Standing Herbivory Is Not Affected by Tree Sex or Conspecific Density in a Dioecious Understory Tropical Tree Species

IF 1.8 3区环境科学与生态学 Q3 ECOLOGY

Biotropica Pub Date : 2025-01-31 DOI:10.1111/btp.70006

Leah Genth, Margaret R. Metz, Renato Valencia, Simon A. Queenborough

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引用次数: 0

Abstract

Leaves are critical to plant photosynthesis and the loss of leaf area can have negative consequences for an individual's performance and fitness. Variation in plant defenses plays a large role in protecting their leaves from attack by insect herbivores. However, trade-offs in allocation among growth, reproduction, and defense may limit the availability of resources for any one aspect of a plant's life-history strategy, which would lead to greater herbivory in those plants that allocate more resources to growth or reproduction than to defense. Patterns of sex-biased herbivory in dioecious plants are well documented yet are known to vary in the direction (female or male) of their bias. A greater concentration of conspecifics may also increase herbivore attack through negative density dependence. In order to test the hypothesis that sex-biased herbivory varies as a function of conspecific density, we measured standing herbivory on 2350 leaves on 302 trees of the dioecious understory tree Iryanthera hostmannii (Myristicaceae) situated in a large forest dynamics plot in a lowland tropical rain forest in Ecuador. We found no difference in standing herbivory between the 169 male and 133 female trees, nor for focal trees surrounded by higher densities of conspecifics. The slow-growing, shade-tolerant growth patterns of I. hostmannii may contribute to suppressed differential expression of secondary sex characters in leaf defenses, leading to similar levels of herbivory between males and females. Considering the factors that most strongly affect herbivory in dioecious species is important in understanding the evolution of sex-related traits more broadly.

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一株雌雄异株热带林下乔木的直立食草性不受树性和同种密度的影响

叶子对植物的光合作用至关重要，叶子面积的减少会对个体的表现和健康产生负面影响。植物防御的变异在保护其叶片免受食草昆虫的攻击方面起着重要作用。然而，在生长、繁殖和防御之间的权衡分配可能会限制植物生活史策略中任何一个方面的资源可用性，这将导致那些将更多资源分配给生长或繁殖而不是防御的植物产生更多的食草性。在雌雄异株植物中，食草性偏向的模式已被充分记录，但已知其偏向的方向（雌性或雄性）不同。同种异种的较高浓度也可能通过负密度依赖增加食草动物的攻击。为了验证性别偏向性食草性随同种密度的变化而变化的假设，我们在厄瓜多尔低地热带雨林的一个大型森林动态样地，测量了302棵雌雄异株林下植物Iryanthera hostmannii （Myristicaceae）的2350片叶子上的直立食草性。结果表明，169株雄树和133株雌树的直立性无显著差异，被高密度同种植物包围的焦点树也无显著差异。寄生蜂生长缓慢、耐阴的生长模式可能抑制了叶片防御中次生性状的差异表达，导致雌雄之间的食草性水平相近。考虑对雌雄异株植物食草性影响最大的因素对于更广泛地理解性相关性状的进化具有重要意义。

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

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.