Abstract
BackgroundClimate change due to anthropogenic global warming is the most important factor that will affect future range distribution of species and will shape future biogeographic patterns. While much effort has been expended in understanding how climate change will affect rare and declining species we have less of an understanding of the likely consequences for some abundant species. The Common Grackle (Quiscalus quiscula; Linnaeus 1758), though declining in portions of its range, is a widespread blackbird (Icteridae) species in North America east of the Rocky Mountains. This study examined how climate change might affect the future range distribution of Common Grackles.MethodsWe used the R package Wallace and six general climate models (ACCESS1-0, BCC-CSM1-1, CESM1-CAM5-1-FV2, CNRM-CM5, MIROC-ESM, and MPI-ESM-LR) available for the future (2070) to identify climatically suitable areas, with an ecological niche modelling approach that includes the use of environmental conditions.ResultsFuture projections suggested a significant expansion from the current range into northern parts of North America and Alaska, even under more optimistic climate change scenarios. Additionally, there is evidence of possible future colonization of islands in the Caribbean as well as coastal regions in eastern Central America. The most important bioclimatic variables for model predictions were Annual Mean Temperature, Temperature Seasonality, Mean Temperature of Wettest Quarter and Annual Precipitation.ConclusionsThe results suggest that the Common Grackle could continue to expand its range in North America over the next 50 years. This research is important in helping us understand how climate change will affect future range patterns of widespread, common bird species.
Highlights
Climate change due to anthropogenic global warming is the most important factor that will affect future range distribution of species and will shape future biogeographic patterns
We focus on future (2070) distribution predictions of the Common Grackle to understand the role of climate change on its range dynamics
The final models showed that BIO1 (Annual Mean Temperature), BIO2 (Mean Diurnal Range, mean of monthly max temp ‒ min temp) BIO4 (Temperature Seasonality), BIO8 (Mean Temperature of Wettest Quarter), BIO 12 (Annual Precipitation) and BIO 15 (Precipitation Seasonality) are the most important variables for ecological niche modelling predictions for this species (Fig. 1)
Summary
Climate change due to anthropogenic global warming is the most important factor that will affect future range distribution of species and will shape future biogeographic patterns. The Common Grackle (Quiscalus quiscula; Linnaeus 1758), though declining in portions of its range, is a widespread blackbird (Icteridae) species in North America east of the Rocky Mountains. This study examined how climate change might affect the future range distribution of Common Grackles. Interglacial periods make up a minority (20%) of these cycles, lasting on average ~ 10 to 30 thousand years (Philander 2008). Glacial-interglacial cycles and their strong attendant climatic fluctuations forced species to either move to locations that remained suitable or to adapt to changing environmental conditions. The alternative outcome was extinction (Jansson and Dynesius 2002)
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