Modelling the long term impact of climate change on the carbon budget of Lake Simcoe, Ontario using INCA-C

Modelling the long term impact of climate change on the carbon budget of Lake Simcoe, Ontario using INCA-C

This study presents a process-based model of dissolved organic carbon concentration ([DOC]) in catchments draining into Lake Simcoe, Ontario. INCA-C, the Integrated Catchment model for Carbon, incorporates carbon biogeochemical processes in a terrestrial system with hydrologic flow paths to simulate...

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Veröffentlicht in:The Science of the total environment 2012-01, Vol.414, p.387-403
Hauptverfasser: Oni, S.K., Futter, M.N., Molot, L.A., Dillon, P.J.
Format: Artikel
Sprache:eng
Schlagworte:
Carbon
Carbon Cycle - physiology
Climate Change
Climate downscaling
Dissolved organic carbon
Drainage
Dynamics
Fish and Aquacultural Science
Fisk- och akvakulturforskning
Geographic Information Systems
Hydrology
INCA-C
Lake Simcoe
Lakes
Lakes - chemistry
Models, Chemical
Ontario
Summer
Surface water quality
Watersheds
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creator Oni, S.K.
Futter, M.N.
Molot, L.A.
Dillon, P.J.
description This study presents a process-based model of dissolved organic carbon concentration ([DOC]) in catchments draining into Lake Simcoe, Ontario. INCA-C, the Integrated Catchment model for Carbon, incorporates carbon biogeochemical processes in a terrestrial system with hydrologic flow paths to simulate watershed wide [DOC]. The model successfully simulates present-day inter-annual and seasonal [DOC] dynamics in tributaries draining catchments with mixed or contrasting land cover in the Lake Simcoe watershed (LSW). The sensitivity of INCA-C to soil moisture, hydrologic controls and land uses within a watershed demonstrates its significance as a tool to explore pertinent environmental issues specific to the LSW. Projections of climate change under A1B and A2 SRES scenarios suggest a continuous monotonic increase in [DOC] in surface waters draining into Lake Simcoe. Large variations in seasonal DOC dynamics are predicted to occur during summer with a possibility of displacement of summer [DOC] maxima towards winter and a prolongation of summer [DOC] levels into the autumn. INCA-C also predicts possible increases in dissolved inorganic carbon in some tributaries with rising temperature suggesting increased CO2 emissions from rivers as climate changes. ► Despite their shortcomings, process-based model can be used to make useful conclusions about possible future conditions. ► Climate change scenarios suggest a monotonic increase in DOC concentration in surface waters draining into Lake Simcoe. ► Climate change may cause shifts in seasonality of DOC, with higher concentrations expected in the autumn and winter. ► Warmer temperatures may enhance mineralization of riverine DOC, suggesting a future increase in CO2 emission from rivers.
doi_str_mv 10.1016/j.scitotenv.2011.10.025
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INCA-C, the Integrated Catchment model for Carbon, incorporates carbon biogeochemical processes in a terrestrial system with hydrologic flow paths to simulate watershed wide [DOC]. The model successfully simulates present-day inter-annual and seasonal [DOC] dynamics in tributaries draining catchments with mixed or contrasting land cover in the Lake Simcoe watershed (LSW). The sensitivity of INCA-C to soil moisture, hydrologic controls and land uses within a watershed demonstrates its significance as a tool to explore pertinent environmental issues specific to the LSW. Projections of climate change under A1B and A2 SRES scenarios suggest a continuous monotonic increase in [DOC] in surface waters draining into Lake Simcoe. Large variations in seasonal DOC dynamics are predicted to occur during summer with a possibility of displacement of summer [DOC] maxima towards winter and a prolongation of summer [DOC] levels into the autumn. INCA-C also predicts possible increases in dissolved inorganic carbon in some tributaries with rising temperature suggesting increased CO2 emissions from rivers as climate changes. ► Despite their shortcomings, process-based model can be used to make useful conclusions about possible future conditions. ► Climate change scenarios suggest a monotonic increase in DOC concentration in surface waters draining into Lake Simcoe. ► Climate change may cause shifts in seasonality of DOC, with higher concentrations expected in the autumn and winter. ► Warmer temperatures may enhance mineralization of riverine DOC, suggesting a future increase in CO2 emission from rivers.</description><identifier>ISSN: 0048-9697</identifier><identifier>ISSN: 1879-1026</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2011.10.025</identifier><identifier>PMID: 22119036</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Carbon ; Carbon Cycle - physiology ; Climate Change ; Climate downscaling ; Dissolved organic carbon ; Drainage ; Dynamics ; Fish and Aquacultural Science ; Fisk- och akvakulturforskning ; Geographic Information Systems ; Hydrology ; INCA-C ; Lake Simcoe ; Lakes ; Lakes - chemistry ; Models, Chemical ; Ontario ; Summer ; Surface water quality ; Watersheds</subject><ispartof>The Science of the total environment, 2012-01, Vol.414, p.387-403</ispartof><rights>2011 Elsevier B.V.</rights><rights>Copyright © 2011 Elsevier B.V. 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INCA-C also predicts possible increases in dissolved inorganic carbon in some tributaries with rising temperature suggesting increased CO2 emissions from rivers as climate changes. ► Despite their shortcomings, process-based model can be used to make useful conclusions about possible future conditions. ► Climate change scenarios suggest a monotonic increase in DOC concentration in surface waters draining into Lake Simcoe. ► Climate change may cause shifts in seasonality of DOC, with higher concentrations expected in the autumn and winter. ► Warmer temperatures may enhance mineralization of riverine DOC, suggesting a future increase in CO2 emission from rivers.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>22119036</pmid><doi>10.1016/j.scitotenv.2011.10.025</doi><tpages>17</tpages></addata></record>
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source MEDLINE; Elsevier ScienceDirect Journals
subjects Carbon
Carbon Cycle - physiology
Climate Change
Climate downscaling
Dissolved organic carbon
Drainage
Dynamics
Fish and Aquacultural Science
Fisk- och akvakulturforskning
Geographic Information Systems
Hydrology
INCA-C
Lake Simcoe
Lakes
Lakes - chemistry
Models, Chemical
Ontario
Summer
Surface water quality
Watersheds
title Modelling the long term impact of climate change on the carbon budget of Lake Simcoe, Ontario using INCA-C
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