Reducing yield gaps through integrated crop establishment in irrigated rice
Crop establishment techniques need to be improved, integrated and adapted to local environments in order to approach yield potential of irrigated rice. Although several options are available (distinct types of direct-seeding, transplanting with distinct nursery management, different plant density), no extensive and comparative analysis of these techniques has been conducted to provide strategies to reduce yield gaps. Broadcasting and row seeding are attractive for their ease of operation, with low labor cost. In direct seeding, however, land leveling and water control are critical to ensure success of crop establishment, weeds are strong competitors and seeding rate is high. To overcome these issues, transplanting rice seedlings from a nursery to the main field has been the common practice in irrigated rice production areas where flooded water of 2-3 cm depth can be maintained from transplanting onwards. In Asia, this practice concerns about 90% of cultivated rice area in countries like Japan, Indonesia, South Korea and Myanmar (Pandey and Velasco, 2002). In farmers' fields, seedlings are commonly grown in nurseries at about 3000 to 4000 seeds m-2 and transplanted when 20 to 30 days old. Transplanting at this age gives vigorous seedlings that are more resistant to pests like snails, easier to handle by transplanters, and have reduced tiller production, which lowers physiological costs of tiller abortion (Schnier et al, 1990). The practice of transplanting relatively old seedlings, however, delays onset of tiller emergence which has been correlated with reductions in grain yield of 1 t ha-1 (Pasuquin et al, 2008). This suggests that improvements in nursery management can reduce yield gaps so long as improvements can be adapted to farmers' conditions. This study investigated interactive effects of nursery management techniques on grain yield and underlying processes controlling yield, and to formalize integrated strategies, including direct-seeding, for reducing yield gaps.
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dig-cirad-fr-5585892023-07-12T06:32:19Z http://agritrop.cirad.fr/558589/ http://agritrop.cirad.fr/558589/ Reducing yield gaps through integrated crop establishment in irrigated rice. Lafarge Tanguy, Susanti Zuziana, Faronilo J., Burac M.A., Pasuquin Estela Magbujos, Cruz R., Tuong To Phuc. 2010. In : Proceedings of Agro 2010 : the XIth ESA Congress, August 29th - September 3rd, 2010, Montpellier, France. Wery Jacques (ed.), Shili-Touzi I. (ed.), Perrin A. (ed.). Montpellier : Agropolis international, 351-352. ISBN 978-2-909613-01-7 ESA Congress. 11, Montpellier, France, 29 Août 2010/3 Septembre 2010. Researchers Reducing yield gaps through integrated crop establishment in irrigated rice Lafarge, Tanguy Susanti, Zuziana Faronilo, J. Burac, M.A. Pasuquin, Estela Magbujos Cruz, R. Tuong, To Phuc eng 2010 Agropolis international Proceedings of Agro 2010 : the XIth ESA Congress, August 29th - September 3rd, 2010, Montpellier, France F08 - Systèmes et modes de culture F01 - Culture des plantes Crop establishment techniques need to be improved, integrated and adapted to local environments in order to approach yield potential of irrigated rice. Although several options are available (distinct types of direct-seeding, transplanting with distinct nursery management, different plant density), no extensive and comparative analysis of these techniques has been conducted to provide strategies to reduce yield gaps. Broadcasting and row seeding are attractive for their ease of operation, with low labor cost. In direct seeding, however, land leveling and water control are critical to ensure success of crop establishment, weeds are strong competitors and seeding rate is high. To overcome these issues, transplanting rice seedlings from a nursery to the main field has been the common practice in irrigated rice production areas where flooded water of 2-3 cm depth can be maintained from transplanting onwards. In Asia, this practice concerns about 90% of cultivated rice area in countries like Japan, Indonesia, South Korea and Myanmar (Pandey and Velasco, 2002). In farmers' fields, seedlings are commonly grown in nurseries at about 3000 to 4000 seeds m-2 and transplanted when 20 to 30 days old. Transplanting at this age gives vigorous seedlings that are more resistant to pests like snails, easier to handle by transplanters, and have reduced tiller production, which