Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India

Laser-controlled land leveling (LLL) can help improve rice production's spatial and temporal management, leading to optimized water and crop management. This research resulted in sustainable performance indicators to illustrate that LLL is a sustainable technology for rice production. The assessment...

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Detalles Bibliográficos
Autores principales:	Nguyen-Van-Hung, Balingbing, Carlito, Sandro, Joseph, Khandai, Suryakanta, Chea, Hong, Songmethakrit, Thanach, Meas, Pyseth, Hitzler, Gerald, Zwick, Walter, Viriyangkura, Ladda, Bautista, Elmer, Gummert, Martin
Formato:	Journal Article
Lenguaje:	Inglés
Publicado:	Springer 2022
Materias:	biological sciences agriculture
Acceso en línea:	https://hdl.handle.net/10568/164084

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author	Nguyen-Van-Hung Balingbing, Carlito Sandro, Joseph Khandai, Suryakanta Chea, Hong Songmethakrit, Thanach Meas, Pyseth Hitzler, Gerald Zwick, Walter Viriyangkura, Ladda Bautista, Elmer Gummert, Martin
author_browse	Balingbing, Carlito Bautista, Elmer Chea, Hong Gummert, Martin Hitzler, Gerald Khandai, Suryakanta Meas, Pyseth Nguyen-Van-Hung Sandro, Joseph Songmethakrit, Thanach Viriyangkura, Ladda Zwick, Walter
author_facet	Nguyen-Van-Hung Balingbing, Carlito Sandro, Joseph Khandai, Suryakanta Chea, Hong Songmethakrit, Thanach Meas, Pyseth Hitzler, Gerald Zwick, Walter Viriyangkura, Ladda Bautista, Elmer Gummert, Martin
author_sort	Nguyen-Van-Hung
collection	Repository of Agricultural Research Outputs (CGSpace)
description	Laser-controlled land leveling (LLL) can help improve rice production's spatial and temporal management, leading to optimized water and crop management. This research resulted in sustainable performance indicators to illustrate that LLL is a sustainable technology for rice production. The assessment was conducted in Cambodia, the Philippines, Thailand, Vietnam, and India. Benefits of LLL include saving land use, water, and agronomic inputs, increasing yield, and decreasing postharvest losses resulting in saving energy of 3.0–6.9 GJ ha−1and decreasing emissions by 1151–1486 kg CO2-eq ha−1. Additionally, LLL application can obtain a net profit of USD 52–84 ha−1per rice production season in the countries studied. The result demonstrated that LLL is a sustainable technology as well as strongly supports sustainable rice production. The study would lead to better adoption of this technology through its evidence-based promotion.
format	Journal Article
id	CGSpace164084
institution	CGIAR Consortium
language	Inglés
publishDate	2022
publishDateRange	2022
publishDateSort	2022
publisher	Springer
publisherStr	Springer
record_format	dspace
spelling	CGSpace1640842025-02-19T14:26:29Z Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India Nguyen-Van-Hung Balingbing, Carlito Sandro, Joseph Khandai, Suryakanta Chea, Hong Songmethakrit, Thanach Meas, Pyseth Hitzler, Gerald Zwick, Walter Viriyangkura, Ladda Bautista, Elmer Gummert, Martin biological sciences agriculture Laser-controlled land leveling (LLL) can help improve rice production's spatial and temporal management, leading to optimized water and crop management. This research resulted in sustainable performance indicators to illustrate that LLL is a sustainable technology for rice production. The assessment was conducted in Cambodia, the Philippines, Thailand, Vietnam, and India. Benefits of LLL include saving land use, water, and agronomic inputs, increasing yield, and decreasing postharvest losses resulting in saving energy of 3.0–6.9 GJ ha−1and decreasing emissions by 1151–1486 kg CO2-eq ha−1. Additionally, LLL application can obtain a net profit of USD 52–84 ha−1per rice production season in the countries studied. The result demonstrated that LLL is a sustainable technology as well as strongly supports sustainable rice production. The study would lead to better adoption of this technology through its evidence-based promotion. 2022-10 2024-12-19T12:53:27Z 2024-12-19T12:53:27Z Journal Article https://hdl.handle.net/10568/164084 en Open Access Springer Nguyen-Van-Hung, ; Nguyen-Van-Hung; Balingbing, Carlito; Sandro, Joseph; Khandai, Suryakanta; Chea, Hong; Songmethakrit, Thanach; Meas, Pyseth; Hitzler, Gerald; Zwick, Walter; Viriyangkura, Ladda; Bautista, Elmer and Gummert, Martin. 2022. Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India. Precision Agric, Volume 23 no. 5 p. 1633-1652
spellingShingle	biological sciences agriculture Nguyen-Van-Hung Balingbing, Carlito Sandro, Joseph Khandai, Suryakanta Chea, Hong Songmethakrit, Thanach Meas, Pyseth Hitzler, Gerald Zwick, Walter Viriyangkura, Ladda Bautista, Elmer Gummert, Martin Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title	Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title_full	Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title_fullStr	Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title_full_unstemmed	Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title_short	Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India
title_sort	precision land leveling for sustainable rice production case studies in cambodia thailand philippines vietnam and india
topic	biological sciences agriculture
url	https://hdl.handle.net/10568/164084
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Precision land leveling for sustainable rice production: case studies in Cambodia, Thailand, Philippines, Vietnam, and India

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