Abstract
Globally, the amount of carbon stored in peats exceeds that stored in vegetation and is similar in size to the current atmospheric carbon pool. Fire is a threat to many peat-rich biomes and has the potential to disturb these carbon stocks. Peat fires are dominated by smouldering combustion, which is ignited more readily than flaming combustion and can persist in wet conditions. In undisturbed peatlands, most of the peat carbon stock typically is protected from smouldering, and resistance to fire has led to a build-up of peat carbon storage in boreal and tropical regions over long timescales. But drying as a result of climate change and human activity lowers the water table in peatlands and increases the frequency and extent of peat fires. The combustion of deep peat affects older soil carbon that has not been part of the active carbon cycle for centuries to millennia, and thus will dictate the importance of peat fire emissions to the carbon cycle and feedbacks to the climate.
Highlights
Faculty of Earth and Life Sciences, VU University Amsterdam, De Boelelaan 1085, Division of Atmospheric Sciences, Desert Research Institute, 2215 Raggio Parkway, Abstract atmospheric carbon pool
Peatlands are ecosystems that accumulate thick organic soil layers because of a long-term imbalance in which plant production exceeds decomposition throughout the entire surface, but store around 25% of the world’s soil carbon (C)[1]. They are most abundant at land[1] and store an estimated 500 - 600 Gt (Gt = 1015) C
Flaming produces high temperatures at the ground surface for only a brief period of time, Deeper burning of peat resulting from water table drawdown has consequences
Summary
Faculty of Earth and Life Sciences, VU University Amsterdam, De Boelelaan 1085, Division of Atmospheric Sciences, Desert Research Institute, 2215 Raggio Parkway, Abstract atmospheric carbon pool. Peatlands are ecosystems that accumulate thick organic soil layers because of a long-term imbalance in which plant production exceeds decomposition throughout the entire surface, but store around 25% of the world’s soil carbon (C)[1].
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