خيارات البحث
النتائج 2121 - 2130 من 2,189
How does traditional harvesting of young leaves for vegetable use affect seed yields of cowpea variety mixtures in Eastern Uganda? النص الكامل
2009
Okonya, J. | Omadi, R | Polreich, S | Maass, Brigitte L.
Farmer innovation and market-oriented livestock production in Ethiopia-key to sustainable natural resources management النص الكامل
2009
Tegegne, Azage | Woldewahid, G. | Ayele, Z. | Berhe, Kahsay
Assessment of climate change impacts and issues to support the making of new Nông Thôn Mới (Vietnam’s National Target Program on New Rural Development) criteria for the 2021-2030 Strategy
2020
Bui, Le Vinh | Imbach, Pablo | Talsma, Tiffany | Tran, Hong Thanh | Tran, Cong Thang | Nguyen, Ngoc Luan
This report showcases the results of the assessment conducted by the Vietnam National University of Agriculture, International Center for Tropical Agriculture, and the Institute of Policy and Strategy for Agriculture and Rural Development. The assessment aims to create new sets of criteria for the Nông Thôn Mới (NTM) program of Vietnam by investigating the impacts and issues brought by climate change. This is a part of the task, “Investigation and improvement of the national NTM criteria for rural development at all levels (commune, district, province) according to titles (standard, advanced, demonstration) in the period of 2021-2025.”
اظهر المزيد [+] اقل [-]Weed control in cassava
2012
Calle, Fernando | Ceballos, H.
Fluid milk and butter production and marketing systems in Fogera District, Amhara Region, Ethiopia النص الكامل
2009
Anteneh, B. | Tegegne, Azage | Beyene, F. | Gebremedhin, Berhanu
Impact of forage fodder bank adoption on labour use for feeding cattle of smallholder households in Prey Chhor District, Kampong Cham Province, Cambodia النص الكامل
2009
Soem, D | Boupha, T. | Stür, Werner W. | Seng, M.
The role of the West African dwarf goat in the economy of the smallholder arable farmer in the subhumid zone of Nigeria النص الكامل
1993
Ikwuegbu, O.A. | Tarawali, G. | Njwe, R.M.
This study analysed 875 records of West African Dwarf (WAD) goats owned by 45 farmers and collected over 30 months. In the wet season WAD goats had access to either fodder banks or natural pasture. After crop harvest, animals roamed freely. Litter sizes were 1.67 + 0.08 and 1.56 + 0.06, respectively, on the two grazing systems and were affected by parity (P<0.05). Births accounted for 87% of all entries while multiple births accounted for about 68 % of all kids. Castrates accounted for about 60% of all mature males. Between 35 and 39% of adult goats were sold for meat and offtake accounted for between 51 and 53 % of all exits. Sufficient cash was generated from goat offtake to purchase farm inputs and some household items. Goats play other important roles in the socio-economy of the traditional smallholder farming system.
اظهر المزيد [+] اقل [-]Mahatma Gandhi National Rural Employment Guarantee (MGNREGA) Programme in India: A review of studies on its implementation performance, outcomes and implications on sustainable livelihoods across states النص الكامل
2014
Viswanathan, P. K. | Mishra, Rudra Narayan | Bhattarai, Madhusudan | Iyengar, Hema
Transforming agrifood systems to achieve China’s 2060 carbon neutrality goal النص الكامل
2021
Zhang, Yumei | Fan, Shenggen | Chen, Kevin Z. | Feng, Xiaolong | Zhang, Xiangyang | Bai, Zhaohai | Wang, Xiaoxi
Transforming agrifood systems to achieve China’s 2060 carbon neutrality goal النص الكامل
2021
Zhang, Yumei | Fan, Shenggen | Chen, Kevin Z. | Feng, Xiaolong | Zhang, Xiangyang | Bai, Zhaohai | Wang, Xiaoxi
During recent decades, agriculture has developed rapidly in China, ensuring food security and enriching residents’ diets. At the same time, greenhouse gas (GHG) emissions from the country’s agrifood systems have increased by only 16 percent in the past two decades and fell for two consecutive years in 2017 and 2018. The proportion of GHG emissions in the country’s food systems to the total GHG emissions dropped from 18.7 percent in 1997 to 8.2 percent in 2018. GHG emissions from the Chinese agrifood systems should not be ignored, neverthless. In 2018, GHG emissions from agrifood systems was still as high as 1.09 billion tons CO2eq1. While ensuring food security as the national top priority, measures such as improving agricultural technologies, reducing food loss and waste, and shifting dietary patterns must be adopted to reduce GHG emissions from agrifood systems. Improvements in agricultural technologies are the most effective standalone measures, but the combined three measures above have the most significant effect on GHG emission reduction. Projections show that the combined three measures can redcue GHG emissions by 47 percent in 2060 from the 2020 level. Land use, land use change, and forestry (LULUCF) play a key role as a carbon sink. The carbon sequestration from LULUCF was around 1.1 billion tons CO2eq in 2014. It can increase to 1.6 billion tons of CO2eq per year in 2060, thus LULUCF could completely offset GHG emissions from agrifood systems and still have a surplus capacity to sequester nearly 1 billion additional tons of CO2eq per year, well above the current level of net sequestration,contributing to overall carbon neutrality of China.
اظهر المزيد [+] اقل [-]Transforming agrifood systems to achieve China’s 2060 carbon neutrality goal النص الكامل
2021
Zhang, Yumei; Fan, Shenggen; Chen, Kevin Z.; Feng, Xiaolong; Zhang, Xiangyang; Bai, Zhaohai; Wang, Xiaoxi | http://orcid.org/0000-0001-7927-4132 Chen, Kevin; http://orcid.org/0000-0002-2658-4863 Fan, Shenggen
During recent decades, agriculture has developed rapidly in China, ensuring food security and enriching residents’ diets. At the same time, greenhouse gas (GHG) emissions from the country’s agrifood systems have increased by only 16 percent in the past two decades and fell for two consecutive years in 2017 and 2018. The proportion of GHG emissions in the country’s food systems to the total GHG emissions dropped from 18.7 percent in 1997 to 8.2 percent in 2018. GHG emissions from the Chinese agrifood systems should not be ignored, neverthless. In 2018, GHG emissions from agrifood systems was still as high as 1.09 billion tons CO2eq1. While ensuring food security as the national top priority, measures such as improving agricultural technologies, reducing food loss and waste, and shifting dietary patterns must be adopted to reduce GHG emissions from agrifood systems. Improvements in agricultural technologies are the most effective standalone measures, but the combined three measures above have the most significant effect on GHG emission reduction. Projections show that the combined three measures can redcue GHG emissions by 47 percent in 2060 from the 2020 level. Land use, land use change, and forestry (LULUCF) play a key role as a carbon sink. The carbon sequestration from LULUCF was around 1.1 billion tons CO2eq in 2014. It can increase to 1.6 billion tons of CO2eq per year in 2060, thus LULUCF could completely offset GHG emissions from agrifood systems and still have a surplus capacity to sequester nearly 1 billion additional tons of CO2eq per year, well above the current level of net sequestration,contributing to overall carbon neutrality of China. | Non-PR | IFPRI4; 3 Building Inclusive and Efficient Markets, Trade Systems, and Food Industry; DCA | DSGD
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