Sensitivity of primary production to precipitation across the United States

• Published in: Ecology letters Vol. 23; no. 3; pp. 527 - 536
• Main Authors: Maurer, Gregory E., Hallmark, Alesia J., Brown, Renée F., Sala, Osvaldo E., Collins, Scott L., Coulson, Tim
• Format: Journal Article
• Language: English
• Published: England Blackwell Publishing Ltd 01.03.2020
• Subjects: Arid lands; Arid zones; Aridity; Carbon Cycle; climate; Climate Change; Climate variability; Drought; dry environmental conditions; Ecosystem; Ecosystem degradation; ecosystem function; Ecosystem services; Ecosystems; Environmental assessment; global carbon budget; Grassland; Grasslands; interannual variability; photosynthesis; Precipitation; Primary production; primary productivity; Remote sensing; Risk assessment; Sensitivity; Stations; United States; Variability; Western United States; United States; United States > US; Western United States; remote sensing; ecosystem function; interannual variability; Drought; photosynthesis
• ISSN: 1461-023X; 1461-0248; 1461-0248
• DOI: 10.1111/ele.13455

Primary production, a key regulator of the global carbon cycle, is highly responsive to variations in climate. Yet, a detailed, continental‐scale risk assessment of climate‐related impacts on primary production is lacking. We combined 16 years of MODIS NDVI data, a remotely sensed proxy for primary production, with observations from 1218 climate stations to derive values of ecosystem sensitivity to precipitation and aridity. For the first time, we produced an empirically‐derived map of ecosystem sensitivity to climate across the conterminous United States. Over this 16‐year period, annual primary production values were most sensitive to precipitation and aridity in dryland and grassland ecosystems. Century‐long trends measured at the climate stations showed intensifying aridity and climatic variability in many of these sensitive regions. Dryland ecosystems in the western US may be particularly vulnerable to reductions in primary production and consequent degradation of ecosystem services as climate change and variability increase in the future. We examined the response of a remotely‐sensed proxy for primary production to variations in precipitation and aridity across the continental U.S. over a 16 year period. Primary production is most sensitive to climate in arid and semi‐arid ecoregions where increases in aridity and climatic variablity are most rapid. These ecoregions, including the Desert Southwest and Great Plains, may be at enhanced risk for disruption to primary production and associated ecosystem services.