0.5</td>
<td headers="r1 r5 c3 c4 c8">7.0***</td>
<td headers="r1 r5 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r1 r5 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align1asterisk" headers="r1 r5 c3 c6">3.5**</td>
</tr>
<tr>
<td>&nbsp;</td>
<th colspan="6" class="panel" id="r6">Percentage distribution</th>
</tr>
<tr>
<th class="stub0" id="r7" headers="r6 c1">Married</th>
<td headers="r6 r7 c2">100.0</td>
<td headers="r6 r7 c3 c4 c7">-1.9</td>
<td class="align3asterisks" headers="r6 r7 c3 c4 c8">38.3</td>
<td headers="r6 r7 c3 c5 c9">2.0</td>
<td class="align3asterisks" headers="r6 r7 c3 c5 c10">43.4</td>
<td class="align3asterisks" headers="r6 r7 c3 c6">18.3</td>
</tr>
<tr>
<th class="stub0" id="r8" headers="r6 c1">Widowed</th>
<td headers="r6 r8 c2">100.0</td>
<td headers="r6 r8 c3 c4 c7">2.3</td>
<td class="align3asterisks" headers="r6 r8 c3 c4 c8">67.0</td>
<td headers="r6 r8 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r8 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r8 c3 c6">30.7</td>
</tr>
<tr>
<th class="stub0" id="r9" headers="r6 c1">Divorced</th>
<td headers="r6 r9 c2">100.0</td>
<td headers="r6 r9 c3 c4 c7">-0.2</td>
<td class="align3asterisks" headers="r6 r9 c3 c4 c8">72.2</td>
<td headers="r6 r9 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r9 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r9 c3 c6">28.0</td>
</tr>
<tr>
<th class="stub0" id="r10" headers="r6 c1">Never married</th>
<td headers="r6 r10 c2">100.0</td>
<td headers="r6 r10 c3 c4 c7">4.1</td>
<td class="align3asterisks" headers="r6 r10 c3 c4 c8">63.9</td>
<td headers="r6 r10 c3 c5 c9">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r10 c3 c5 c10">.&nbsp;.&nbsp;.</td>
<td class="align3asterisks" headers="r6 r10 c3 c6">32.0</td>
</tr>
</tbody>
<tfoot>
<tr>
<td class="firstNote" colspan="7">SOURCE: Authors' calculations based on <abbr>MINT</abbr>.</td>
</tr>
<tr>
<td class="note" colspan="7">NOTES: &quot;Replacement rate&quot; is defined as the Social Security benefit amount divided by <abbr>AIME</abbr>.
<div class="newNote">Totals do not necessarily equal the sum of rounded components.</div>
<div class="newNote">.&nbsp;.&nbsp;.&nbsp;= not applicable.</div>
<div class="newNote">*&nbsp;= statistically significant at the 10&nbsp;percent level.</div>
<div class="newNote">**&nbsp;= statistically significant at the 5&nbsp;percent level.</div>
<div class="newNote">***&nbsp;= statistically significant at the 1&nbsp;percent level.</div>
</td>
</tr>
<tr>
<td class="lastNote" colspan="7">a. Reflects the combined effects of changes to population distributions by race, sex, and educational attainment over time.</td>
</tr>
</tfoot>
</table>
</div>
<p>In the estimations for women (Table&nbsp;14), higher labor force participation and earnings account for almost all of the difference in replacement rates between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and some of the earlier subsequent cohorts, and for about 74&nbsp;percent of the difference between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and Gen&nbsp;X cohorts.<sup><a href="#mn32" id="mt32">32</a></sup></p>
<p>To summarize, decomposing the source of the change in replacement rates over time shows that two factors&mdash;changes in labor force activity and in claiming behavior&mdash;each explain about <span class="nobr">one-third</span> of the difference in replacement rates between the oldest and youngest cohorts. When comparing replacement rates at the <abbr class="spell">FRA</abbr>, labor force participation alone explains about <span class="nobr">one-half</span> of the difference between the oldest and youngest cohorts and <span class="nobr">three-fourths</span> or more of the difference between the <span class="nobr"><abbr class="spell">DE</abbr>1</span> and subsequent cohorts through the <abbr class="spell">MBB</abbr>s. Changes in demographics have produced only small effects, even for marital status, which has changed dramatically over time. A significant share of the change between the oldest and youngest cohorts remains unexplained; that is, not attributable to differences in mean characteristics between the cohorts.</p>
<h2>Conclusion</h2>
