Modeling the effect of salt-affected soil on water balance fluxes and nitrous oxide emission using modified DNDC
Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N2O) fluxes and can contaminate surface and groundwater. In this study, the Denitrification Decomposition (DNDC) model was modified to couple salt and water balance equations (SALT-DNDC) to investigate the effect of...
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Published in | Journal of environmental management Vol. 280; p. 111678 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Elsevier Ltd
15.02.2021
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Abstract | Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N2O) fluxes and can contaminate surface and groundwater. In this study, the Denitrification Decomposition (DNDC) model was modified to couple salt and water balance equations (SALT-DNDC) to investigate the effect of salinity on water balance and N2O fluxes. The model was examined against four growing seasons (2008–11) of observed data from Lethbridge, Alberta, Canada. Then, the model was used to simulate water filled pore space (WFPS), salt concentration and the N2O flux from agricultural soils. The results show that the effects of salinity on WFPS vary in different soil layers. Within shallow soil layers (<20 cm from soil surface) the salt concentration does not affect the average WFPS when initial salt concentrations range from 5 to 20 dS/m. However, in deeper soil layers (>20 cm from soil surface), when the initial salt concentration ranges from 5 to 20 dS/m it could indirectly affect the average WFPS due to changes of osmotic potential and transpiration. When AW is greater than 40%, the average growing season N2O emissions increase to a range of 0.6–1.0 g-N/ha/d at initial salt concentrations (5–20 dS/m) from a range of 0.5–0.7 g-N/ha/d when the salt concentrations is 0 dS/m. The newly developed SALT-DNDC model provides a unique tool to help investigate interactive effects among salt, soil, water, vegetation, and weather conditions on N2O fluxes.
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•SALT-DNDC simulates effects of root zone salinity on water balance and N2O fluxes.•The salt leaching patterns depend on soil salinity, rainfall depths and frequency.•Due to soil salinity, plant transpiration and soil evaporation balance each other.•N2O emission depends on soil available water, soil moisture and salt concentration. |
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AbstractList | Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N2O) fluxes and can contaminate surface and groundwater. In this study, the Denitrification Decomposition (DNDC) model was modified to couple salt and water balance equations (SALT-DNDC) to investigate the effect of salinity on water balance and N2O fluxes. The model was examined against four growing seasons (2008–11) of observed data from Lethbridge, Alberta, Canada. Then, the model was used to simulate water filled pore space (WFPS), salt concentration and the N2O flux from agricultural soils. The results show that the effects of salinity on WFPS vary in different soil layers. Within shallow soil layers (<20 cm from soil surface) the salt concentration does not affect the average WFPS when initial salt concentrations range from 5 to 20 dS/m. However, in deeper soil layers (>20 cm from soil surface), when the initial salt concentration ranges from 5 to 20 dS/m it could indirectly affect the average WFPS due to changes of osmotic potential and transpiration. When AW is greater than 40%, the average growing season N2O emissions increase to a range of 0.6–1.0 g-N/ha/d at initial salt concentrations (5–20 dS/m) from a range of 0.5–0.7 g-N/ha/d when the salt concentrations is 0 dS/m. The newly developed SALT-DNDC model provides a unique tool to help investigate interactive effects among salt, soil, water, vegetation, and weather conditions on N2O fluxes.
[Display omitted]
•SALT-DNDC simulates effects of root zone salinity on water balance and N2O fluxes.•The salt leaching patterns depend on soil salinity, rainfall depths and frequency.•Due to soil salinity, plant transpiration and soil evaporation balance each other.•N2O emission depends on soil available water, soil moisture and salt concentration. Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N O) fluxes and can contaminate surface and groundwater. In this study, the Denitrification Decomposition (DNDC) model was modified to couple salt and water balance equations (SALT-DNDC) to investigate the effect of salinity on water balance and N O fluxes. The model was examined against four growing seasons (2008-11) of observed data from Lethbridge, Alberta, Canada. Then, the model was used to simulate water filled pore space (WFPS), salt concentration and the N O flux from agricultural soils. The results show that the effects of salinity on WFPS vary in different soil layers. Within shallow soil layers (<20 cm from soil surface) the salt concentration does not affect the average WFPS when initial salt concentrations range from 5 to 20 dS/m. However, in deeper soil layers (>20 cm from soil surface), when the initial salt concentration ranges from 5 to 20 dS/m it could indirectly affect the average WFPS due to changes of osmotic potential and transpiration. When AW is greater than 40%, the average growing season N O emissions increase to a range of 0.6-1.0 g-N/ha/d at initial salt concentrations (5-20 dS/m) from a range of 0.5-0.7 g-N/ha/d when the salt concentrations is 0 dS/m. The newly developed SALT-DNDC model provides a unique tool to help investigate interactive effects among salt, soil, water, vegetation, and weather conditions on N O fluxes. |
ArticleNumber | 111678 |
Author | Thomas, Ben W. Hussain Shah, Syed Hamid Wang, Junye Hao, Xiying |
Author_xml | – sequence: 1 givenname: Syed Hamid surname: Hussain Shah fullname: Hussain Shah, Syed Hamid organization: Faculty of Science and Technology, Athabasca University, 1200, 10011, 109 Street, Edmonton, AB, T5J 3S8, Canada – sequence: 2 givenname: Junye surname: Wang fullname: Wang, Junye email: junyew@athabascau.ca organization: Faculty of Science and Technology, Athabasca University, 1200, 10011, 109 Street, Edmonton, AB, T5J 3S8, Canada – sequence: 3 givenname: Xiying surname: Hao fullname: Hao, Xiying organization: Agriculture and Agri-Food Canada, Lethbridge Research and Development Centre, 5403 1st Avenue South, Lethbridge, AB, T1J 4B1, Canada – sequence: 4 givenname: Ben W. surname: Thomas fullname: Thomas, Ben W. organization: Agriculture and Agri-Food Canada, Agassiz Research and Development Centre, 6947 Highway 7, Agassiz, BC, V0M 1A0, Canada |
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Keywords | SALT-DNDC model Nitrous oxide Soil layers Crop transpiration Osmotic effect Soil salinity |
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Snippet | Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N2O) fluxes and can contaminate surface and groundwater. In this study, the... Soil salinity restricts plant growth, affects soil water balance and nitrous oxide (N O) fluxes and can contaminate surface and groundwater. In this study, the... |
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SubjectTerms | Agriculture Alberta Crop transpiration Nitrous oxide Nitrous Oxide - analysis Osmotic effect SALT-DNDC model Soil Soil layers Soil salinity Water |
Title | Modeling the effect of salt-affected soil on water balance fluxes and nitrous oxide emission using modified DNDC |
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