Abstract
The Anthropocene is a time of unprecedented and accelerating rates of environmental change that includes press (e.g., climate change) and pulse disturbances (e.g., cyclonic storms, land use change) that interact to affect spatiotemporal dynamics in the density, distribution, and biodiversity of organisms. We leverage three decades of spatially explicit data on the density of a tropical folivore (Lamponius portoricensis [Insecta, Phasmida]) in a hurricane-mediated ecosystem (montane rainforest of Puerto Rico), along with associated environmental attributes, to disentangle the effects of interacting disturbances at multiple spatial scales. Spatiotemporal variation in density at a small spatial scale is affected by disturbance-related characteristics (hurricane severity, time after most recent major hurricane, ambient temperature, and understory temperature), legacies of previous land use, and understory habitat structure. Nonetheless, only a small proportion of spatiotemporal variation in density was related to those characteristics. In contrast, the majority of interannual variation in mean density at a larger scale was related to disturbance characteristics and understory habitat structure. These factors combine to affect a weak and declining trend in the density of L. portoricensis over time. The low resistance of L. portoricensis to Hurricane Hugo, as compared to Hurricanes Georges and Maria, likely arose because a drought followed Hurricane Hugo. The disturbance regime of the region is predicted to include increases in ambient temperatures, frequency of high-intensity storms, and frequency of droughts. Such trends may combine to threaten the conservation status of L. portoricensis, and other species with which it shares similar life history characteristics.
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Acknowledgements
This research was facilitated by Grants BSR-8811902, DEB-9411973, DEB-0080538, DEB-0218039, DEB-0620910, DEB-1239764, DEB-1546686, and DEB-1831952 from the National Science Foundation to the Institute of Tropical Ecosystem Studies, University of Puerto Rico, and the International Institute of Tropical Forestry as part of the Long-Term Ecological Research Program. Additional support was provided by the United States Forest Service and the University of Puerto Rico. Integration and synthesis were supported by an OPUS grant from NSF (DEB-1950643) to MRW. Support was also provided by the Center for Environmental Sciences and Engineering and Institute of the Environment at the University of Connecticut.
Funding
This work was supported by National Science Foundation (BSR-8811902, DEB-9411973, DEB-0080538, DEB-0218039, DEB-0620910, DEB-1239764, DEB-1546686, and DEB-1831952 from the National Science Foundation to the Institute of Tropical Ecosystem Studies, University of Puerto Rico, and the International Institute of Tropical Forestry as part of the Long-Term Ecological Research Program. Integration and synthesis were supported by an OPUS grant from NSF (DEB-1950643) to MRW. Finally, support was provided by the United States Forest Service, the University of Puerto Rico, and the Center for Environmental Sciences and Engineering and Institute of the Environment at the University of Connecticut.
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MRW conceived and managed all aspects of the project. SJP executed quantitative analyses. MRW and SJP designed the analytical phases of the work and wrote the manuscript.
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Lamponius portoricensis (walking stick) and temperature data are archived publicly and openly available in the Luquillo Long-Term Ecological Research data catalog: Lamponius portoricensis data https://portal.edirepository.org/nis/mapbrowse?packageid=knb-lter-luq.107.9996737), temperature data (https://portal.edirepository.org/nis/mapbrowse?scope=knb-lter-luq&identifier=16&revision=538557).
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Willig, M.R., Presley, S.J. Long-term spatiotemporal variation in density of a tropical folivore: responses to a complex disturbance regime. Oecologia 199, 979–994 (2022). https://doi.org/10.1007/s00442-022-05227-3
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DOI: https://doi.org/10.1007/s00442-022-05227-3