Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam

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Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam. / Pandey, Arjun; Mai, Van Trinh; Duong, Quynh Vu; Bui, Thi Phuong Loan; Mai, Thi Lan Anh; Jensen, Lars Stoumann; de Neergaard, Andreas.

In: Agriculture, Ecosystems and Environment, Vol. 196, 2014, p. 137-146.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Pandey, A, Mai, VT, Duong, QV, Bui, TPL, Mai, TLA, Jensen, LS & de Neergaard, A 2014, 'Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam', Agriculture, Ecosystems and Environment, vol. 196, pp. 137-146. https://doi.org/10.1016/j.agee.2014.06.010

APA

Pandey, A., Mai, V. T., Duong, Q. V., Bui, T. P. L., Mai, T. L. A., Jensen, L. S., & de Neergaard, A. (2014). Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam. Agriculture, Ecosystems and Environment, 196, 137-146. https://doi.org/10.1016/j.agee.2014.06.010

Vancouver

Pandey A, Mai VT, Duong QV, Bui TPL, Mai TLA, Jensen LS et al. Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam. Agriculture, Ecosystems and Environment. 2014;196:137-146. https://doi.org/10.1016/j.agee.2014.06.010

Author

Pandey, Arjun ; Mai, Van Trinh ; Duong, Quynh Vu ; Bui, Thi Phuong Loan ; Mai, Thi Lan Anh ; Jensen, Lars Stoumann ; de Neergaard, Andreas. / Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam. In: Agriculture, Ecosystems and Environment. 2014 ; Vol. 196. pp. 137-146.

Bibtex

@article{242e6e1102c14a9bbaeed9db05cd38c8,
title = "Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam",
abstract = "The reduction of CH4 and N2O emissions from rice paddies is of utmost importance in minimizing the impact of rice production on global warming. A field experiment was therefore conducted in farmers' field in Hanoi, Vietnam to examine whether the use of straw compost or straw biochar, in combination with the safe alternate wetting and drying (AWD) has the potential to suppress both CH4 and N2O emissions from rice paddies while maintaining the rice yield. The study compared the proposed strategies with local farmers' practice of permanent flooding (PF) and farmyard manure (FYM) incorporation, respectively. A control treatment without organic matter incorporation in both AWD and PF water regimes was also included in the study; all treatments received equal amounts of mineral fertilizer. Gas emissions were monitored using the closed chamber method at seven-day intervals during the first 50 days and at 15-day intervals thereafter. Addition of FYM, straw compost and biochar increased CH4 emissions by 230%, 150% and 38%, respectively, when compared with the control treatments in both the AWD and PF water regimes. Within AWD, FYM increased N2O emissions by 30%, straw compost and biochar displayed similar amount of N2O emissions as the control treatment. Within PF, N2O emissions under FYM and straw compost were 40% and 35% higher than the control treatment, respectively, and biochar once again displayed similar amount of N2O emissions as the control treatment. Yield difference was not significant (p>0.05) between any of the treatments. These results indicated that the straw compost incorporation might not reduce the global warming potential (GWP) and yield-scaled GWP of rice production, whereas biochar in combination with AWD has the potential to maintain the GWP and yield-scaled GWP of rice production at lower level than the farmers' practice.",
keywords = "Methane, Nitrous oxide, Rice paddies, Straw biochar, Straw compost, Water regimes",
author = "Arjun Pandey and Mai, {Van Trinh} and Duong, {Quynh Vu} and Bui, {Thi Phuong Loan} and Mai, {Thi Lan Anh} and Jensen, {Lars Stoumann} and {de Neergaard}, Andreas",
year = "2014",
doi = "10.1016/j.agee.2014.06.010",
language = "English",
volume = "196",
pages = "137--146",
journal = "Agro-Ecosystems",
issn = "0167-8809",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam

AU - Pandey, Arjun

AU - Mai, Van Trinh

AU - Duong, Quynh Vu

AU - Bui, Thi Phuong Loan

AU - Mai, Thi Lan Anh

AU - Jensen, Lars Stoumann

AU - de Neergaard, Andreas

PY - 2014

Y1 - 2014

N2 - The reduction of CH4 and N2O emissions from rice paddies is of utmost importance in minimizing the impact of rice production on global warming. A field experiment was therefore conducted in farmers' field in Hanoi, Vietnam to examine whether the use of straw compost or straw biochar, in combination with the safe alternate wetting and drying (AWD) has the potential to suppress both CH4 and N2O emissions from rice paddies while maintaining the rice yield. The study compared the proposed strategies with local farmers' practice of permanent flooding (PF) and farmyard manure (FYM) incorporation, respectively. A control treatment without organic matter incorporation in both AWD and PF water regimes was also included in the study; all treatments received equal amounts of mineral fertilizer. Gas emissions were monitored using the closed chamber method at seven-day intervals during the first 50 days and at 15-day intervals thereafter. Addition of FYM, straw compost and biochar increased CH4 emissions by 230%, 150% and 38%, respectively, when compared with the control treatments in both the AWD and PF water regimes. Within AWD, FYM increased N2O emissions by 30%, straw compost and biochar displayed similar amount of N2O emissions as the control treatment. Within PF, N2O emissions under FYM and straw compost were 40% and 35% higher than the control treatment, respectively, and biochar once again displayed similar amount of N2O emissions as the control treatment. Yield difference was not significant (p>0.05) between any of the treatments. These results indicated that the straw compost incorporation might not reduce the global warming potential (GWP) and yield-scaled GWP of rice production, whereas biochar in combination with AWD has the potential to maintain the GWP and yield-scaled GWP of rice production at lower level than the farmers' practice.

AB - The reduction of CH4 and N2O emissions from rice paddies is of utmost importance in minimizing the impact of rice production on global warming. A field experiment was therefore conducted in farmers' field in Hanoi, Vietnam to examine whether the use of straw compost or straw biochar, in combination with the safe alternate wetting and drying (AWD) has the potential to suppress both CH4 and N2O emissions from rice paddies while maintaining the rice yield. The study compared the proposed strategies with local farmers' practice of permanent flooding (PF) and farmyard manure (FYM) incorporation, respectively. A control treatment without organic matter incorporation in both AWD and PF water regimes was also included in the study; all treatments received equal amounts of mineral fertilizer. Gas emissions were monitored using the closed chamber method at seven-day intervals during the first 50 days and at 15-day intervals thereafter. Addition of FYM, straw compost and biochar increased CH4 emissions by 230%, 150% and 38%, respectively, when compared with the control treatments in both the AWD and PF water regimes. Within AWD, FYM increased N2O emissions by 30%, straw compost and biochar displayed similar amount of N2O emissions as the control treatment. Within PF, N2O emissions under FYM and straw compost were 40% and 35% higher than the control treatment, respectively, and biochar once again displayed similar amount of N2O emissions as the control treatment. Yield difference was not significant (p>0.05) between any of the treatments. These results indicated that the straw compost incorporation might not reduce the global warming potential (GWP) and yield-scaled GWP of rice production, whereas biochar in combination with AWD has the potential to maintain the GWP and yield-scaled GWP of rice production at lower level than the farmers' practice.

KW - Methane

KW - Nitrous oxide

KW - Rice paddies

KW - Straw biochar

KW - Straw compost

KW - Water regimes

U2 - 10.1016/j.agee.2014.06.010

DO - 10.1016/j.agee.2014.06.010

M3 - Journal article

AN - SCOPUS:84904246796

VL - 196

SP - 137

EP - 146

JO - Agro-Ecosystems

JF - Agro-Ecosystems

SN - 0167-8809

ER -

ID: 130099277