Submitted to: Ag Data Commons
Publication Type: Database / Dataset
Publication Acceptance Date: 4/21/2025
Publication Date: 4/21/2025
Citation: Grodsky, S.M., Campbell, J.W., Roeder, K.A., Waite, E.S., Wright, E.R., Johnston, M.A. 2025. Data from: Mixed responses of tenebrionid beetles to solar energy development in the Mojave Desert. Ag Data Commons. Dataset. https://doi.org/10.15482/USDA.ADC/28451921.
DOI: https://doi.org/10.15482/USDA.ADC/28451921

Interpretive Summary:

Technical Abstract: Abstract from paper: Solar energy development causes land-use change and habitat alteration that may affect desert ecosystems. Tenebrionid beetles have evolved to exploit desert environments and heavily contribute to ecosystem functionality in aridlands, yet their species-specific, ecological responses to solar energy development are unknown. Our objective was to elucidate effects of solar energy development decisions at a solar power facility (392 MW) on a tenebrionid beetle community in the Mojave Desert. Seven years post-construction, we used pitfall traps to collect tenebrionid beetles for one month in treatments representing variably intense site preparation practices and conservation measures, including blading (i.e., bulldozing), mowing, and establishment of undeveloped patches in solar fields, replicated across three power blocks comprising the facility and in undeveloped control sites surrounding the facility. Blading caused significant, deleterious effects on tenebrionid beetle abundance, species richness, and diversity. Ordination revealed apparent overlap of non-bladed treatments and controls, suggesting that intermediate levels of disturbance from less intensive solar energy development decisions may serve to minimize negative effects of solar energy development on tenebrionid communities. Anepsius delicatulus and Triorophus laevis, the two most commonly collected tenebrionids, were significantly more abundant in non-bladed treatments in the solar facility than in undeveloped controls; thus, solar facilities with minimized disturbance to vegetation may provide preferred habitat for certain tenebrionid species. Our results demonstrate the value of understanding variable responses of insects to solar energy development decisions in deserts to inform real-world adaptive management of natural resources during the renewable energy transition.