1] Geography, College of Life and Environmental Sciences, University of Exeter, Exeter EX4 4RJ, UK [2] Department of Forest Sciences, University of Helsinki, 00014 Helsinki, Finland.
Institute of Biological and Environmental Sciences, University of Aberdeen, Aberdeen AB24 3UU, UK.
Nature. 2014 Sep 4;513(7516):81-4. doi: 10.1038/nature13604.
Soils store about four times as much carbon as plant biomass, and soil microbial respiration releases about 60 petagrams of carbon per year to the atmosphere as carbon dioxide. Short-term experiments have shown that soil microbial respiration increases exponentially with temperature. This information has been incorporated into soil carbon and Earth-system models, which suggest that warming-induced increases in carbon dioxide release from soils represent an important positive feedback loop that could influence twenty-first-century climate change. The magnitude of this feedback remains uncertain, however, not least because the response of soil microbial communities to changing temperatures has the potential to either decrease or increase warming-induced carbon losses substantially. Here we collect soils from different ecosystems along a climate gradient from the Arctic to the Amazon and investigate how microbial community-level responses control the temperature sensitivity of soil respiration. We find that the microbial community-level response more often enhances than reduces the mid- to long-term (90 days) temperature sensitivity of respiration. Furthermore, the strongest enhancing responses were observed in soils with high carbon-to-nitrogen ratios and in soils from cold climatic regions. After 90 days, microbial community responses increased the temperature sensitivity of respiration in high-latitude soils by a factor of 1.4 compared to the instantaneous temperature response. This suggests that the substantial carbon stores in Arctic and boreal soils could be more vulnerable to climate warming than currently predicted.
土壤中储存的碳大约是植物生物量的四倍,土壤微生物呼吸作用每年向大气释放约 60 千兆克的二氧化碳。短期实验表明,土壤微生物呼吸作用随温度呈指数增长。这一信息已被纳入土壤碳和地球系统模型中,这些模型表明,土壤中由于变暖而导致的二氧化碳释放增加,代表了一种重要的正反馈回路,可能会影响二十一世纪的气候变化。然而,这种反馈的规模仍不确定,尤其是因为土壤微生物群落对温度变化的反应有可能大幅减少或增加变暖引起的碳损失。在这里,我们从从北极到亚马逊的气候梯度上的不同生态系统中收集土壤,并研究微生物群落水平的响应如何控制土壤呼吸的温度敏感性。我们发现,微生物群落水平的响应更经常增强而不是减弱呼吸的中到长期(90 天)温度敏感性。此外,在高碳氮比的土壤和来自寒冷气候区的土壤中观察到最强的增强响应。90 天后,与瞬时温度响应相比,微生物群落的响应将高纬度土壤的呼吸温度敏感性提高了 1.4 倍。这表明,北极和北方地区土壤中大量的碳储存可能比目前预测的更容易受到气候变暖的影响。
