Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems

Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems

These are the fourth proceedings resulting from international conferences related to wheat production in warmer environments throughout the world. The meetings reported on in these proceedings were sponsored by the United Nations Development Programme and organized by the Agricultural Research Corporation of Sudan, the Wheat Research Centre of the Bangladesh Agricultural Research Institute, and the International Maize and Wheat Improvement Center. The early emphasis in this project was on the development of wheats more adapted to warmer areas, particularly nontraditional wheat producing areas in the tropics and subtropics. Later, more attention was given to improving the management technology for wheat under these hotter environments. In the published proceedings of the conferences in Mexico (1984), Thailand (1987), and Brazil (1990), one can see the progressive integration of disciplines, particularly breeders and physiologists/agronomists, and agronomists/soil scientists with pathologists and entomologists. These multi-disciplinary approaches are highly desirable to tackle the more complex problems emerging in agricultural production systems today. The present proceedings continue this trend and result from two international conferences organized to specifically address the problems of two heat-stress environments that had previously received less attention. The first, at Wad Medani, Sudan, was held 1­4 February, 1993. Wad Medani is one of the hottest wheat-producing areas in the world and the conference was chiefly focused on the problems of heat stress under very dry, irrigated environments. It is considered that the discussions of selection methodology, crop management, and plant protection will have relevance to similar environments elsewhere. The second conference was held at Dinajpur, Bangladesh, 12-16 February, 1993. Bangladesh has increased wheat production enormously since the mid-1970s and forms part of the huge rice-wheat rotation area that is estimated to cover some 12 million hectares in South and Southeast Asia. The conference discussed many of the problems unique to this rotation such as the tailoring of rice and wheat varieties to optimize total production, soil management for wheat following puddled rice, plant nutrition, particularly with reference to sustainability, and soilborne and foliar diseases. Both meetings highlighted the continuing efforts of wheat scientists to increase and stabilize wheat production in hot environments, and particularly indicated that wheat breeders are striving to reduce their dependence on purely empirical methodologies for selection for heat tolerance. Both meetings, too, indicated that improved crop, disease and pest management can radically reduce the effects of elevated temperatures on wheat yield. It is hoped these proceedings will be valuable reference material for wheat scientists in warmer, more marginal wheat production areas throughout the world.