<p>This article examines the extent to which the changing roles of women impacts Social Security replacement rates. We first document substantial changes in women's labor force participation and marital status over time. Then we estimate changes in Social Security replacement rates across a broad range of cohorts that includes claimants born during <span class="nobr">1931&ndash;1975.</span> We compare estimated replacement rates of current retirees using different data sets and project replacement rates for future retirees. The results show a marked decrease over time in the proportion of preretirement income that Social Security replaces, and the trend&mdash;one that is positive for Social Security's finances&mdash;will continue for years to come. Over <span class="nobr">one-third</span> of the decline in replacement rates across cohorts can be explained by the increased labor force activity of women. Surprisingly, trends in marriage patterns account for only a small fraction of the change in replacement rates over time. Much of the remaining explanation rests with the rising <abbr class="spell">FRA</abbr> and changing claiming behaviors. As life expectancies increase but many people continue to retire in their early sixties, the share of lifetime retirement income provided by Social Security will decline, implying that retirees will have to rely increasingly on other sources of retirement income.</p>
<div id="notes">
<h2>Notes</h2>
<p>&ensp;<a href="#mt1" id="mn1">1</a> Some recent examples include Butrica, Iams, and Sandell&nbsp;(1999), Butrica and Iams&nbsp;(2000), Favreault, Sammartino, and Steuerle&nbsp;(2002), and Iams and others&nbsp;(2009). Earlier work includes <abbr>HEW</abbr>&nbsp;(1979), Burkhauser and Holden&nbsp;(1982), <abbr class="spell">CBO</abbr>&nbsp;(1986), Ferber&nbsp;(1993), Harrington Meyer&nbsp;(1996), Ross and Upp&nbsp;(1993), and <abbr class="spell">HHS</abbr>&nbsp;(1985).</p>
<p>&ensp;<a href="#mt2" id="mn2">2</a> Results for later cohorts are subject to the uncertainty associated with the projection and should be interpreted with caution.</p>
<p>&ensp;<a href="#mt3" id="mn3">3</a> The matched administrative earning records enable accurate calculations of the replacement rates and avoid the reporting errors that are common in public-use surveys.</p>
<p>&ensp;<a href="#mt4" id="mn4">4</a> We did not include the <abbr class="spell">HRS</abbr>' Children of the Depression Era&nbsp;(<abbr>CODA</abbr>) cohort, born in the late 1920s. When we first observed individuals of the <abbr>CODA</abbr> cohort in 1998, they were aged&nbsp;<span class="nobr">68&ndash;74,</span> and about 40&nbsp;percent were widowed. Because of the selection bias due to mortality, the replacement rate calculated using the <abbr class="spell">HRS</abbr> for the <abbr>CODA</abbr> cohort does not represent the replacement rate of all individuals born during that period. Further, for the majority of <abbr>CODA</abbr> <span class="nobr">widow(er)s,</span> we do not have information on their late spouses. Thus, we decided to exclude the <abbr>CODA</abbr> cohort from our analysis.</p>
<p>&ensp;<a href="#mt5" id="mn5">5</a> The <abbr class="spell">HRS</abbr> groups all Depression Era respondents into a single combined cohort. We separate that sample into two groups to be consistent with our <abbr>MINT</abbr> sample, which is likewise separated into two cohorts and is drawn from two versions of the <abbr>MINT</abbr> model&nbsp;(<abbr>MINT</abbr>5 and <abbr>MINT</abbr>6).</p>
<p>&ensp;<a href="#mt6" id="mn6">6</a> To ensure that our cohort estimates are representative and to minimize survival bias, we use two versions of the <abbr>MINT</abbr> model&mdash;<abbr>MINT</abbr>5 and <abbr>MINT</abbr>6. Statistics related to the first half of the Depression Era cohort&mdash;the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort&mdash;are derived from <abbr>MINT</abbr>5, while the rest of the cohorts are extracted from <abbr>MINT</abbr>6. <abbr>MINT</abbr>5 derives data from the 1990 to 1996 <abbr>SIPP</abbr>, while <abbr>MINT</abbr>6 uses the 2001 and 2004 panels of the <abbr>SIPP</abbr>. For descriptions of versions&nbsp;5 and 6 of <abbr>MINT</abbr>, see Smith and others&nbsp;(2007, 2010, respectively).</p>
