拉波波特法则解释了蝴蝶在喜马拉雅山东部海拔梯度上的分布范围

IF 1.8 3区 环境科学与生态学 Q3 ECOLOGY
Biotropica Pub Date : 2024-03-26 DOI:10.1111/btp.13311
Sailendra Dewan, Bhoj Kumar Acharya
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引用次数: 0

摘要

了解生物的海拔分布范围可以为物种的生物地理格局及其保护提供有价值的见解。拉波波特法则认为,物种的海拔分布范围随着海拔的升高而增大。然而,由于不同研究方法的差异以及不同生物类群之间的不一致,这一规则的有效性经常受到质疑。在这项研究中,我们考察了东喜马拉雅地区蝴蝶的海拔分布范围,并采用不同的方法评估了拉波波特法则的适用性,这在喜马拉雅地区可能尚属首次。我们采用点计数法,沿着 16 个海拔带(300-3300 米)的海拔梯度对蝴蝶进行了采样。根据科、生物地理亲缘关系和幼虫觅食模式,我们将采样的蝴蝶分为不同的亚群。我们发现,大多数蝴蝶物种(总种和亚群)的分布范围较小,它们的海拔分布范围也支持拉波波特法则。以温度季节性和年平均温度范围衡量的温度变化的增加是预测整个蝴蝶群落分布区大小的最重要因素。然而,不同亚群的分布范围大小与气候变异性之间的关系各不相同,这意味着即使在同一分类群的物种内部,感知到的模式也可能不同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rapoport's rule explains the range size distribution of butterflies along the Eastern Himalayan elevation gradient

Rapoport's rule explains the range size distribution of butterflies along the Eastern Himalayan elevation gradient

Rapoport's rule explains the range size distribution of butterflies along the Eastern Himalayan elevation gradient

Understanding elevational range size distribution of organisms can provide valuable insights on biogeographic pattern of species and their conservation. Rapoport's rule posits that the elevational range size of species increases with increasing elevation. However, the validity of this rule is often questioned due to variations in methodologies across studies and inconsistencies among different groups of organisms. In this study, we examined the elevational range size distribution of butterflies in the Eastern Himalaya, and assessed the applicability of Rapoport's rule using different approaches, which perhaps is the first of its kind in the Himalaya. We sampled butterflies along the elevational gradient of 16 elevational bands (300–3300 m) using point count method along the transect. The sampled butterflies were grouped into various sub-groups based on family, biogeographic affinity, and larval feeding pattern. We found that the majority of the butterfly species (total as well as sub-groups) had small range sizes, and their elevational range distribution showed support for the Rapoport's rule. Increase in variation in temperature as measured by temperature seasonality and mean annual temperature range were the most important predictors of range size distribution pattern of the overall butterfly community. However, the relationship between range size and climatic variability differed among various sub-groups implying that the perceived pattern may vary even within the species of the same taxon.

Abstract in Nepali is available with online material.

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来源期刊
Biotropica
Biotropica 环境科学-生态学
CiteScore
4.10
自引率
9.50%
发文量
122
审稿时长
8-16 weeks
期刊介绍: Ranked by the ISI index, Biotropica is a highly regarded source of original research on the ecology, conservation and management of all tropical ecosystems, and on the evolution, behavior, and population biology of tropical organisms. Published on behalf of the Association of Tropical Biology and Conservation, the journal''s Special Issues and Special Sections quickly become indispensable references for researchers in the field. Biotropica publishes timely Papers, Reviews, Commentaries, and Insights. Commentaries generate thought-provoking ideas that frequently initiate fruitful debate and discussion, while Reviews provide authoritative and analytical overviews of topics of current conservation or ecological importance. The newly instituted category Insights replaces Short Communications.
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