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Main Authors: Saunders, D.A., Hettel, G.P.
Format: Conference Proceedings biblioteca
Language:English
Published: ARC 1994
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, WHEAT, PLANT BREEDING, HEAT, HEAT TOLERANCE, RICE, DRY FARMING, IRRIGATION, CROP PRODUCTION,
Online Access:http://hdl.handle.net/10883/1196
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spelling dig-cimmyt-10883-11962021-03-31T14:27:12Z Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems Saunders, D.A. Hettel, G.P. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY WHEAT PLANT BREEDING HEAT HEAT TOLERANCE RICE DRY FARMING IRRIGATION CROP PRODUCTION These are the fourth proceedings resulting from international conferences related to wheat production in warmer environments throughout the world. The meetings reported on in these proceedings were sponsored by the United Nations Development Programme and organized by the Agricultural Research Corporation of Sudan, the Wheat Research Centre of the Bangladesh Agricultural Research Institute, and the International Maize and Wheat Improvement Center. The early emphasis in this project was on the development of wheats more adapted to warmer areas, particularly nontraditional wheat producing areas in the tropics and subtropics. Later, more attention was given to improving the management technology for wheat under these hotter environments. In the published proceedings of the conferences in Mexico (1984), Thailand (1987), and Brazil (1990), one can see the progressive integration of disciplines, particularly breeders and physiologists/agronomists, and agronomists/soil scientists with pathologists and entomologists. These multi-disciplinary approaches are highly desirable to tackle the more complex problems emerging in agricultural production systems today. The present proceedings continue this trend and result from two international conferences organized to specifically address the problems of two heat-stress environments that had previously received less attention. The first, at Wad Medani, Sudan, was held 1­4 February, 1993. Wad Medani is one of the hottest wheat-producing areas in the world and the conference was chiefly focused on the problems of heat stress under very dry, irrigated environments. It is considered that the discussions of selection methodology, crop management, and plant protection will have relevance to similar environments elsewhere. The second conference was held at Dinajpur, Bangladesh, 12-16 February, 1993. Bangladesh has increased wheat production enormously since the mid-1970s and forms part of the huge rice-wheat rotation area that is estimated to cover some 12 million hectares in South and Southeast Asia. The conference discussed many of the problems unique to this rotation such as the tailoring of rice and wheat varieties to optimize total production, soil management for wheat following puddled rice, plant nutrition, particularly with reference to sustainability, and soilborne and foliar diseases. Both meetings highlighted the continuing efforts of wheat scientists to increase and stabilize wheat production in hot environments, and particularly indicated that wheat breeders are striving to reduce their dependence on purely empirical methodologies for selection for heat tolerance. Both meetings, too, indicated that improved crop, disease and pest management can radically reduce the effects of elevated temperatures on wheat yield. It is hoped these proceedings will be valuable reference material for wheat scientists in warmer, more marginal wheat production areas throughout the world. 402 pages 2012-01-06T05:16:38Z 2012-01-06T05:16:38Z 1994 Conference Proceedings 968-6127-87-9 http://hdl.handle.net/10883/1196 English CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose. Open Access PDF Mexico ARC BARI CIMMYT UNDP
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
WHEAT
PLANT BREEDING
HEAT
HEAT TOLERANCE
RICE
DRY FARMING
IRRIGATION
CROP PRODUCTION
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
WHEAT
PLANT BREEDING
HEAT
HEAT TOLERANCE
RICE
DRY FARMING
IRRIGATION
CROP PRODUCTION
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
WHEAT
PLANT BREEDING
HEAT
HEAT TOLERANCE
RICE
DRY FARMING
IRRIGATION
CROP PRODUCTION
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
WHEAT
PLANT BREEDING
HEAT
HEAT TOLERANCE
RICE
DRY FARMING
IRRIGATION
CROP PRODUCTION
Saunders, D.A.
Hettel, G.P.
Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
description These are the fourth proceedings resulting from international conferences related to wheat production in warmer environments throughout the world. The meetings reported on in these proceedings were sponsored by the United Nations Development Programme and organized by the Agricultural Research Corporation of Sudan, the Wheat Research Centre of the Bangladesh Agricultural Research Institute, and the International Maize and Wheat Improvement Center. The early emphasis in this project was on the development of wheats more adapted to warmer areas, particularly nontraditional wheat producing areas in the tropics and subtropics. Later, more attention was given to improving the management technology for wheat under these hotter environments. In the published proceedings of the conferences in Mexico (1984), Thailand (1987), and Brazil (1990), one can see the progressive integration of disciplines, particularly breeders and physiologists/agronomists, and agronomists/soil scientists with pathologists and entomologists. These multi-disciplinary approaches are highly desirable to tackle the more complex problems emerging in agricultural production systems today. The present proceedings continue this trend and result from two international conferences organized to specifically address the problems of two heat-stress environments that had previously received less attention. The first, at Wad Medani, Sudan, was held 1­4 February, 1993. Wad Medani is one of the hottest wheat-producing areas in the world and the conference was chiefly focused on the problems of heat stress under very dry, irrigated environments. It is considered that the discussions of selection methodology, crop management, and plant protection will have relevance to similar environments elsewhere. The second conference was held at Dinajpur, Bangladesh, 12-16 February, 1993. Bangladesh has increased wheat production enormously since the mid-1970s and forms part of the huge rice-wheat rotation area that is estimated to cover some 12 million hectares in South and Southeast Asia. The conference discussed many of the problems unique to this rotation such as the tailoring of rice and wheat varieties to optimize total production, soil management for wheat following puddled rice, plant nutrition, particularly with reference to sustainability, and soilborne and foliar diseases. Both meetings highlighted the continuing efforts of wheat scientists to increase and stabilize wheat production in hot environments, and particularly indicated that wheat breeders are striving to reduce their dependence on purely empirical methodologies for selection for heat tolerance. Both meetings, too, indicated that improved crop, disease and pest management can radically reduce the effects of elevated temperatures on wheat yield. It is hoped these proceedings will be valuable reference material for wheat scientists in warmer, more marginal wheat production areas throughout the world.
format Conference Proceedings
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
WHEAT
PLANT BREEDING
HEAT
HEAT TOLERANCE
RICE
DRY FARMING
IRRIGATION
CROP PRODUCTION
author Saunders, D.A.
Hettel, G.P.
author_facet Saunders, D.A.
Hettel, G.P.
author_sort Saunders, D.A.
title Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
title_short Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
title_full Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
title_fullStr Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
title_full_unstemmed Wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
title_sort wheat in heat-stressed environments: irrigated, dry areas and rice-wheat farming systems
publisher ARC
publishDate 1994
url http://hdl.handle.net/10883/1196
work_keys_str_mv AT saundersda wheatinheatstressedenvironmentsirrigateddryareasandricewheatfarmingsystems
AT hettelgp wheatinheatstressedenvironmentsirrigateddryareasandricewheatfarmingsystems
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