Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions

Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions

Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation with less water than the conventional practice of maintaining the field continuously flooded. This technology can reduce water input and GHG without yield penalty. AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the Philippines and dissemination has started in all countries above. Several rice-producing countries mention AWD in their contributions to the Paris Agreement..

Saved in:
Bibliographic Details
Main Author: CGIAR Research Program on Rice
Format: Case Study biblioteca
Language:English
Published: 2018-12-31
Subjects:rice, technology, water, cultivation, management, crop management, guidelines, drying, methane, adoption, irrigated rice, asia, water saving, countries, case studies, agrifood systems, rural development,
Online Access:https://hdl.handle.net/10568/121680
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-121680
record_format koha
spelling dig-cgspace-10568-1216802023-03-14T13:39:31Z Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions CGIAR Research Program on Rice rice technology water cultivation management crop management guidelines drying methane adoption irrigated rice asia water saving countries case studies agrifood systems rural development Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation with less water than the conventional practice of maintaining the field continuously flooded. This technology can reduce water input and GHG without yield penalty. AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the Philippines and dissemination has started in all countries above. Several rice-producing countries mention AWD in their contributions to the Paris Agreement.. 2018-12-31 2022-09-12T12:02:23Z 2022-09-12T12:02:23Z Case Study CGIAR Research Program on Rice. 2018. Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions. Reported in Rice Annual Report 2018. Outcome Impact Case Report. https://hdl.handle.net/10568/121680 en CRP Outcome Impact Case Report Other Open Access application/pdf
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic rice
technology
water
cultivation
management
crop management
guidelines
drying
methane
adoption
irrigated rice
asia
water saving
countries
case studies
agrifood systems
rural development
rice
technology
water
cultivation
management
crop management
guidelines
drying
methane
adoption
irrigated rice
asia
water saving
countries
case studies
agrifood systems
rural development
spellingShingle rice
technology
water
cultivation
management
crop management
guidelines
drying
methane
adoption
irrigated rice
asia
water saving
countries
case studies
agrifood systems
rural development
rice
technology
water
cultivation
management
crop management
guidelines
drying
methane
adoption
irrigated rice
asia
water saving
countries
case studies
agrifood systems
rural development
CGIAR Research Program on Rice
Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
description Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation with less water than the conventional practice of maintaining the field continuously flooded. This technology can reduce water input and GHG without yield penalty. AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the Philippines and dissemination has started in all countries above. Several rice-producing countries mention AWD in their contributions to the Paris Agreement..
format Case Study
topic_facet rice
technology
water
cultivation
management
crop management
guidelines
drying
methane
adoption
irrigated rice
asia
water saving
countries
case studies
agrifood systems
rural development
author CGIAR Research Program on Rice
author_facet CGIAR Research Program on Rice
author_sort CGIAR Research Program on Rice
title Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
title_short Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
title_full Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
title_fullStr Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
title_full_unstemmed Adoption of Alternate wetting and drying in Asia to save water and reduce methane emissions
title_sort adoption of alternate wetting and drying in asia to save water and reduce methane emissions
publishDate 2018-12-31
url https://hdl.handle.net/10568/121680
work_keys_str_mv AT cgiarresearchprogramonrice adoptionofalternatewettinganddryinginasiatosavewaterandreducemethaneemissions
_version_ 1779062331983003648

Similar Items