Palawija newsletter. Vol.30, No.2, August 2013
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RT Generic T1 Palawija newsletter. Vol.30, No.2, August 2013 A1 UN.ESCAP, Centre for Alleviation of Poverty through Sustainable Agriculture (CAPSA), YR 2013 LK https://hdl.handle.net/20.500.12870/4255 PB United Nations AB <p>The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.</p> OL English(30) TY - GEN T1 - Palawija newsletter. Vol.30, No.2, August 2013 AU - UN.ESCAPCentre for Alleviation of Poverty through Sustainable Agriculture (CAPSA) Y1 - 2013 UR - https://hdl.handle.net/20.500.12870/4255 PB - United Nations AB -The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.
@misc{20.500.12870_4255 author = {UN.ESCAPCentre for Alleviation of Poverty through Sustainable Agriculture (CAPSA)}, title = {Palawija newsletter. Vol.30, No.2, August 2013}, year = {2013}, abstract = {The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.
}, url = {https://hdl.handle.net/20.500.12870/4255} } @misc{20.500.12870_4255 author = {UN.ESCAPCentre for Alleviation of Poverty through Sustainable Agriculture (CAPSA)}, title = {Palawija newsletter. Vol.30, No.2, August 2013}, year = {2013}, abstract = {The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.
}, url = {https://hdl.handle.net/20.500.12870/4255} } TY - GEN T1 - Palawija newsletter. Vol.30, No.2, August 2013 AU - UN.ESCAPCentre for Alleviation of Poverty through Sustainable Agriculture (CAPSA) UR - https://hdl.handle.net/20.500.12870/4255 PB - United Nations AB -The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.
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Vol. 30, No. 2, August 2013
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The research article by Takashi Yamano et al. discusses the application of Direct Seeded Rice (DSR) technology in Eastern India. DSR is a rice establishment technology which can help farmers adapt to climate change and reduce Greenhouse Gas (GHG) emissions from rice transplantation. Their analysis notes that DSR can help farmers diversify allocation of labour, conserve water resources and protect the soil. The short article by Ghani Akbar highlights the potential of use of Skimming Wells with Pressurized Irrigation Technologies for managing the problem of soil salinity resulting from climate change-induced extraction of low-quality groundwater in the Indus Basin. Various aspects of these technologies are discussed along with other relevant measures for controlling or curing soil salinity.