Contribution of Urban Expansion and a Changing Climate to Decline of a Butterfly Fauna |
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| Authors: | KAYCE L CASNER MATTHEW L FORISTER JOSHUA M O'BRIEN JAMES THORNE DAVID WAETJEN ARTHUR M SHAPIRO |
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| Institution: | 1. Biology Department, 1878 Campus Delivery, Colorado State University, , U.S.A.;2. Department of Biology, Program in Ecology, Evolution, and Conservation Biology, , Reno, NV 89557 U.S.A.;3. Department of Environmental Science and Policy, One Shields Avenue, University of California, , Davis, CA 95616 U.S.A.;4. Department of Evolution and Ecology, Center for Population Biology, One Shields Avenue, University of California, , Davis, CA 95616 U.S.A. |
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| Abstract: | Butterfly populations are naturally patchy and undergo extinctions and recolonizations. Analyses based on more than 2 decades of data on California's Central Valley butterfly fauna show a net loss in species richness through time. We analyzed 22 years of phenological and faunistic data for butterflies to investigate patterns of species richness over time. We then used 18–22 years of data on changes in regional land use and 37 years of seasonal climate data to develop an explanatory model. The model related the effects of changes in land‐use patterns, from working landscapes (farm and ranchland) to urban and suburban landscapes, and of a changing climate on butterfly species richness. Additionally, we investigated local trends in land use and climate. A decline in the area of farmland and ranchland, an increase in minimum temperatures during the summer and maximum temperatures in the fall negatively affected net species richness, whereas increased minimum temperatures in the spring and greater precipitation in the previous summer positively affected species richness. According to the model, there was a threshold between 30% and 40% working‐landscape area below which further loss of working‐landscape area had a proportionally greater effect on butterfly richness. Some of the isolated effects of a warming climate acted in opposition to affect butterfly richness. Three of the 4 climate variables that most affected richness showed systematic trends (spring and summer mean minimum and fall mean maximum temperatures). Higher spring minimum temperatures were associated with greater species richness, whereas higher summer temperatures in the previous year and lower rainfall were linked to lower richness. Patterns of land use contributed to declines in species richness (although the pattern was not linear), but the net effect of a changing climate on butterfly richness was more difficult to discern. Contribución de la Expansión Urbana y un Clima Cambiante a la Declinación de la Fauna de Mariposas |
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| Keywords: | biodiversity climate generalized additive model land use Lepidoptera species richness biodiversidad clima Lepidoptera modelo aditivo generalizado riqueza de especies uso de suelo |
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