Articles

Using citizen science to parse climatic and land cover influences on bird occupancy in a tropical biodiversity hotspot

Ramesh, Vijay; Gupte, Pratik Rajan; Tingley, Morgan W.; Robin, V. V.; DeFries, Ruth S.

Disentangling associations between species occupancy and its environmental drivers –– climate and land cover –– along tropical mountains is imperative to predict species distributional changes in the future. Previous studies have primarily focused on identifying such associations in temperate mountain systems. Using 1.29 million robustly processed citizen science observations contributed to eBird between 2013 and 2021, we examined the role of climatic and landscape variables and its association with bird species occurrence within a tropical biodiversity hotspot, the southern Western Ghats in India. Using an occupancy modeling framework, we found that temperature seasonality, precipitation seasonality, and the proportion of evergreen forests were significantly associated with species-specific probabilities of occupancy for 78% (n=43 birds), 38% (n=21 birds), and 27% (n=15 birds) of bird species examined, respectively. Our study shows that several forest birds (n=18 species) were negatively associated with temperature seasonality, highlighting narrow thermal niches for such species. The probability of occupancy of six forest species and eight generalist species was positively associated with precipitation seasonality, indicating potential associations between rainfall and resource availability, and thereby, species occurrence. A smaller number of largely generalist species (n=9 birds) were positively associated with human-modified land cover types –– including the proportion of agriculture/settlements and plantations. Our study shows that rigorously filtered citizen science observations can be used to identify associations between environmental drivers and species occupancy on tropical mountains. Though current distributions of tropical montane birds of the Western Ghats are strongly associated with climatic factors (mainly, temperature seasonality), naturally occurring land cover types (forests) are critical to sustaining montane avifauna across human-modified landscapes in the long run.

Keywords: birds, citizen science, climate, elevational gradient, land cover, occupancy modeling, tropics

Geographic Areas

Files

  • thumnail for Ecography - 2022 - Ramesh - Using citizen science to parse climatic and land cover influences on bird occupancy in a.pdf Ecography - 2022 - Ramesh - Using citizen science to parse climatic and land cover influences on bird occupancy in a.pdf application/pdf 916 KB Download File

Also Published In

More About This Work

Academic Units
Ecology, Evolution, and Environmental Biology
Published Here
August 1, 2022