<p>&ensp;<a href="#mt7" id="mn7">7</a> To project earnings beyond the last year for which an individual gave permission to match to the administrative data, we again follow Gustman and Steinmeier&nbsp;(2001). For individuals with self-reported earnings, we assume that the average real earnings observed in the last three reported periods persist until their expected claiming date. For respondents who have already claimed Social Security benefits, we use actual claiming age; for those who have not, we assume that respondents claim Social Security benefits at their self-reported expected retirement age. If the expected retirement age was greater than 70, or if the individual indicated that he or she never expected to retire, we use a retirement age of 70 (unless the individual had already worked beyond that age). If the respondent did not provide an expected retirement age, we assign a claiming age so that the age distribution of claiming matches the Social Security&ndash;reported claiming ages (<abbr class="spell">SSA</abbr>&nbsp;2011, Table&nbsp; 6.B5.1). Combining the actual earnings with the simulated earnings yields a complete earnings profile for each individual in the <abbr class="spell">HRS</abbr> sample from 1951 to his or her retirement age.</p>
<p>&ensp;<a href="#mt8" id="mn8">8</a> In cases where spouses are of different ages, their <abbr>AIME</abbr>s are indexed to different years (although we adjust them for inflation to bring them to <span class="nobr">same-year</span> dollars that reflect the first year in which both spouses receive benefits). The overall effect of this different indexing on the denominator of the couple's replacement rate depends on the distribution of individual replacement rates between the wife and the husband and on age differences in the population. To the extent that the majority of couples in our data set have wives who are younger, that wives tend to have higher individual replacement rates than husbands, and that wages grow faster than inflation, our household replacement rates for couples might be a bit overstated, as compared with couples having <span class="nobr">same-year</span> wage indexing.</p>
<p>&ensp;<a href="#mt9" id="mn9">9</a> The mortality assumptions imbedded in these calculations start with <abbr class="spell">SSA</abbr> mortality tables that provide detail by age and sex. We adjust those data, based on Brown, Liebman, and Pollet&nbsp;(2002), to reflect survival probability variations by education and race. We estimate the average mortality rate for each calendar year from 2010 through 2045 (when the youngest Gen&nbsp;X members reach age&nbsp;70). Then, based on those estimated mortality distributions, we assign a death year to individuals with the lowest survival probability in that specific year. For instance, if 5&nbsp;percent of the sample is expected to die in 2011, we assign to individuals at the bottom 5&nbsp;percent of the survival probability distribution a death year of&nbsp;2011.</p>
<p><a href="#mt10" id="mn10">10</a> For individuals who do not have positive lifetime earnings, the replacement rate is undefined.</p>
<p><a href="#mt11" id="mn11">11</a> Social Security pays retired-worker benefits to individuals who have accumulated 40 or more quarters of earnings in covered employment over their lives. Therefore, &ldquo;quarters of coverage&rdquo; is a crucial factor in benefit eligibility. An individual can earn up to 4&nbsp;quarters of coverage per year. The amount of earnings that qualified for a quarter of coverage in 2012 was $1,130. Because most jobs are covered by Social Security, quarters of coverage is a good proxy for labor market attachment.</p>
<p><a href="#mt12" id="mn12">12</a> See also <a href="/policy/docs/statcomps/supplement/2011/5a.html#table5.a14">Table&nbsp;5.A14</a> in the <i>Annual Statistical Supplement to the Social Security Bulletin</i> (<abbr class="spell">SSA</abbr>&nbsp;2011) for the distribution of women's benefit entitlement over time.</p>
<p><a href="#mt13" id="mn13">13</a> We use median replacement rates in order to make the descriptive statistics easily comparable to previous studies and because replacement rates are more prone to outliers&mdash;for example, cases where earnings are very low, such as widows and divorced women. That is not a concern for other variables in <a href="#table1">Table&nbsp;1</a>.</p>
<p><a href="#mt14" id="mn14">14</a> When replacement rates are evaluated at the household level, each married-couple household only counts once, and the household observation is assigned to the husband's birth cohort.</p>
