Nichar Gregory scite author profile

Logging and habitat fragmentation impact tropical forest ecosystems in numerous ways, perhaps the most striking of which is by altering the temperature, humidity, and light environment of the forest-its microclimate. Because local-scale microclimatic conditions directly influence the physiology, demography and behavior of most species, many of the impacts of land-use intensification on the biodiversity and ecosystem functioning of tropical forests have been attributed to changes in microclimate. However, the actual pathways through which altered microclimatic conditions reshape the ecology of these human-modified ecosystems remain largely unexplored. To bridge this knowledge gap, here we outline an agenda for future microclimate research in human-modified tropical ecosystems. We focus specifically on three main themes: the role of microclimate in shaping (i) species distributions, (ii) species interactions, and (iii) ecosystem functioning in tropical forests. In doing so we aim to highlight how a renewed focus on microclimate can help us not only better understand the ecology of human-modified tropical ecosystems, but also guide efforts to manage and protect them.

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Bird assemblage vulnerability depends on the diversity and biogeographic histories of islands

Weeks

Gregory

Naeem

2016

Proc. Natl. Acad. Sci. U.S.A.

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Biodiversity is widely acknowledged to influence the magnitude and stability of a large array of ecosystem properties, with biodiverse systems thought to be more functionally robust. As such, diverse systems may be safer harbors for vulnerable species, resulting in a positive association between biodiversity and the collective vulnerability of species in an assemblage, or “assemblage vulnerability.” We find that, for 35 islands across Northern Melanesia, bird assemblage vulnerability and biodiversity are positively associated. This relationship is highly contingent on Pleistocene connectivity, suggesting that biogeographic history—a factor often overlooked in biodiversity and ecosystem-functioning studies—may influence contemporary ecological processes. In the face of biodiversity loss attributable to anthropogenic drivers, reduced ecosystem functioning may erode the safe harbors of vulnerable assemblages. Paradoxically, these results suggest that biodiverse systems, as more robust systems, may experience greater biodiversity loss over ecological time because they harbor more vulnerable species accumulated over evolutionary time.

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Socio‐ecological drivers of multiple zoonotic hazards in highly urbanized cities

Combs

Kache

VanAcker

et al. 2021

Global Change Biology

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Nichar Gregory

Big dung beetles dig deeper: trait-based consequences for faecal parasite transmission

A Research Agenda for Microclimate Ecology in Human-Modified Tropical Forests

Bird assemblage vulnerability depends on the diversity and biogeographic histories of islands

Socio‐ecological drivers of multiple zoonotic hazards in highly urbanized cities

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