Département de Biologie, Université de Sherbrooke, Sherbrooke, Quebec, Canada.
Research School of Biology, The Australian National University, Acton, Australian Capital Territory, Australia.
J Anim Ecol. 2024 Nov;93(11):1684-1696. doi: 10.1111/1365-2656.14179. Epub 2024 Sep 17.
Reproduction can reduce energy allocation to other life-history traits such as survival and growth. Resource constraints give rise to (co)variation in life-history traits and to heterogeneity in energy acquisition and allocation. At each reproductive opportunity, females face a choice between allocation to current reproduction or to maintenance. Many studies compare reproductive trade-offs between two consecutive years, but few account for the cumulative effects of reproduction over multiple years, a crucial factor in understanding life-history evolution in long-lived iteroparous species. We compared short- (interannual) and long-term (cumulative) reproductive trade-offs with a 14-year capture-mark-recapture study of eastern grey kangaroos, where females can have substantial skeletal growth for several years after maturation. We used a multivariate approach to compare how interannual and multi-annual cumulative reproduction affected growth (n = 378 measurements), mass change (n = 376 measurements) and subsequent reproduction (n = 388 measurements), and to quantify (co)variation between these traits among individuals (n = 107) and years (n = 14). Interannually, young females that reproduced experienced decreased skeletal growth compared to young females that did not reproduce. Reproductive females of all ages experienced reduced mass gain and weaning probability in the following year. The cumulative effects of multiple reproductions included decreased skeletal growth, mass gain and weaning probability in the following year. These effects increased with age and reproductive rate. We found positive trait correlations between mass change, leg growth and subsequent reproduction among individuals and years, though weaker at the cumulative than interannual level. Females experience dynamic interannual and cumulative trade-offs. Our analyses of cumulative costs of reproduction revealed long-term trade-offs as well as cumulative costs that were not apparent when estimating interannual costs. Trait correlations suggested heterogeneity in growth and reproduction among females. Years of increased growth were followed by years of increased reproduction, and years of poor growth were followed by years of poor reproduction. Our exploration of both interannual and cumulative costs of reproduction underscores the need to account for long-term reproductive histories to better understand reproductive trade-offs in long-lived iteroparous species.
繁殖会减少用于生存和生长等其他生命史特征的能量分配。资源限制导致生命史特征的(协)变异性和能量获取和分配的异质性。在每个繁殖机会中,雌性都会在当前繁殖或维持之间做出选择。许多研究比较了连续两年的生殖权衡,但很少考虑到多年繁殖的累积效应,这是理解长寿多次生殖物种生命史进化的关键因素。我们通过对东部灰袋鼠进行了 14 年的捕获-标记-重捕研究来比较短期(年际)和长期(累积)生殖权衡,其中雌性在成熟后可以有多年的大量骨骼生长。我们使用多元方法比较了年际和多年累积繁殖如何影响生长(n=378 次测量)、质量变化(n=376 次测量)和随后的繁殖(n=388 次测量),并量化了个体(n=107)和年份(n=14)之间这些特征之间的(协)变。年际上,与未繁殖的年轻雌性相比,繁殖的年轻雌性的骨骼生长减少。所有年龄段的繁殖雌性在次年的体重增加和断奶概率降低。多次繁殖的累积效应包括次年骨骼生长、体重增加和断奶概率降低。这些影响随着年龄和繁殖率的增加而增加。我们发现个体和年份之间的质量变化、腿部生长和随后繁殖之间存在正的性状相关性,尽管在累积水平上比年际水平弱。雌性经历动态的年际和累积权衡。我们对繁殖累积成本的分析揭示了长期权衡以及在估计年际成本时不明显的累积成本。性状相关性表明雌性之间的生长和繁殖存在异质性。生长增加的年份之后是繁殖增加的年份,而生长不良的年份之后是繁殖不良的年份。我们对年际和累积繁殖成本的探索强调需要考虑长期的繁殖历史,以更好地理解长寿多次生殖物种的繁殖权衡。
