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Disturbance amplifies sensitivity of dryland productivity to precipitation variability

Tyson J. Terry, Osvaldo E. Sala, Scott Ferrenberg, Sasha C. Reed, Brooke B. Osborne, Samuel Jordan, Steven R. Lee, Peter B. Adler

2024Science Advances16 citationsDOIOpen Access PDF

Abstract

Variability of the terrestrial global carbon sink is largely determined by the response of dryland productivity to annual precipitation. Despite extensive disturbance in drylands, how disturbance alters productivity-precipitation relationships remains poorly understood. Using remote-sensing to pair more than 5600 km of natural gas pipeline corridors with neighboring undisturbed areas in North American drylands, we found that disturbance reduced average annual production 6 to 29% and caused up to a fivefold increase in the sensitivity of net primary productivity (NPP) to interannual variation in precipitation. Disturbance impacts were larger and longer-lasting at locations with higher precipitation (>450 mm mean annual precipitation). Disturbance effects on NPP dynamics were mostly explained by shifts from woody to herbaceous vegetation. Severe disturbance will amplify effects of increasing precipitation variability on NPP in drylands.

Topics & Concepts

Environmental scienceDisturbance (geology)PrecipitationPrimary productionProductivitySink (geography)Carbon sinkAtmospheric sciencesHerbaceous plantVegetation (pathology)EcosystemClimatologyEcologyMeteorologyGeologyGeographyBiologyEconomicsCartographyMedicinePathologyPaleontologyMacroeconomicsAtmospheric and Environmental Gas DynamicsPlant Water Relations and Carbon DynamicsPeatlands and Wetlands Ecology
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