Abstract
AbstractClimate change threatens to push species to higher elevations and eventual extinction. Birds, in particular, are shown to be shifting upslope in the Neotropics and Southeast Asia. Yet previous studies have lacked the temporal resolution to investigate distributional dynamics over time in relation to climatic fluctuations, especially in the understudied Afrotropics. Here, we used 15 years of point‐count data from across an elevational gradient (1,767–2,940 m) in Rwanda, to assess elevational shift rates and dynamics in a community of Afrotropical birds. In general, species shifted their elevations upslope by 1.9 m/year, especially at their lower elevational limits which shifted by 4.4 m/year. Importantly, these shifts occurred despite the fact that local temperature and precipitation showed little trend over the study period. Moreover, the interannual distributions of few species were associated with temperature, suggesting that temperature played little direct role in determining elevational distributions of birds. Instead, upslope shifts may be more related to incremental shifts in habitat and resources which lag behind decades of increased temperature in the region. Precipitation appeared to have more of an effect than temperature in determining interannual elevational changes, allowing species to expand their ranges in years of higher rainfall. Our results highlight the need to understand the mechanisms driving upslope shifts as they occur throughout the tropics. It will be critical for montane regions of the tropics to preserve contiguous blocks of forest across elevational gradients to allow wildlife to shift unimpeded.
Highlights
Global climate change is causing populations to move in order to track shifting climatic envelopes (Chen, Hill, Ohlemüller, Roy, & Thomas, 2011; Parmesan, 2006)
Elevational gradients in the Afrotropics are understudied compared to the Neotropics (Forero-Medina, Terborgh, et al, 2011; Freeman, Scholer, et al, 2018; Neate-Clegg et al, 2018) and Southeast Asia (Boyce, Freeman, Mitchell, & Martin, 2015; Freeman & Class Freeman, 2014; Peh, 2007), making this one of the first investigations into observed shift rates in this biogeographical realm
2014) and the Neotropics (Forero-Medina, Joppa, & Pimm, 2011; Freeman, Scholer, et al, 2018; Neate-Clegg et al, 2018) but few studies have focused on Afrotropical birds (Dulle et al, 2016; van der Hoek et al, 2020)
Summary
Global climate change is causing populations to move in order to track shifting climatic envelopes (Chen, Hill, Ohlemüller, Roy, & Thomas, 2011; Parmesan, 2006). Endotherms, birds, have been shown to shift upslope (Freeman & Class Freeman, 2014; Freeman, Scholer, Ruiz-Gutierrez, & Fitzpatrick, 2018; Neate-Clegg, Jones, Burdekin, Jocque, & Sekercioglu, 2018) despite the fact that thermal physiological tolerance does not appear to limit tropical birds' elevational distributions (Freeman, 2016; Londoño, Chappell, Jankowski, & Robinson, 2017). Elevational gradients in the Afrotropics are understudied compared to the Neotropics (Forero-Medina, Terborgh, et al, 2011; Freeman, Scholer, et al, 2018; Neate-Clegg et al, 2018) and Southeast Asia (Boyce, Freeman, Mitchell, & Martin, 2015; Freeman & Class Freeman, 2014; Peh, 2007), making this one of the first investigations into observed shift rates in this biogeographical realm (but see Dulle et al, 2016; van der Hoek, Faida, Musemakweli, & Tuyisingize, 2020). We investigated whether 51 bird species have (a) shifted their mean elevation over time, (b) shifted their elevational range limits over time, (c) shifted their elevation in relation to temperature and precipitation, and (d) whether shift rates were associated with key ecological traits
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