青藏高原北部高寒草甸生态系统CO₂通量对短期实验性增温与氮添加的响应

Responses of ecosystem CO 2 fluxes to short-term experimental warming and nitrogen enrichment in an Alpine meadow, northern Tibet Plateau.

作者信息

Zong Ning, Shi Peili, Jiang Jing, Song Minghua, Xiong Dingpeng, Ma Weiling, Fu Gang, Zhang Xianzhou, Shen Zhenxi

机构信息

Lhasa National Ecological Research Station, Key Laboratory of Ecosystem Network Observation and Modelling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, A11 Datun Road, Chaoyang District, Beijing 100101, China ; University of Chinese Academy of Sciences, No. 19A Yuquan Road, Shijingshan District, Beijing 100049, China.

出版信息

ScientificWorldJournal. 2013 Dec 29;2013:415318. doi: 10.1155/2013/415318. eCollection 2013.

DOI:10.1155/2013/415318

PMID:24459432

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3891229/

Abstract

Over the past decades, the Tibetan Plateau has experienced pronounced warming, yet the extent to which warming will affect alpine ecosystems depends on how warming interacts with other influential global change factors, such as nitrogen (N) deposition. A long-term warming and N manipulation experiment was established to investigate the interactive effects of warming and N deposition on alpine meadow. Open-top chambers were used to simulate warming. N addition, warming, N addition × warming, and a control were set up. In OTCs, daytime air and soil temperature were warmed by 2.0°C and 1.6°C above ambient conditions, but soil moisture was decreased by 4.95 m(3) m(-3). N addition enhanced ecosystem respiration (Reco); nevertheless, warming significantly decreased Reco. The decline of Reco resulting from warming was cancelled out by N addition in late growing season. Our results suggested that N addition enhanced Reco by increasing soil N availability and plant production, whereas warming decreased Reco through lowering soil moisture, soil N supply potential, and suppression of plant activity. Furthermore, season-specific responses of Reco indicated that warming and N deposition caused by future global change may have complicated influence on carbon cycles in alpine ecosystems.

摘要

在过去几十年里，青藏高原经历了显著变暖，然而变暖对高山生态系统的影响程度取决于变暖如何与其他有影响力的全球变化因素相互作用，比如氮（N）沉降。为了研究变暖和氮沉降对高山草甸的交互作用，开展了一项长期的变暖和氮添加实验。使用开顶式气室模拟变暖。设置了氮添加、变暖、氮添加×变暖以及一个对照组。在开顶式气室中，白天空气和土壤温度比环境条件分别升高了2.0°C和1.6°C，但土壤湿度降低了4.95 m³ m⁻³。氮添加增强了生态系统呼吸（Reco）；然而，变暖显著降低了Reco。在生长季后期，氮添加抵消了变暖导致的Reco下降。我们的结果表明，氮添加通过增加土壤氮有效性和植物生产力增强了Reco，而变暖则通过降低土壤湿度、土壤氮供应潜力以及抑制植物活动降低了Reco。此外，Reco的季节特异性响应表明，未来全球变化导致的变暖和氮沉降可能会对高山生态系统的碳循环产生复杂影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6fea/3891229/e272fed27b64/TSWJ2013-415318.001.jpg

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青藏高原北部高寒草甸生态系统CO₂通量对短期实验性增温与氮添加的响应

Responses of ecosystem CO 2 fluxes to short-term experimental warming and nitrogen enrichment in an Alpine meadow, northern Tibet Plateau.

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