Long‐term litter removal rather than litter addition enhances ecosystem carbon sequestration in a temperate steppe

垃圾箱 生态系统 温带气候 农学 生物 生态系统呼吸 草原 生产力 环境科学 植物凋落物 生态学 固碳 初级生产 二氧化碳 宏观经济学 经济
作者
Jing Wang,Ang Zhang,Yujin Zheng,Jian Song,Jingyi Ru,Mengmei Zheng,Dafeng Hui,Shiqiang Wan
出处
期刊:Functional Ecology [Wiley]
卷期号:35 (12): 2799-2807 被引量:13
标识
DOI:10.1111/1365-2435.13920
摘要

Abstract Global change can greatly affect plant productivity and subsequently litter input to soil, with potential impacts on soil carbon (C) fluxes. However, the effects of litter layer in mediating C cycling and budget at an ecosystem scale are still not clear. As part of a long‐term litter fall manipulation experiment in a temperate steppe on the Mongolian Plateau, this study was conducted to explore effects of litter removal and addition on ecosystem C budget and the associated mechanisms. Overall, litter removal enhanced photosynthetic active radiation (PAR) at soil surface by 31.0%, but litter addition reduced it by 26.5%. Litter removal decreased soil inorganic nitrogen (SIN) content at the depth of 0–10 cm by 13.6%, but litter addition enhanced it by 14.1%. Litter removal increased legume abundance by 131.1%, whereas litter addition enhanced grass abundance by 30.7% but decreased forb abundance by 33.1%. Litter removal increased gross ecosystem productivity (GEP) through enhancing PAR and legume abundance, whereas litter addition elevated GEP by changing plant community composition mediated by decreasing PAR and increasing SIN. Litter removal did not affect ecosystem respiration (ER), but litter addition stimulated ER by 14.9%. Therefore, while litter addition did not affect net ecosystem productivity (NEP), litter removal surprisingly enhanced NEP by 23.9% over the later 7 years. Our findings highlight that more above‐ground litter input derived from biomass production may not necessarily result in a larger ecosystem C sink in grasslands under global change scenarios in the future. On the contrary, proper litter removal may be an effective way to increase the ecosystem C sink in grassland management. A free Plain Language Summary can be found within the Supporting Information of this article.
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