Ejemplares similares: Potential impact of high-BNI wheat adoption on life-cycle greenhouse gas emissions incl. N2O
- Life Cycle Energy and Greenhouse Gas Emission Analysis of Groundwater-Based Irrigation Systems
- Influence of spatially dependent, modeled soil carbon emission factors on life-cycle greenhouse gas emissions of corn and cellulosic ethanol
- Quantifying Greenhouse Gas Emissions Attributable to Smallholder Livestock Systems in Western Kenya: Cradle to Farm Gate Life Cycle Assessment
- Quantifying greenhouse gas emissions attributable to smallholder livestock systems in western Kenya: Cradle to farm gate life cycle assessment
- Incorporating agricultural management practices into the assessment of soil carbon change and life-cycle greenhouse gas emissions of corn stover ethanol production
- Greenhouse gas emissions from cattle dung depositions in two Urochloa forage fields with contrasting biological nitrification inhibition (BNI) capacity
Autor: CGIAR Research Program on Wheat
- CGIAR Research Program on Wheat - Plan of Work and Budget 2020
- First nationally representative, large-scale wheat DNA fingerprinting study
- The future of fertilizer policy and -farmer practices in South Asia: Perspectives from Bangladesh, India, Nepal, and Sri Lanka
- Rural transformation and the future of cereal-based agri-food systems
- Freedom to act in Moroccan seed sector improves wheat varietal replacement
- Adoption of improved wheat technologies (varieties) in Central Asia (Tajikistan, Kyrgyzstan, Uzbkekistan)