Form Submission: Participation Entry

Plant communities are controlled by multiple, interacting ecological drivers that influence the frequency, abundance, and diversity of species. For many terrestrial ecosystems in dryland climates, soil water availability is the primary limiting resource that influences structure, function, and composition. Here we use intensive field sampling coupled with soil water balance modeling to explore the relative importance of biotic and abiotic variables on plant species richness at the landscape scale in dryland plant communities. We asked 1) what are the patterns of total and functional type richness? and 2) what are the relationships between total and functional type richness and macroclimatic, ecohydrological, and biotic conditions? We estimated species richness at multiple spatial scales in 48 dryland plant communities dominated by big sagebrush (Artemisia tridentata) across an elevational gradient, and quantified richness and variability for total and functional type richness at each spatial scale. We used multiple regression and model selection using AIC to determine whether climatic means, multiple metrics of soil moisture from a soil water balance model (SOILWAT2), or site-specific soil and vegetation variables were more related to total and functional type richness. We found that at the largest sampling scale (1000 m2), richness was more strongly related to ecohydrological variables than climate or biotic variables. Variance partitioning revealed that a large portion of variability in total community (~54%), grass (~40%) and forb (~47%) richness was explained by soil water variables. Including ecohydrological, macroclimatic, and biotic predictors in the same model did not substantially increase explanatory power beyond ecohydrological variables alone. Our findings reinforce the potentially greater explanatory power of soil water variables over climatic conditions in dryland plant communities, and offer insight as to which aspects of soil moisture may be most influential to species richness in big sagebrush communities.