热带高山植物与蜂鸟互动的海拔和季节模式

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-24 DOI:10.1002/ece3.70469
Eugenia M. Sentíes-Aguilar, Silvana Martén-Rodríguez, Guillermo Huerta-Ramos, Sergio Díaz-Infante, Gabriel López-Segoviano, Armando Aguirre-Jaimes, Mauricio Quesada-Avendaño, Jorge Cortés-Flores, María del Coro Arizmendi
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引用次数: 0

摘要

热带高山生态系统蕴藏着多种生物群落,是探索环境梯度上生态相互作用的重要模型。我们研究了墨西哥西部热带高山梯度(海拔 2400 米至 3700 米)三种森林类型(松栎林、冷杉林和亚高山林)中植物与蜂鸟相互作用网络的时空驱动因素。我们测量了物种丰度、多样性、形态和相互作用频率。在海拔最高的亚高山森林中,植物多样性指标明显下降,而蜂鸟多样性在不同海拔高度保持一致。不同海拔高度的蜂鸟之间的相互作用网络同样是嵌套式的,但在亚高山森林中它们更加专业化,那里较低的植物物种丰富度和较高的花卉丰度导致蜂鸟之间更大的资源分配。在旱季,由于物种多样性和丰度较高,植物蜂鸟网络的规模较大,专业化程度较低。物种更替解释了网络在海拔梯度上的变化,而相互作用的重新布线和迁徙蜂鸟的到来解释了季节之间的变化。不同海拔高度和不同季节的相互作用频率的变化中,物候重叠是最重要的驱动因素。在低海拔和中海拔网络中,花卉丰度对交互作用频率的影响较小,蜂鸟丰度对旱季和雨季网络的影响显著。形态匹配在低海拔森林和旱季具有显著性。植物系统发育相关性对相互作用模式的影响可以忽略不计,但蜂鸟系统发育对高海拔和雨季网络中的取食偏好有影响。我们的研究结果突显了物种更替、互动重联和物候重叠在植物-蜂鸟网络结构中的作用,丰度、形态和系统发生的具体影响随海拔和季节而变化。在资源匮乏时期,高海拔生态系统作为留鸟和迁徙蜂鸟的花卉资源库发挥着至关重要的作用,强调了它们在维持热带山地梯度生物多样性方面的重要性。
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Elevational and Seasonal Patterns of Plant–Hummingbird Interactions in a High Tropical Mountain

Tropical mountain ecosystems harbor diverse biological communities, making them valuable models for exploring the factors that shape ecological interactions along environmental gradients. We investigated the spatial and temporal drivers of plant–hummingbird interaction networks across three forest types (pine-oak, fir, and subalpine) along a tropical high mountain gradient in western Mexico (2400 to 3700 m.a.s.l.). We measured species abundance, diversity, morphology, and interaction frequencies. Plant diversity metrics significantly declined in the highest elevation subalpine forest, whereas hummingbird diversity remained consistent across elevations. Interaction networks were similarly nested across elevations, but they were more specialized in the subalpine forest, where lower plant species richness and higher floral abundance led to greater resource partitioning among hummingbirds. Plant–hummingbird networks were larger and less specialized during the dry season, driven by greater species diversity and abundance. Species turnover explained network variation along the elevational gradient, while interaction rewiring and the arrival of migratory hummingbirds explained changes between seasons. Phenological overlap was the most important driver of the observed variation in interaction frequencies across elevations and seasons. Flower abundance had a minor influence on interaction frequencies at low- and mid-elevation networks, and hummingbird abundance was significant for dry- and rainy-season networks. Morphological matching was significant in the low-elevation forest and in the dry season. Plant phylogenetic relatedness had negligible effects on interaction patterns, but hummingbird phylogeny influenced feeding preferences in high-elevation and rainy-season networks. Our findings highlight the role of species turnover, interaction rewiring, and phenological overlap in structuring plant–hummingbird networks, with specific effects of abundance, morphology, and phylogeny varying with elevation and season. High-elevation ecosystems play a crucial role as reservoirs of floral resources for both resident and migratory hummingbirds during resource-scarce periods, emphasizing their importance in maintaining biodiversity in tropical mountain gradients.

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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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