Department of Entomology, University of Wisconsin, 1630 Linden Drive, Madison, WI, 53706, U.S.A.
Department of Fish and Wildlife Conservation, Virginia Polytechnic Institute and State University (Virginia Tech), Cheatham Hall, 310 W. Campus Drive, Blacksburg, VA, 24060, U.S.A.
Biol Rev Camb Philos Soc. 2022 Aug;97(4):1559-1611. doi: 10.1111/brv.12854. Epub 2022 Mar 25.
In a much-cited 1964 paper entitled "Reproductive efficiency in relation to colony size in hymenopterous societies," Charles Michener investigated the correlation between a colony's size and its reproductive efficiency - the ability of its adult females to produce reproductives, measured as per-capita output. Based on his analysis of published data from destructively sampled colonies in 18 species, he reported that in most of these species efficiency decreased with increasing colony size. His conclusion that efficiency is higher in smaller groups has since gained widespread acceptance. But it created a seeming paradox: how can natural selection maintain social behaviour when a female apparently enjoys her highest per-capita output by working alone? Here we treat Michener's pattern as a hypothesis and perform the first large-scale test of its prediction across the eusocial Hymenoptera. Because data on actual output of reproductives were not available for most species, Michener used various proxies, such as nest size, numbers of brood, or amounts of stored food. We show that for each of Michener's data sets the reported decline in per-capita productivity can be explained by factors other than decreasing efficiency, calling into question his conclusion that declining efficiency is the cause of the pattern. The most prominent cause of bias is the failure of the proxy to capture all forms of output in which the colony invests during the course of its ontogeny. Other biasing factors include seasonal effects and a variety of methodological flaws in the data sets he used. We then summarize the results of 215 data sets drawn from post-1964 studies of 80 species in 33 genera that better control for these factors. Of these, 163 data sets are included in two meta-analyses that statistically synthesize the available data on the relationship between colony size and efficiency, accounting for variable sample sizes and non-independence among the data sets. The overall effect, and those for most taxonomic subgroups, indicates no loss of efficiency with increasing colony size. Two exceptional taxa, the halictid bees and independent-founding paper wasps, show negative trends consistent with the Michener hypothesis in some species. We conclude that in most species, particularly those with large colony sizes, the hypothesis of decreasing efficiency with increasing colony size is not supported. Finally, we explore potential mechanisms through which the level of efficiency can decrease, be maintained, or even increase, as colonies increase in size.
在 1964 年一篇题为《膜翅目昆虫社会中与群体大小有关的生殖效率》的著名论文中,Charles Michener 研究了群体大小与其生殖效率(即成年雌性产生生殖后代的能力,以人均产量衡量)之间的相关性。基于对 18 个物种中破坏性采样群体的已发表数据的分析,他报告说,在这些物种中,大多数情况下效率随着群体大小的增加而降低。他的结论是,在较小的群体中效率更高,此后这一结论得到了广泛的认可。但这却产生了一个看似矛盾的问题:当一只雌性独自工作时,她显然能获得最高的人均产量,那么自然选择怎么能维持这种社会行为呢?在这里,我们将 Michener 的模式视为一个假设,并首次在整个真社会性膜翅目昆虫中对其预测进行大规模测试。由于大多数物种的实际生殖产量数据不可用,Michener 使用了各种替代指标,如巢大小、幼虫数量或储存的食物量。我们表明,对于 Michener 的每个数据集,报告的人均生产力下降都可以用除效率下降以外的其他因素来解释,这对他的结论提出了质疑,即效率下降是造成这种模式的原因。造成偏差的最主要原因是替代指标未能捕捉到群体在其个体发育过程中投入的所有形式的产出。其他有偏差的因素包括季节性影响以及他使用的数据集存在各种方法学缺陷。然后,我们总结了 1964 年后对 33 个属 80 个物种的 215 个数据集的研究结果,这些数据集更好地控制了这些因素。其中,163 个数据集包含在两项荟萃分析中,这两项荟萃分析统计综合了关于群体大小与效率之间关系的现有数据,考虑了样本大小的变化和数据集之间的非独立性。总体效应和大多数分类学亚群的效应表明,随着群体规模的增加,效率没有下降。两个特殊的类群,即独栖的熊蜂和独立筑巢的纸蜂,在某些物种中表现出与 Michener 假设一致的负趋势。我们的结论是,在大多数物种中,特别是那些群体规模较大的物种中,群体规模增加时效率下降的假设不成立。最后,我们探讨了随着群体规模的增加,效率可能降低、保持甚至提高的潜在机制。
