共 34 条
Carbon respiration from subsurface peat accelerated by climate warming in the subarctic
被引:570
作者:
Dorrepaal, Ellen
[1
]
Toet, Sylvia
[1
]
van Logtestijn, Richard S. P.
[1
]
Swart, Elferra
[1
]
van de Weg, Martine J.
[1
]
Callaghan, Terry V.
[2
,3
]
Aerts, Rien
[1
]
机构:
[1] Vrije Univ Amsterdam, Inst Ecol Sci, Dept Syst Ecol, NL-1081 HV Amsterdam, Netherlands
[2] Royal Swedish Acad Sci, Abisko Naturvetenskapliga Stn, SE-98107 Abisko, Sweden
[3] Univ Sheffield, Dept Anim & Plant Sci, Sheffield Ctr Arctic Ecol, Sheffield S10 5BR, S Yorkshire, England
来源:
关键词:
SOIL CO2 EFFLUX;
WATER-TABLE;
TEMPERATURE SENSITIVITY;
NATURAL-ABUNDANCE;
ECOSYSTEM;
BOG;
DECOMPOSITION;
GROWTH;
CYCLE;
MINERALIZATION;
D O I:
10.1038/nature08216
中图分类号:
O [数理科学和化学];
P [天文学、地球科学];
Q [生物科学];
N [自然科学总论];
学科分类号:
07 ;
0710 ;
09 ;
摘要:
Among the largest uncertainties in current projections of future climate is the feedback between the terrestrial carbon cycle and climate(1). Northern peatlands contain one-third of the world's soil organic carbon, equivalent to more than half the amount of carbon in the atmosphere(2). Climate-warming-induced acceleration of carbon dioxide (CO(2)) emissions through enhanced respiration of thick peat deposits, centuries to millennia old, may form a strong positive carbon cycle-climate feedback. The long-term temperature sensitivity of carbon in peatlands, especially at depth, remains uncertain, however, because of the short duration or correlative nature of field studies(3-5) and the disturbance associated with respiration measurements below the surface in situ or during laboratory incubations(6,7). Here we combine non-disturbing in situ measurements of CO(2) respiration rates and isotopic ((13)C) composition of respired CO(2) in two whole-ecosystem climate-manipulation experiments in a subarctic peatland. We show that approximately 1 degrees C warming accelerated total ecosystem respiration rates on average by 60% in spring and by 52% in summer and that this effect was sustained for at least eight years. While warming stimulated both short-term (plant-related) and longer-term (peat soil-related) carbon respiration processes, we find that at least 69% of the increase in respiration rate originated from carbon in peat towards the bottom (25-50 cm) of the active layer above the permafrost. Climate warming therefore accelerates respiration of the extensive, subsurface carbon reservoirs in peatlands to a much larger extent than was previously thought(6,7). Assuming that our data from a single site are indicative of the direct response to warming of northern peatland soils on a global scale, we estimate that climate warming of about 1 degrees C over the next few decades could induce a global increase in heterotrophic respiration of 38-100 megatonnes of C per year. Our findings suggest a large, long-lasting, positive feedback of carbon stored in northern peatlands to the global climate system.
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页码:616 / U79
页数:5
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