Rubber plantations are impermeable to an avian understory specialist in Sri Lanka.

IF 3.4 1区生物学 Q2 ECOLOGY

Movement Ecology Pub Date : 2024-06-17 DOI:10.1186/s40462-024-00484-8

Salindra K Dayananda, Harsha F Athukorala, Indika Peabotuwage, Chandralal Kumara, Tharindu Ranasinghe, Dhammithra Samarasinghe, Ana Gouveia, Sarath W Kotagama, Christos Mammides, Aiwu Jiang, Eben Goodale

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引用次数: 0

Abstract

Background: Understanding how landscape characteristics affect animal movement is essential for conservation in human-dominated habitats. A fundamental question is how monoculture agroforests, including rubber and tea plantations, affect wildlife and its movement. Experimental translocations represent an important technique to assess animals' habitat selection while moving through agricultural matrices, especially when complemented with observations of birds' natural movements, and with "control" translocations, in which birds are moved within their natural habitat such as forest. Yet, experimental translocations have been little used for birds outside the Western Hemisphere.

Methods: We conducted experimental translocations and home-range measurements on an understory forest specialist, Brown-capped Babbler (BCBA, Pellorneum fuscocapillus), and a forest generalist, Tickell's Blue Flycatcher (TBFL, Cyornis tickelliae). These species were studied in three rubber plantations, which also included some open areas mostly planted with tea, and in three forest reserves of Sri Lanka.

Results: Four of the five BCBAs translocated within disturbed habitats (rubber plantations) could not return to their capture locations. However, all four individuals within undisturbed habitats (forest reserves) successfully returned to their point of origin within 10.5 daytime hours. In contrast, all TBFLs returned to their capture locations in both disturbed (n = 7) and undisturbed habitats (n = 3) within 11.3 daytime hours. A Cox-proportional survival model demonstrated that the percentage of rubber cover decreased return time, similar to the effect of open-area cover. The home range surveys (n = 13 for BCBA, n = 10 for TBFL) revealed that very little of the birds' natural home-ranges was covered by rubber (0.2% for BCBA, 13.1% for TBFL at 50% Kernel Density Estimates KDE). Home range size for BCBA was approximately half the size in disturbed habitats compared to undisturbed ones, although there was no significant difference between habitats for TBFL.

Conclusions: We conclude that rubber plantations can be impermeable to understory habitat specialist birds, and even generalist species may avoid them long-term. Our findings highlight the potential utility of strips of native vegetation, particularly those featuring understory layers, as corridors to facilitate the movement of forest specialists in landscapes dominated by rubber plantations and other types of disturbed habitats.

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橡胶种植园对斯里兰卡的一种鸟类底层专家来说是不可渗透的。

背景：了解地貌特征如何影响动物的移动对于保护人类主导的栖息地至关重要。一个基本问题是单一种植的农林（包括橡胶园和茶园）如何影响野生动物及其移动。实验性迁移是评估动物在农业基质中移动时选择栖息地的重要技术，尤其是在观察鸟类自然移动的情况下，以及在 "对照 "迁移（即鸟类在其自然栖息地（如森林）中移动）的情况下。然而，对于西半球以外的鸟类来说，实验性迁移还很少使用：方法：我们对森林下层专家褐帽狒狒（BCBA，Pellorneum fuscocapillus）和森林普通鸟类提克尔蓝飞椋鸟（TBFL，Cyornis tickelliae）进行了实验性迁移和家园范围测量。这些物种在斯里兰卡的三个橡胶种植园（其中也包括一些主要种植茶叶的开阔地）和三个森林保护区进行了研究：结果：被转移到受干扰栖息地（橡胶园）的五只 BCBA 中，有四只无法返回捕获地点。然而，在未受干扰的栖息地（森林保护区）中，所有四只个体都在 10.5 个白天小时内成功返回原地。相比之下，在受干扰生境（7 只）和未受干扰生境（3 只）中，所有 TBFL 都能在 11.3 个白天小时内返回捕获地点。考克斯比例生存模型表明，橡胶覆盖的百分比降低了返回时间，这与空地覆盖的影响相似。家园范围调查（北京啄木鸟为13只，黑线鸻为10只）显示，鸟类的自然家园范围中只有极少部分被橡胶覆盖（在50%的核密度估计值KDE下，北京啄木鸟为0.2%，黑线鸻为13.1%）。与未受干扰的栖息地相比，受干扰的栖息地中 BCBA 的家园范围约为未受干扰栖息地的一半，但不同栖息地中 TBFL 的家园范围没有显著差异：我们得出的结论是，橡胶种植园对于林下栖息地的专业鸟类来说可能是难以渗透的，即使是普通鸟类也可能会长期避开橡胶种植园。我们的研究结果凸显了本地植被带的潜在作用，尤其是那些具有林下植被层的植被带，它们可以作为走廊，促进森林专业鸟类在以橡胶种植园为主的景观和其他类型的受干扰栖息地中的活动。

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

Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

6.60

自引率

4.90%

发文量

审稿时长

23 weeks

期刊介绍： Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.