Biogeographical research has long sought to document current and past species' distributions through descriptive studies, but in recent decades this field has evolved to (1) capture local to coast-wide quantitative estimates of species' abundances, (2) link physical processes with species' distributions, and (3) determine how climate change disrupts biogeographic patterns. However, assessing change requires quantitatively robust data that are both geographically and temporally broad. Historically, such studies were rare, largely due to funding constraints. Here, we present a model for sustaining long-term, quantitative biogeography surveys using a collaborative approach. We also share some key contributions resulting from this model, including (1) a robust understanding of biogeographic patterns and the temporal dynamic of those patterns, (2) more comprehensive assessment of impacts at various scales (e.g., oil spill, coastwide disease event), and (3) more informed management decisions (e.g., marine protected area design and evaluation).
1.Univ Calif Santa Cruz, Dept Ecol & Evolutionary Biol, Santa Cruz, CA 95064 USA 2.Oregon State Univ, Dept Ecol & Evolutionary Biol, Corvallis, OR 97331 USA 3.Univ Calif Santa Barbara, Marine Sci Inst, Santa Barbara, CA 93106 USA
Recommended Citation:
Raimondi, Peter T.,Miner, C. Melissa,Menge, Bruce A.,et al. QUANTITATIVE BIOGEOGRAPHY Large-Scale, Long-Term Change in the Rocky Intertidal Region of the California Current Large Marine Ecosystem[J]. OCEANOGRAPHY,2019-01-01,32(3):26-37