A novel 13C pulse‐labelling method to quantify the contribution of rhizodeposits to soil respiration in a grassland exposed to drought and nitrogen addition

呼吸 土壤呼吸 农学 草原 开枪 化学 土壤水分 氮气 碳循环 土壤碳 生态系统 植物 环境科学 土壤科学 生物 生态学 有机化学
作者
Ruzhen Wang,Bahareh Bicharanloo,Milad Bagheri Shirvan,Timothy R. Cavagnaro,Yong Jiang,Claudia Keitel,Feike A. Dijkstra
出处
期刊:New Phytologist [Wiley]
卷期号:230 (2): 857-866 被引量:48
标识
DOI:10.1111/nph.17118
摘要

Rhizodeposition plays an important role in below-ground carbon (C) cycling. However, quantification of rhizodeposition in intact plant-soil systems has remained elusive due to methodological issues. We used a 13 C-CO2 pulse-labelling method to quantify the contribution of rhizodeposition to below-ground respiration. Intact plant-soil cores were taken from a grassland field, and in half, shoots and roots were removed (unplanted cores). Both unplanted and planted cores were assigned to drought and nitrogen (N) treatments. Afterwards, shoots in planted cores were pulse labelled with 13 C-CO2 and then clipped to determine total below-ground respiration and its δ13 C. Simultaneously, δ13 C was measured for the respiration of live roots, soils with rhizodeposits, and unplanted treatments, and used as endmembers with which to determine root respiration and rhizodeposit C decomposition using two-source mixing models. Rhizodeposit decomposition accounted for 7-31% of total below-ground respiration. Drought reduced decomposition of both rhizodeposits and soil organic carbon (SOC), while N addition increased root respiration but not the contribution of rhizodeposit C decomposition to below-ground respiration. This study provides a new approach for the partitioning of below-ground respiration into different sources, and indicates that decomposition of rhizodeposit C is an important component of below-ground respiration that is sensitive to drought and N addition in grassland ecosystems.
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