Hernández-Pacheco Raisa, Rawlins Richard G, Kessler Matthew J, Delgado Diana L, Ruiz-Lambides Angelina V, Sabat Alberto M
Caribbean Primate Research Center, Medical Sciences Campus, University of Puerto Rico, San Juan, Puerto Rico.
Department of Obstetrics and Gynecology, Rush University Medical Center, Chicago, Illinois.
Am J Primatol. 2016 Feb;78(2):227-37. doi: 10.1002/ajp.22502. Epub 2015 Nov 5.
Reproductive synchrony and the consequent clustering of births are hypothesized to be regulated by seasonal changes in rainfall and food availability. Such climate-related seasonality is, however, questionable in tropical populations occupying temporally invariant habitats year round. Using the long-term data of the Cayo Santiago rhesus macaques from 1973 to 2013, this study distinguishes synchrony (a greater than chance clustering of births) from seasonality (a cluster of births during a period of the year when abiotic conditions are favorable) and shows that females are highly synchronized (>72% of births in a 3-month period) but the effects of environmental zeitgebers on reproduction are overridden by biological factors. Specifically, biotic and abiotic factors including (i) loss of immature offspring; (ii) population density; (iii) age at delivery; (iv) rainfall; and (v) changes in colony management were modeled in relation to the annual onset of births and the median birth date. Females experiencing loss of immature offspring had an interbirth interval of <365 days in average and the proportion of these females increased up to 48% due to changes in colony management overtime, although reproductive synchrony increased with increasing population density. A secular trend in both the onset of births and the median date of birth is documented and the model predicts that the median birth date will advance across all calendar-based seasons by 2050. The secular trend in reproduction appears to be triggered by changes in the age at delivery of females, the absence of physiological constraints from maternal investment due to offspring loss, shorter interbirth interval, and a higher degree of coordination due to increasing population density. This study challenges the reproductive phenology previously described for rhesus macaques highlighting the importance of long-term studies in addressing the ultimate causes of reproductive synchrony.
繁殖同步性以及随之而来的生育聚集现象被假定为由降雨和食物可获得性的季节性变化所调节。然而,对于常年占据时间上不变栖息地的热带种群而言,这种与气候相关的季节性是值得怀疑的。本研究利用1973年至2013年圣地亚哥岛恒河猴的长期数据,区分了同步性(生育的聚集程度大于随机水平)和季节性(在一年中某一时期非生物条件适宜时出现的生育聚集),结果表明雌性个体高度同步(三个月内超过72%的生育),但环境授时因子对繁殖的影响被生物因素所掩盖。具体而言,对包括(i)未成熟后代的损失;(ii)种群密度;(iii)分娩年龄;(iv)降雨量;以及(v)群体管理变化在内的生物和非生物因素与年度生育开始时间和中位出生日期的关系进行了建模。经历未成熟后代损失的雌性平均产仔间隔小于365天,并且由于群体管理随时间的变化,这些雌性的比例增加到了48%,尽管繁殖同步性随着种群密度的增加而提高。记录了生育开始时间和中位出生日期的长期趋势,该模型预测到2050年,中位出生日期将在所有基于日历的季节中提前。繁殖的长期趋势似乎是由雌性分娩年龄的变化、由于后代损失而不存在母体投资的生理限制、较短的产仔间隔以及由于种群密度增加而具有更高程度的协调性所触发的。这项研究对先前描述的恒河猴繁殖物候提出了挑战,突出了长期研究在解决繁殖同步性最终原因方面的重要性。