Macroecological correlates of Darwinian shortfalls across terrestrial vertebrates.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-07-01 Epub Date: 2024-07-24 DOI:10.1098/rsbl.2024.0216
Jhonny J M Guedes, José Alexandre F Diniz-Filho, Mario R Moura
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引用次数: 0

Abstract

Most described species have not been explicitly included in phylogenetic trees-a problem named the Darwinian shortfall-owing to a lack of molecular and/or morphological data, thus hampering the explicit incorporation of evolution into large-scale biodiversity analyses. We investigate potential drivers of the Darwinian shortfall in tetrapods, a group in which at least one-third of described species still lack phylogenetic data, thus necessitating the imputation of their evolutionary relationships in fully sampled phylogenies. We show that the number of preserved specimens in scientific collections is the main driver of phylogenetic knowledge accumulation, highlighting the major role of biological collections in unveiling novel biodiversity data and the importance of continued sampling efforts to reduce knowledge gaps. Additionally, large-bodied and wide-ranged species, as well as terrestrial and aquatic amphibians and reptiles, are phylogenetically better known. Future efforts should prioritize phylogenetic research on organisms that are narrow-ranged, small-bodied and underrepresented in scientific collections, such as fossorial species. Addressing the Darwinian shortfall will be imperative for advancing our understanding of evolutionary drivers shaping biodiversity patterns and implementing comprehensive conservation strategies.

陆生脊椎动物达尔文缺陷的宏观生态学相关性。
由于缺乏分子和/或形态学数据,大多数已描述的物种都没有被明确纳入系统发生树--这个问题被称为达尔文不足,从而阻碍了将进化明确纳入大规模生物多样性分析。我们研究了四足类达尔文不足的潜在驱动因素,该类至少有三分之一的描述物种仍然缺乏系统发育数据,因此必须在完全采样的系统发育中推算它们的进化关系。我们的研究表明,科学收藏中保存的标本数量是系统发育知识积累的主要驱动力,这凸显了生物收藏在揭示新的生物多样性数据方面的重要作用,以及持续采样工作对缩小知识差距的重要性。此外,体型大、分布广的物种以及陆生和水生两栖动物和爬行动物在系统发育方面的知识更为丰富。未来的工作应优先考虑对范围窄、体型小、在科学收藏中代表性不足的生物(如化石物种)进行系统发育研究。解决达尔文学说的不足对于推动我们了解生物多样性模式的进化驱动因素和实施全面的保护战略至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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