<p><a href="#mt15" id="mn15">15</a> Two-earner households include those where one spouse is entitled to benefits based on both his or her own earnings record and his or her spouse's record (&ldquo;dual entitlement&rdquo;). In single-earner households, one of the spouses is eligible for auxiliary benefits only.</p>
<p><a href="#mt16" id="mn16">16</a> By definition, our measures are censored at the taxable maximum. As a result, they cannot capture the effects at the very top of the earnings distribution.</p>
<p><a href="#mt17" id="mn17">17</a> Although declining replacement rates indicate that benefits as a percentage of preretirement earnings are expected to drop, benefits in real terms are expected to keep rising for all household groups (see <a href="#table7">Table&nbsp;7</a>).</p>
<p><a href="#mt18" id="mn18">18</a> Similarly, because delayed retirement credits accrue only until age&nbsp;70, the maximum benefit as a percentage of the full retirement benefit will be lower for later cohorts than for earlier cohorts.</p>
<p><a href="#mt19" id="mn19">19</a> <abbr>MINT</abbr> projects that the claiming age trend will flatten beginning with the <abbr class="spell">EBB</abbr> cohort, partly because its claiming model does not explicitly build in the rising <abbr class="spell">FRA</abbr> or cohort effects as covariates in estimation and projection (Smith and others&nbsp;2010, Table&nbsp;<span class="nobr">4-4).</span> However, <abbr>MINT</abbr>6 partially accounts for the higher <abbr class="spell">FRA</abbr> by estimating and simulating two separate models, depending on whether the individual is subject to the retirement earnings test, which in 2000 was suspended for claimants who had reached <abbr class="spell">FRA</abbr>. As the <abbr class="spell">FRA</abbr> rises, working individuals in future cohorts will be subject to the retirement earnings test for longer periods in their sixties; thus, they are projected to be more likely to delay claiming. The resulting distribution of claiming ages, of course, will also depend on the extent to which individuals belonging to various sociodemographic groups are likely to work enough to be subject to the retirement earnings test. Smith and others state, &ldquo;these estimates are based on a sample of individuals for whom the <abbr class="spell">FRA</abbr> for Social Security ranged from 65 to 66. As the <abbr class="spell">FRA</abbr> continues to increase to 67, these algorithms automatically slow claiming for higher earners at younger ages (those with earnings above the retirement earnings test exempt amount), but they do not generally slow claiming for lower earners (all else equal).&rdquo; When interpreting the decomposition results, one should be cautious of the possibility that the current version of <abbr>MINT</abbr> might somewhat underestimate the claiming age of younger cohorts.</p>
<p><a href="#mt20" id="mn20">20</a> As discussed in the literature, the Oaxaca-Blinder decomposition incurs the index number problem, implying that the decomposition is unstable depending on the choice of the reference group. In order to overcome the index number problem, Neumark proposes a general decomposition based on a pooled regression using the weighted average of two groups. The pooled decomposition has been adopted as the primary approach to measure explained and unexplained gaps in a number of empirical studies (Elder, Goddeeris, and Haider&nbsp;2010). Although there are other modifications of the Oaxaca-Blinder method, we adopt the Neumark&nbsp;(1988) version in this analysis.</p>
<p><a href="#mt21" id="mn21">21</a> Importantly, the unexplained portion also captures all potential effects of differences in unobserved variables.</p>
<p><a href="#mt22" id="mn22">22</a> Average lifetime earnings are constructed by averaging the individual's ratio of nominal earnings to the average wage index over his or her working life. Because one's initial Social Security benefits are wage-indexed, this measure directly relates lifetime earnings to the resulting replacement rate.</p>
<p><a href="#mt23" id="mn23">23</a> Over time, the <i>B ratio</i> has declined, from 0.90 for the <span class="nobr"><abbr class="spell">DE</abbr>1</span> cohort to 0.83 for the Gen&nbsp;X cohort. The potential endogeneity of the <i>B ratio</i> variable is discussed in the &ldquo;Alternative Claiming Behavior Specifications&rdquo; section.</p>
