Litcius/Paper detail

Distinct response of gross primary productivity in five terrestrial biomes to precipitation variability

François Ritter, Max Berkelhammer, Cynthia Garcia‐Eidell

2020Communications Earth & Environment72 citationsDOIOpen Access PDF

Abstract

Abstract Climate change will impact precipitation variability, potentially accelerating climate-terrestrial carbon feedbacks. However, the response of ecosystems to precipitation variability is difficult to constrain due to myriad physiological and abiotic variables that limit terrestrial productivity. Based on a combination of satellite imagery and a global network of daily precipitation data, we present here a statistical framework to isolate the impact of precipitation variability on the gross primary productivity of five biomes that collectively account for 50% of global land area. The productivity of mesic grasslands and forests decreases by ~28% and ~7% (respectively) in response to more irregular rain within the year, while the sensitivity is halved in response to higher year-to-year variability. Xeric grasslands are similarly impacted by intra-annual rainfall variance, but they show an increase in productivity with higher interannual rainfall variability. Conversely, the productivity of boreal forests increases under higher variability on both timescales. We conclude that projected changes in precipitation variability will have a measurable global impact on the terrestrial carbon sink.

Topics & Concepts

BiomePrimary productionEnvironmental sciencePrecipitationTerrestrial ecosystemDeserts and xeric shrublandsProductivityEcosystemClimate changeClimatologyGlobal changeAtmospheric sciencesPhysical geographyEcologyGeographyBiologyMeteorologyGeologyEconomicsHabitatMacroeconomicsPlant Water Relations and Carbon DynamicsClimate variability and modelsRemote Sensing in Agriculture