https://digital.csic.es/bitstream/10261/280602/1/WNV_Prevalence_Data.csv 57610 WNV_Prevalence_Data.csv WNV_Prevalence_Data.csv Theory posits that resilience of ecosystems increases when there is a diversity of agents (e.g., species) and linkages between them. If ecosystems are conceptualized as components of “coupled human and natural systems”, then a corollary would be that novel types of human-induced diversity may also foster resilience. We explored this hypothesis by studying how socially created diversity mediated the impact of a historically severe drought on a network of wetlands in the foothills of the California Sierra Nevada containing a metapopulation of the threatened California Black Rail (Laterallus jamaicensis coturniculus). We examined how (1) diversity in motivations for land ownership affected use of irrigation water and response to drought, (2) differences in natural and irrigated water sources affected wetland drying in response to drought, and (3) these processes affected the persistence of rails and the transmission risk of West Nile virus, an emerging infectious disease that threatens people and rails. Wetlands were mostly fed by inefficiencies and leaks from the irrigation system. Wetlands with both natural and irrigated water sources were larger, wetter, and likelier to persist through drought because these two sources showed response diversity by drying at different times. Wetlands with diverse water sources also provided the best habitat for the California Black Rail, and irrigation appeared responsible for its persistence through the drought. Irrigation increased WNV transmission risk by increasing the quantity, but not the quality, of wetland habitats for mosquitoes. The impacts of social diversity were more ambiguous, with redundancy prevalent. However, profit-motivated landowners provided wetlands more irrigation during non-drought conditions, while other landowner types were more likely to continue providing irrigation during drought. This dataset provides the wetland, California Black Rail, and West Nile virus data that support the findings of this study. Partial social and geospatial data are available by emailing the first author upon request, excluding some information that would make respondents identifiable. Coupled natural-human system Assessing impacts of social-ecological diversity on resilience in a wetland coupled human and natural system: Data release Socio-ecological system Laterallus jamaicensis coturniculus Theory posits that resilience of ecosystems increases when there is a diversity of agents (e.g., species) and linkages between them. If ecosystems are conceptualized as components of “coupled human and natural systems”, then a corollary would be that novel types of human-induced diversity may also foster resilience. We explored this hypothesis by studying how socially created diversity mediated the impact of a historically severe drought on a network of wetlands in the foothills of the California Sierra Nevada containing a metapopulation of the threatened California Black Rail (Laterallus jamaicensis coturniculus). We examined how (1) diversity in motivations for land ownership affected use of irrigation water and response to drought, (2) differences in natural and irrigated water sources affected wetland drying in response to drought, and (3) these processes affected the persistence of rails and the transmission risk of West Nile virus, an emerging infectious disease that threatens people and rails. Wetlands were mostly fed by inefficiencies and leaks from the irrigation system. Wetlands with both natural and irrigated water sources were larger, wetter, and likelier to persist through drought because these two sources showed response diversity by drying at different times. Wetlands with diverse water sources also provided the best habitat for the California Black Rail, and irrigation appeared responsible for its persistence through the drought. Irrigation increased WNV transmission risk by increasing the quantity, but not the quality, of wetland habitats for mosquitoes. The impacts of social diversity were more ambiguous, with redundancy prevalent. However, profit-motivated landowners provided wetlands more irrigation during non-drought conditions, while other landowner types were more likely to continue providing irrigation during drought. This dataset provides the wetland, California Black Rail, and West Nile virus data that support the findings of this study. Partial social and geospatial data are available by emailing the first author upon request, excluding some information that would make respondents identifiable. en Assessing impacts of social-ecological diversity on resilience in a wetland coupled human and natural system: Data release 2021-04-21T00:00:00+02:00 Agencia Estatal Consejo Superior de Investigaciones Científicas EA0020951 https://digital.csic.es/bitstream/10261/280602/5/README.txt README.txt README.txt 6123 Coupled human and natural system Rangelands Metapopulation 3491 https://digital.csic.es/bitstream/10261/280602/4/Metadata.txt Metadata.txt Metadata.txt California Black Rail Earth and related environmental sciences http://hdl.handle.net/10261/280602 Wetness_Data.csv Wetness_Data.csv 132628 https://digital.csic.es/bitstream/10261/280602/3/Wetness_Data.csv Wetland_Data.csv Wetland_Data.csv https://digital.csic.es/bitstream/10261/280602/2/Wetland_Data.csv 290099 Flaviviridae text/csv CSV plain text/plain text/plain plain CSV text/csv CSV text/csv