<p><a href="#mt24" id="mn24">24</a> For the purpose of consistency, we report the decomposition results using <abbr>MINT</abbr>. The results are largely consistent for overlapped cohorts using the <abbr class="spell">HRS</abbr> data. Detailed regression results, as well as the mean values of the covariates and the results of the pooled regressions, are available upon request from the authors.</p>
<p><a href="#mt25" id="mn25">25</a> The Oaxaca-Blinder model decomposes the mean differences in household replacement rates. For married couples, each member is treated as a separate observation, and husband and wife can appear in different birth cohorts. Because the Oaxaca-Blinder methodology decomposes mean differences, <a href="#table9">Table&nbsp;9</a> shows greater replacement rate declines between the oldest and youngest cohort than the declines shown in <a href="#table5">Table&nbsp;5</a>, which analyzes medians.</p>
<p><a href="#mt26" id="mn26">26</a> We separately control for total number of covered quarters, eligibility (in the form of an indicator of whether 40&nbsp;quarters have been accrued), and average lifetime earnings in the regression model for simplicity of exposition. <a href="#table9">Table&nbsp;9</a> reports the combined effect of those three components of labor force participation. The separate effect of each component is available from the authors upon request.</p>
<p><a href="#mt27" id="mn27">27</a> Although we separately control for three marital statuses (married, widowed, and divorced), the table reports the total effect for those three components of marital patterns. The separate effect of each component is available from the authors upon request.</p>
<p><a href="#mt28" id="mn28">28</a> One should note that our measures capture only the percentage of average lifetime earnings that Social Security benefits replace in retirement. An alternative way to compare well-being across households is to use equivalence scales to account for the economies of scale in consumption that married couples enjoy. However, doing so is beyond the scope of this article.</p>
<p><a href="#mt29" id="mn29">29</a> The literature has documented substantial changes in assortative mating patterns over time. In addition to the previously mentioned shift in the correlation between spouses' earnings from negative to positive over time, couples are becoming more similar in other dimensions and, rather than &ldquo;marrying up,&rdquo; more women are marrying down in terms of education (Rose&nbsp;2001).</p>
<p><a href="#mt30" id="mn30">30</a> A full counterfactual exercise in which all individuals and households claim benefits at <abbr class="spell">FRA</abbr> involves many assumptions about labor supply, earnings, and potential effects on the average wage index and other macroeconomic variables. Such an exercise is beyond the scope of this article. Instead, for illustrative purposes we calculate benefits at the <abbr class="spell">FRA</abbr>, adjusted to offset the actuarial reduction for early claiming or the credits for delaying retirement.</p>
<p><a href="#mt31" id="mn31">31</a> In the women-only sample, the overall effect of marital status is insignificant for most cohorts (<a href="#table14">Table&nbsp;14</a>) because the significant effects on married, widowed, and divorced women (never married is the omitted category) offset each other in magnitude. Detailed decomposition results including the marital groups are available from the authors upon request.</p>
<p><a href="#mt32" id="mn32">32</a> We also conducted decomposition analysis using Gen&nbsp;X as the baseline. Although the comparison group in the Gen&nbsp;X-baseline model is subject to significant projection uncertainty, the overall results are consistent with our primary model's finding of strong effects of labor force activity and a much smaller effect of changing marital patterns. The Gen&nbsp;X-baseline model also explains consecutive cohorts better (the unexplained portion is smaller) and in fact shows almost no difference in outcomes between the <abbr class="spell">LBB</abbr> and Gen&nbsp;X cohorts. Results are available from the authors upon request. </p>
</div>
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