Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh

Adoption of the right rice variety and water-saving irrigation method could reduce greenhouse gas (GHG) emissions in lowland rice cultivation. A study was conducted at the research farm of Bangladesh Agricultural University, Mymensingh, Bangladesh, in 2019 during the Boro (dry) season to determine t...
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Autor*in:	Muhammad Ashraful Habib [verfasserIn] S. M. Mofijul Islam [verfasserIn] Md. Ashraful Haque [verfasserIn] Lutful Hassan [verfasserIn] Md. Zulfiker Ali [verfasserIn] Swati Nayak [verfasserIn] Manzoor Hussain Dar [verfasserIn] Yam Kanta Gaihre [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2023

Schlagwörter:	methane rice cultivars alternate wetting and drying emission factor rice yield

Übergeordnetes Werk:	In: Soil Systems - MDPI AG, 2019, 7(2023), 2, p 41
Übergeordnetes Werk:	volume:7 ; year:2023 ; number:2, p 41

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/soilsystems7020041

Katalog-ID:	DOAJ094059721

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callnumber-first	G - Geography, Anthropology, Recreation
author	Muhammad Ashraful Habib
spellingShingle	Muhammad Ashraful Habib misc GB3-5030 misc QD1-999 misc methane misc rice cultivars misc alternate wetting and drying misc emission factor misc rice yield misc Physical geography misc Chemistry Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh
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topic_title	GB3-5030 QD1-999 Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh methane rice cultivars alternate wetting and drying emission factor rice yield
topic	misc GB3-5030 misc QD1-999 misc methane misc rice cultivars misc alternate wetting and drying misc emission factor misc rice yield misc Physical geography misc Chemistry
topic_unstemmed	misc GB3-5030 misc QD1-999 misc methane misc rice cultivars misc alternate wetting and drying misc emission factor misc rice yield misc Physical geography misc Chemistry
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title	Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh
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title_full	Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh
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author_browse	Muhammad Ashraful Habib S. M. Mofijul Islam Md. Ashraful Haque Lutful Hassan Md. Zulfiker Ali Swati Nayak Manzoor Hussain Dar Yam Kanta Gaihre
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title_sort	effects of irrigation regimes and rice varieties on methane emissions and yield of dry season rice in bangladesh
callnumber	GB3-5030
title_auth	Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh
abstract	Adoption of the right rice variety and water-saving irrigation method could reduce greenhouse gas (GHG) emissions in lowland rice cultivation. A study was conducted at the research farm of Bangladesh Agricultural University, Mymensingh, Bangladesh, in 2019 during the Boro (dry) season to determine the impacts of different rice varieties (BRRI dhan29, BRRI dhan47, BRRI dhan69, Binadhan-8, Binadhan-10, and Binadhan-17) on methane (CH<sub<4</sub<) emissions under two irrigation methods, i.e., alternate wetting and drying (AWD) and continuous flooding (CF). The treatments were laid out in a split-plot design, considering water regime as the main plots and rice variety as the sub-plots. The emission rates of CH<sub<4</sub< were determined by collecting air samples using the closed chamber technique and measuring the concentrations using a gas chromatograph. CH<sub<4</sub< emission rates varied with the growth and development of the rice varieties. The lowest cumulative CH<sub<4</sub< emission rate was observed in Binadhan-17, particularly under AWD irrigation. Across the rice varieties, AWD irrigation significantly reduced the cumulative CH<sub<4</sub< emissions by about 35% compared with CF. No significant variation in rice yield was observed between AWD (5.38 t ha<sup<−1</sup<) and CF (5.16 t ha<sup<−1</sup<). This study suggests that the cultivation of Binadhan-17 under AWD irrigation could be effective at reducing the carbon footprint of lowland rice fields.
abstractGer	Adoption of the right rice variety and water-saving irrigation method could reduce greenhouse gas (GHG) emissions in lowland rice cultivation. A study was conducted at the research farm of Bangladesh Agricultural University, Mymensingh, Bangladesh, in 2019 during the Boro (dry) season to determine the impacts of different rice varieties (BRRI dhan29, BRRI dhan47, BRRI dhan69, Binadhan-8, Binadhan-10, and Binadhan-17) on methane (CH<sub<4</sub<) emissions under two irrigation methods, i.e., alternate wetting and drying (AWD) and continuous flooding (CF). The treatments were laid out in a split-plot design, considering water regime as the main plots and rice variety as the sub-plots. The emission rates of CH<sub<4</sub< were determined by collecting air samples using the closed chamber technique and measuring the concentrations using a gas chromatograph. CH<sub<4</sub< emission rates varied with the growth and development of the rice varieties. The lowest cumulative CH<sub<4</sub< emission rate was observed in Binadhan-17, particularly under AWD irrigation. Across the rice varieties, AWD irrigation significantly reduced the cumulative CH<sub<4</sub< emissions by about 35% compared with CF. No significant variation in rice yield was observed between AWD (5.38 t ha<sup<−1</sup<) and CF (5.16 t ha<sup<−1</sup<). This study suggests that the cultivation of Binadhan-17 under AWD irrigation could be effective at reducing the carbon footprint of lowland rice fields.
abstract_unstemmed	Adoption of the right rice variety and water-saving irrigation method could reduce greenhouse gas (GHG) emissions in lowland rice cultivation. A study was conducted at the research farm of Bangladesh Agricultural University, Mymensingh, Bangladesh, in 2019 during the Boro (dry) season to determine the impacts of different rice varieties (BRRI dhan29, BRRI dhan47, BRRI dhan69, Binadhan-8, Binadhan-10, and Binadhan-17) on methane (CH<sub<4</sub<) emissions under two irrigation methods, i.e., alternate wetting and drying (AWD) and continuous flooding (CF). The treatments were laid out in a split-plot design, considering water regime as the main plots and rice variety as the sub-plots. The emission rates of CH<sub<4</sub< were determined by collecting air samples using the closed chamber technique and measuring the concentrations using a gas chromatograph. CH<sub<4</sub< emission rates varied with the growth and development of the rice varieties. The lowest cumulative CH<sub<4</sub< emission rate was observed in Binadhan-17, particularly under AWD irrigation. Across the rice varieties, AWD irrigation significantly reduced the cumulative CH<sub<4</sub< emissions by about 35% compared with CF. No significant variation in rice yield was observed between AWD (5.38 t ha<sup<−1</sup<) and CF (5.16 t ha<sup<−1</sup<). This study suggests that the cultivation of Binadhan-17 under AWD irrigation could be effective at reducing the carbon footprint of lowland rice fields.
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container_issue	2, p 41
title_short	Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh
url	https://doi.org/10.3390/soilsystems7020041 https://doaj.org/article/97417d5461dc4bb0aa6734efd48ae43d https://www.mdpi.com/2571-8789/7/2/41 https://doaj.org/toc/2571-8789
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Effects of Irrigation Regimes and Rice Varieties on Methane Emissions and Yield of Dry Season Rice in Bangladesh

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