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Advanced precipitation peak offsets middle growing‐season drought in impacting grassland C sink

Jingyi Ru, Shiqiang Wan, Jianyang Xia, Shuli Niu, Dafeng Hui, Jian Song, Jiayin Feng, Dasheng Sun, Haidao Wang, Xueli Qiu

2024New Phytologist19 citationsDOIOpen Access PDF

Abstract

Redistribution of precipitation across seasons is a widespread phenomenon affecting dryland ecosystems globally. However, the impacts of shifting seasonal precipitation patterns on carbon (C) cycling and sequestration in dryland ecosystems remain poorly understood. In this study, we conducted a 10-yr (2013-2022) field manipulative experiment that altered the timing of growing-season precipitation peaks in a semi-arid grassland. We found that the delayed precipitation peak suppressed plant growth and thus reduced gross ecosystem productivity, ecosystem respiration, and net ecosystem productivity due to middle growing-season water stress. Surprisingly, shifting more precipitation to the early growing season can advance plant development, increase the dominance of drought-tolerant forbs, and thus compensate for the negative impacts of middle growing-season water stress on ecosystem C cycling, leading to a neutral change in grassland C sink. Our findings indicate that greater precipitation and plant development in spring could act as a crucial mechanism, maintaining plant growth and stabilizing ecosystem C sink. This underscores the urgent need to incorporate precipitation seasonality into Earth system models, which is crucial for improving projections of terrestrial C cycling and sequestration under future climate change scenarios.

Topics & Concepts

Growing seasonEnvironmental scienceEcosystemGrasslandPrecipitationSink (geography)CyclingTerrestrial ecosystemAridCarbon sinkRangelandEcologyAtmospheric sciencesAgronomyAgroforestryBiologyGeographyArchaeologyCartographyMeteorologyGeologyPlant Water Relations and Carbon DynamicsEcology and Vegetation Dynamics StudiesRemote Sensing in Agriculture
Advanced precipitation peak offsets middle growing‐season drought in impacting grassland C sink | Litcius