期刊
ENVIRONMENTAL ENTOMOLOGY
卷 50, 期 2, 页码 337-347出版社
OXFORD UNIV PRESS INC
DOI: 10.1093/ee/nvaa166
关键词
insects; climate; nestedness; altitude; diversity
类别
资金
- McIntire-Stenniis appropriations to Northern Arizona University
- State of Arizona
- Southwestern Experimental Garden Array was established under National Science Foundation [1126840]
- Field Stations and Marine Labs Grant [152253]
Research along elevational gradients in northern Arizona revealed that ground-dwelling arthropods show peak diversity at mid-elevations, with abundance, richness, and diversity indexes peaking in this region. Community composition varies significantly across the gradient, driven by shifts from ants dominating low to mid elevations, and beetles dominating high elevations. Population turnover is high among sites, suggesting vulnerability to environmental change, especially at lower elevations in arid regions.
Patterns of biodiversity along elevational gradients elucidate how climate shapes biological communities and help predict ecosystem responses to environmental change. Arid elevational gradients are particularly interesting because temperature limitations at high elevations and precipitation limitations at low elevations cause mid-elevation peaks in diversity. Ground-dwelling arthropods form highly diverse communities but few studies document elevational patterns of their full diversity. Here we investigate the elevational patterns of ground-dwelling arthropods in northern Arizona on the Colorado Plateau, an arid and understudied region in the United States. We sampled seven sites along an elevation gradient from 1,566 to 2,688 m corresponding to a difference of 6.5 degrees C average annual temperature and 620 mm average annual precipitation. We captured 16,942 specimens comprising 169 species, mostly ants and beetles, and discovered a new ant species. First- and second-order elevation terms significantly correlated to multiple measures of arthropod alpha and beta diversity. Arthropod abundance, richness, and Shannon-Wiener diversity index peaked at mid-elevations, with functional groups (i.e., omnivores, predators, detritivores, and herbivores) showing similar patterns. Community composition varied significantly across the gradient, correlated with changes in elevation, and was driven by shifts of ants dominating low- to mid-elevations, to beetles dominating high-elevations. Dissimilarity among sites was driven by high species turnover with 59% of species exclusive to a single site, whereas nestedness among sites was low except at the lowest elevation site. High rates of turnover and elevation-dependent communities suggest that ground-dwelling arthropods are highly vulnerable to environmental change, particularly at lower elevations in arid regions.
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