Abstract
Within global biodiversity hotspots such as the California Floristic Province, local patterns of diversity must be better understood to prioritize conservation for the greatest number of species. This study investigates patterns of vascular plant diversity in relation to coast–inland environmental gradients in the shrublands of Central California known as northern coastal scrub. We sampled coastal shrublands of the San Francisco Bay Area at coastal and inland locations, modeled fine‐scale climatic variables, and developed an index for local exposure to maritime salts. We compared diversity, composition, and structure of the coastal and inland plots using indirect gradient analysis and estimated species accumulation using rarefaction curves. Coastal plots were significantly higher in alpha, beta, and gamma diversity than inland plots. Plant diversity (effective species number) in coastal plots was 2.1 times greater than inland plots, and beta diversity was 1.9 times greater. Estimated richness by rarefaction was 2.05 times greater in coastal sites than inland sites. Salt deposition and water availability were the abiotic process most strongly correlated with increased maritime plant diversity and compositional differences. Stands of northern coastal scrub on the immediate coast with higher maritime influence exhibit markedly higher plant diversity than most interior stands, paralleling previous work in other vegetation types in this region. These studies suggest that the California coastline deserves special consideration for botanical conservation. Fine‐scale climatic models of cloud frequency, water availability, and the salt deposition index presented here can be used to define priority areas for plant conservation in California and other coastal regions worldwide.
Highlights
The spatial distribution of biological diversity and its determinants have long been a primary concern for ecologists and biogeographers, with significant modern applications in ecological theory and conservation biology (Ferrier & Drielsma, 2010; Gaston, 2000)
As a test of this coastal diversity pattern, here we investigate patterns of plant diversity in relation to environmental gradients within the coastal shrublands of Central California, collectively referred to as northern coastal scrub (Ford & Hayes, 2007; Munz & Keck, 1959; Sawyer, Keeler-Wolf, & Evens, 2009)
A general phenomenon of increasing diversity with maritime influence appears to occur in all vegetation types investigated in central California
Summary
The spatial distribution of biological diversity and its determinants have long been a primary concern for ecologists and biogeographers, with significant modern applications in ecological theory and conservation biology (Ferrier & Drielsma, 2010; Gaston, 2000). The 35 designated global biodiversity hotspots cover only 17.3% of earth’s land surface, yet contain over 50% of the world’s plant species as endemics (Mittermeier et al, 2011; Williams et al, 2011). Within these priority areas, smaller-scale patterns of richness and endemism often are less well understood (Kremen et al, 2008). Smaller-scale patterns of richness and endemism often are less well understood (Kremen et al, 2008) This represents a significant conservation knowledge gap because many land use decisions are made at the local scale by regional governments, agencies, and private landholders. Effective policy governing protection and management of local biodiversity hotspots require understanding smaller-scale patterns of diversity along environmental gradients
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