变暖与高 CO2 对半干旱草原的影响是非累加的，随降水而转移，且随时间而逆转。

Impacts of warming and elevated CO2 on a semi-arid grassland are non-additive, shift with precipitation, and reverse over time.

机构信息

Rangeland Resources Research Unit, Agricultural Research Service, United States Department of Agriculture, Fort Collins, CO, 80526, USA.

Hawkesbury Institute for the Environment, Western Sydney University, Penrith, NSW, 2751, Australia.

出版信息

Ecol Lett. 2016 Aug;19(8):956-66. doi: 10.1111/ele.12634. Epub 2016 Jun 24.

DOI:10.1111/ele.12634

PMID:27339693

Abstract

It is unclear how elevated CO2 (eCO2 ) and the corresponding shifts in temperature and precipitation will interact to impact ecosystems over time. During a 7-year experiment in a semi-arid grassland, the response of plant biomass to eCO2 and warming was largely regulated by interannual precipitation, while the response of plant community composition was more sensitive to experiment duration. The combined effects of eCO2 and warming on aboveground plant biomass were less positive in 'wet' growing seasons, but total plant biomass was consistently stimulated by ~ 25% due to unique, supra-additive responses of roots. Independent of precipitation, the combined effects of eCO2 and warming on C3 graminoids became increasingly positive and supra-additive over time, reversing an initial shift toward C4 grasses. Soil resources also responded dynamically and non-additively to eCO2 and warming, shaping the plant responses. Our results suggest grasslands are poised for drastic changes in function and highlight the need for long-term, factorial experiments.

摘要

目前尚不清楚随着时间的推移，高浓度二氧化碳（eCO2）以及由此带来的温度和降水变化将如何相互作用，从而对生态系统产生影响。在半干旱草原进行的为期 7 年的实验中，植物生物量对 eCO2 和增温的响应在很大程度上受到年际降水的调节，而植物群落组成的响应则对实验持续时间更为敏感。在“湿润”的生长季节，eCO2 和增温对地上植物生物量的综合影响不太积极，但由于根系具有独特的超加性反应，总植物生物量始终受到约 25%的刺激。与降水无关，eCO2 和增温对 C3 禾本科植物的综合影响随着时间的推移变得越来越积极和超加性，扭转了最初向 C4 草的转变。土壤资源也对 eCO2 和增温做出动态的、非加性的响应，从而塑造了植物的响应。我们的研究结果表明，草原在功能上可能会发生剧烈变化，这突显了进行长期、多因子实验的必要性。

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变暖与高 CO2 对半干旱草原的影响是非累加的，随降水而转移，且随时间而逆转。

Impacts of warming and elevated CO2 on a semi-arid grassland are non-additive, shift with precipitation, and reverse over time.

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