lowers physiological costs of tiller abortion (Schnier et al, 1990). The practice of transplanting relatively old seedlings, however, delays onset of tiller emergence which has been correlated with reductions in grain yield of 1 t ha-1 (Pasuquin et al, 2008). This suggests that improvements in nursery management can reduce yield gaps so long as improvements can be adapted to farmers' conditions. This study investigated interactive effects of nursery management techniques on grain yield and underlying processes controlling yield, and to formalize integrated strategies, including direct-seeding, for reducing yield gaps. conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/558589/1/ID558589.pdf text Cirad license info:eu-repo/semantics/restrictedAccess https://agritrop.cirad.fr/mention_legale.html http://catalogue-bibliotheques.cirad.fr/cgi-bin/koha/opac-detail.pl?biblionumber=217847 |
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F08 - Systèmes et modes de culture F01 - Culture des plantes F08 - Systèmes et modes de culture F01 - Culture des plantes Lafarge, Tanguy Susanti, Zuziana Faronilo, J. Burac, M.A. Pasuquin, Estela Magbujos Cruz, R. Tuong, To Phuc Reducing yield gaps through integrated crop establishment in irrigated rice |
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Crop establishment techniques need to be improved, integrated and adapted to local environments in order to approach yield potential of irrigated rice. Although several options are available (distinct types of direct-seeding, transplanting with distinct nursery management, different plant density), no extensive and comparative analysis of these techniques has been conducted to provide strategies to reduce yield gaps. Broadcasting and row seeding are attractive for their ease of operation, with low labor cost. In direct seeding, however, land leveling and water control are critical to ensure success of crop establishment, weeds are strong competitors and seeding rate is high. To overcome these issues, transplanting rice seedlings from a nursery to the main field has been the common practice in irrigated rice production areas where flooded water of 2-3 cm depth can be maintained from transplanting onwards. In Asia, this practice concerns about 90% of cultivated rice area in countries like Japan, Indonesia, South Korea and Myanmar (Pandey and Velasco, 2002). In farmers' fields, seedlings are commonly grown in nurseries at about 3000 to 4000 seeds m-2 and transplanted when 20 to 30 days old. Transplanting at this age gives vigorous seedlings that are more resistant to pests like snails, easier to handle by transplanters, and have reduced tiller production, which lowers physiological costs of tiller abortion (Schnier et al, 1990). The practice of transplanting relatively old seedlings, however, delays onset of tiller emergence which has been correlated with reductions in grain yield of 1 t ha-1 (Pasuquin et al, 2008). This suggests that improvements in nursery management can reduce yield gaps so long as improvements can be adapted to farmers' conditions. This study investigated interactive effects of nursery management techniques on grain yield and underlying processes controlling yield, and to formalize integrated strategies, including direct-seeding, for reducing yield gaps. |
| format |
conference_item |
| topic_facet |
F08 - Systèmes et modes de culture F01 - Culture des plantes |
| author |
Lafarge, Tanguy Susanti, Zuziana Faronilo, J. Burac, M.A. Pasuquin, Estela Magbujos Cruz, R. Tuong, To Phuc |
| author_facet |
Lafarge, Tanguy Susanti, Zuziana Faronilo, J. Burac, M.A. Pasuquin, Estela Magbujos Cruz, R. Tuong, To Phuc |
| author_sort |
Lafarge, Tanguy |
| title |
Reducing yield gaps through integrated crop establishment in irrigated rice |
| title_short |
Reducing yield gaps through integrated crop establishment in irrigated rice |
| title_full |
Reducing yield gaps through integrated crop establishment in irrigated rice |
| title_fullStr |
Reducing yield gaps through integrated crop establishment in irrigated rice |
| title_full_unstemmed |
Reducing yield gaps through integrated crop establishment in irrigated rice |
| title_sort |
reducing yield gaps through integrated crop establishment in irrigated rice |
| publisher |
Agropolis international |
| url |
http://agritrop.cirad.fr/558589/ http://agritrop.cirad.fr/558589/1/ID558589.pdf |
| work_keys_str_mv |
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1771642024433287168 |