Improving hydrologic model to predict the effect of snowpack and soil temperature on carbon dioxide emission in the cold region peatlands

Peatlands cover only about 3% of the Earth’s surface and store 15–30% of the Global soil carbon as a peat. However, human intervention and climate change threatens the stability of peatlands, owing to deforest, wildfire, mining, drainage, glacial retreat, and permafrost. In our study, we modified th...

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Published inJournal of hydrology (Amsterdam) Vol. 587; p. 124939
Main Authors Melaku, Nigus Demelash, Wang, Junye, Meshesha, Tesfa Worku
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2020
Subjects
Canada
Carbon dioxide
climate change
drainage
glaciation
greenhouse gas emissions
land use
mining
peat
Peatland
peatlands
permafrost
prediction
simulation models
snow
Snow depth
snowpack
Soil and Water Assessment Tool model
soil carbon
Soil temperature
SWAT subroutine
watersheds
wildfires
Canada
SWAT subroutine
Snow depth
Peatland
Soil temperature
Carbon dioxide
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Summary:Peatlands cover only about 3% of the Earth’s surface and store 15–30% of the Global soil carbon as a peat. However, human intervention and climate change threatens the stability of peatlands, owing to deforest, wildfire, mining, drainage, glacial retreat, and permafrost. In our study, we modified the SWAT model to couple snow, soil temperature and carbon dioxide emission. Then the modified SWAT was used for predicting snow depth, soil temperature at different depths and carbon dioxide emission from peatlands and other land uses at Athabasca river basin, Canada. The results of the study indicated that SWAT model estimated the daily snow depth with R2, NSE, RMSE and PBIAS values of 0.83, 0.76, 0.52 and −2.3 in the calibration period (2006–2007) and 0.79, 0.71, 0.97 and −3.6 for the validation period (2008–2009), respectively. The SWAT model also predicted soil temperature very well at three depths (5 cm, 10 cm and 30 cm). The simulation model results also confirmed that the modified SWAT model estimates the CO2 emission at Athabasca river basin with good model fit during calibration (R2 = 0.71, NSE = 0.67, RMSE = 2.6 and PBIAS = 3.2) and during validation (R2 = 0.63, NSE = 0.58, RMSE = 3.1 and PBIAS = 9.3). Overall, our result confirmed that SWAT model performed well in representing the dynamics of snow depth, soil temperature and CO2 emissions in the peatlands at the Athabasca river basin.
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content type line 23
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2020.124939