Vilela Bruno, Villalobos Fabricio, Rodríguez Miguel Ángel, Terribile Levi Carina
Departamento de Ecologia, Instituto de Ciências Biológicas, Universidade Federal de Goiás, Goiânia, Goiás, Brazil; Departamento de Ciencias de la Vida, Universidad de Alcalá, Madrid, Spain.
Departamento de Ecologia, Instituto de Ciências Biológicas, Universidade Federal de Goiás, Goiânia, Goiás, Brazil.
PLoS One. 2014 Nov 19;9(11):e113429. doi: 10.1371/journal.pone.0113429. eCollection 2014.
Extinction risk and body size have been found to be related in various vertebrate groups, with larger species being more at risk than smaller ones. We checked whether this was also the case for snakes by investigating extinction risk-body size relationships in the New World's Colubroidea species. We used the IUCN Red List risk categories to assign each species to one of two broad levels of threat (Threatened and Non-Threatened) or to identify it as either Data Deficient or Not-Evaluated by the IUCN. We also included the year of description of each species in our analysis as this could affect the level of threat assigned to it (earlier described species had more time to gather information about them, which might have facilitated their evaluation). Also, species detectability could be a function of body size, with larger species tending to be described earlier, which could have an impact in extinction risk-body size relationships. We found a negative relationship between body size and description year, with large-bodied species being described earlier. Description year also varied among risk categories, with Non-Threatened species being described earlier than Threatened species and both species groups earlier than Data Deficient species. On average, Data Deficient species also presented smaller body sizes, while no size differences were detected between Threatened and Non-Threatened species. So it seems that smaller body sizes are related with species detectability, thus potentially affecting both when a species is described (smaller species tend to be described more recently) as well as the amount of information gathered about it (Data Deficient species tend to be smaller). Our data also indicated that if Data Deficient species were to be categorized as Threatened in the future, snake body size and extinction risk would be negatively related, contrasting with the opposite pattern commonly observed in other vertebrate groups.
人们发现,在各类脊椎动物群体中,灭绝风险与体型大小有关,体型较大的物种比体型较小的物种面临的风险更高。我们通过研究新大陆游蛇科物种的灭绝风险与体型大小的关系,来检验蛇类是否也是如此。我们使用国际自然保护联盟(IUCN)红色名录的风险类别,将每个物种划分为两个宽泛的威胁级别(受威胁和非受威胁)之一,或者确定其为数据缺乏或未被IUCN评估。我们还在分析中纳入了每个物种的描述年份,因为这可能会影响赋予它的威胁级别(描述较早的物种有更多时间来收集关于它们的信息,这可能有助于对它们的评估)。此外,物种的可探测性可能是体型大小的一个函数,体型较大的物种往往被描述得更早,这可能会影响灭绝风险与体型大小的关系。我们发现体型大小与描述年份之间呈负相关,体型较大的物种被描述得更早。描述年份在不同风险类别中也有所不同,非受威胁物种比受威胁物种被描述得更早,且这两个物种组都比数据缺乏物种被描述得更早。平均而言,数据缺乏物种的体型也较小,而受威胁物种和非受威胁物种之间未检测到体型差异。所以看起来较小的体型与物种的可探测性有关,从而可能既影响一个物种被描述的时间(较小的物种往往最近才被描述),也影响收集到的关于它的信息量(数据缺乏物种往往体型较小)。我们的数据还表明,如果数据缺乏物种未来被归类为受威胁物种,蛇类的体型大小与灭绝风险将呈负相关,这与在其他脊椎动物群体中通常观察到的相反模式形成对比。
