Potential impact of mammal defaunation on the early regeneration of a large-seeded palm in the Brazilian Atlantic Forest

IF 0.7 Q4 BIODIVERSITY CONSERVATION

Neotropical Biology and Conservation Pub Date : 2020-06-12 DOI:10.3897/neotropical.15.e54017

A. Y. Meiga, A. V. Christianini

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引用次数: 2

Abstract

Defaunation, the decline in animal species and populations, is biased towards large-bodied animals that have unique roles as dispersers of large seeds. However, it is speculated that these roles may still be performed by smaller animals, such as small mammals like rodents and marsupials, that thrive in defaunated sites. We investigated if small mammals can disperse the large-seeded palm Attalea dubia. We performed the study in a well-conserved Atlantic Forest remnant in southeast Brazil that still harbours large mammals, such as tapirs. Focal observations showed that capuchin-monkeys consumed the mesocarp of the fruits and dropped the seeds beneath the plant crown thereafter. Mammals preyed on ca. 1% and removed ca. 15% of the fallen fruit/seed and deposited them up to 15 m away. Amongst them, small mammals (< 1 kg), such as the squirrel Guerlinguetus brasiliensis and non-identified nocturnal Sigmodontinae, as well as the marsupial Philander frenatus performed the bulk of interactions. Dispersal enhances recruitment, but the short distances of seed removal did not match the current spatial distribution of palm seedlings and juveniles. Recaching rates of hoarded seeds were small (2%) Neotropical Biology and Conservation 15(2): 177–193 (2020) doi: 10.3897/neotropical.15.e54017 Copyright A.Y.Y. Meiga, A.V. Christianini. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. RESEARCH ARTICLE A.Y.Y. Meiga & A.V. Christianini 178 and unlikely to increase distances of seed dispersal achieved. Short distances of dispersal would increase plant clumpiness and negative density-dependent effects with time. Although small mammals can provide legitimate dispersal, they cannot fully replace larger frugivorous mammals and maintain long-distance seed dispersal that feeds plant metapopulation dynamics and seed gene flow.

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哺乳动物退化对巴西大西洋森林大种子棕榈早期再生的潜在影响

动物物种和种群数量的减少倾向于大型动物，它们作为大种子的传播者发挥着独特的作用。然而，据推测，这些角色可能仍然由较小的动物扮演，如啮齿动物和有袋动物等小型哺乳动物，它们在退化的地方茁壮成长。我们调查了小型哺乳动物是否能分散大种子棕榈Attalea dubia。我们在巴西东南部一个保存完好的大西洋森林遗迹中进行了这项研究，那里仍然有貘等大型哺乳动物。焦点观察表明，卷尾猴消耗果实的中果皮，然后将种子撒在植物冠下。哺乳动物捕食约1%的果实/种子，并将约15%的果实/种子移走，存放在15米外的地方。其中，小型哺乳动物(小于1公斤)，如松鼠Guerlinguetus brasiliensis和未识别的夜间活动Sigmodontinae，以及有袋动物Philander frenatus进行了大量的相互作用。扩散促进了种子的补充，但短距离的种子转移与棕榈幼苗和幼枝的空间分布不匹配。苗木种子贮藏率较低(2%)。新热带生物保护学报，15(2):177-193 (2020)doi: 10.3897/ Neotropical .15。e54017版权所有A.Y.Y. Meiga, A.V. Christianini。这是一篇在知识共享署名许可(CC BY 4.0)条款下发布的开放获取文章，该许可允许在任何媒体上不受限制地使用、分发和复制，前提是要注明原作者和来源。研究文章A.Y.Y. Meiga & A.V. Christianini 178并且不可能增加种子传播距离。随着时间的推移，较短的传播距离会增加植物的块状和负密度依赖效应。尽管小型哺乳动物可以提供合理的传播，但它们不能完全取代大型果食性哺乳动物，维持长距离的种子传播，为植物的超种群动态和种子基因流动提供信息。

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