Bucci Sandra Janet, Carbonell-Silletta Luisina, Haro Rocio Guillermina, Oliva Gabriela, Arias Nadia Soledad, Hao Guang-You, Goldstein Guillermo, Scholz Fabian Gustavo
Grupo de Estudios Biofísicos y Ecofisiológicos (GEBEF), Instituto de Biociencias de La Patagonia (INBIOP), Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET) and Universidad Nacional de La Patagonia San Juan Bosco (UNPSJB), 9000, Comodoro Rivadavia, Argentina.
Ciencias Naturales y Ciencias de La Salud, Universidad Nacional de La Patagonia San Juan Bosco (UNPSJB), 9000, Comodoro Rivadavia, Argentina.
Oecologia. 2025 Sep 5;207(9):152. doi: 10.1007/s00442-025-05795-0.
Under the scenario of global warming, the response of carbon (C) fluxes of arid and semi-arid ecosystems, is still not well understood. A field warming experiment using open top chambers (OTCs) was conducted in a shrub-grass patagonian steppe to evaluate the effects on bare soil respiration (R), and ecosystem respiration (R), gross primary productivity (GPP) and net C exchange (NEE) during the growing season. Air (T) and soil (T) temperature, and soil available phosphorus changed significantly while there were no changes in soil moisture, soil organic carbon, total soil nitrogen and root biomass, after one-year of treatment. Inside OTCs R increased by 61%, with larger changes found during the daytime than during nighttime and tended to increase the temperature sensitivity (Q) from 1.49 to 1.58. Enhanced daytime NEE was observed inside OTCs mainly in the shrub Senecio filaginoides patches where C sequestration increased by 37% and GPP by 35% without effects on R. In the grass Poa ligularis patches changes in C fluxes were not significant, but lower decrease in GPP than in R tended to increase C uptake inside OTCs. This study reveals that future climate scenarios will lead to an enhanced C sequestration of vegetated patches but also to a higher bare soil CO emission which may turn this ecosystem in a substantial C source if bare soil fraction increases due to global changes.
在全球变暖的背景下,干旱和半干旱生态系统碳(C)通量的响应仍未得到很好的理解。在巴塔哥尼亚灌木草草原进行了一项使用开顶式气室(OTC)的田间增温实验,以评估生长季节中对裸土呼吸(R)、生态系统呼吸(R)、总初级生产力(GPP)和净碳交换(NEE)的影响。经过一年的处理后,空气温度(T)和土壤温度(T)以及土壤有效磷发生了显著变化,而土壤湿度、土壤有机碳、土壤全氮和根系生物量没有变化。在OTC内,R增加了61%,白天的变化比夜间更大,并且温度敏感性(Q)从1.49增加到1.58。在OTC内观察到白天NEE增强,主要在灌木丝状千里光斑块中,碳固存增加了37%,GPP增加了35%,而对R没有影响。在草地早熟禾斑块中,碳通量变化不显著,但GPP的降低幅度低于R,这倾向于增加OTC内的碳吸收。这项研究表明,未来气候情景将导致植被斑块的碳固存增强,但也会导致裸土CO排放增加,如果由于全球变化裸土比例增加,这个生态系统可能会变成一个重要的碳源。
