Quantifying changes to the global warming potential of rice wheat systems with the adoption of conservation agriculture in northwestern India
Agnes Tirol‐Padre(International Rice Research Institute), J. K. Ladha, Rakesh Kumar Nagar(Central Soil Salinity Research Institute), Virender Kumar, Dinesh Kumar Sharma(Wildlife Institute of India), Mahesh K. Gathala, Parbodh Chander Sharma(Central Soil Salinity Research Institute), H.S. Jat(Central Soil Salinity Research Institute), Sandeep Deshwal(Central Soil Salinity Research Institute), Munmun Rai(International Maize and Wheat Improvement Center), Reiner Waßmann(International Rice Research Institute), Love Kumar Singh(International Maize and Wheat Improvement Center), Sheetal Sharma(Odisha University of Agriculture and Technology)
Cited by 63
Related Papers
Reducing emissions from agriculture to meet the 2 °C target
|Global Change Biology|2016|357
Evaluation of precision land leveling and double zero-till systems in the rice–wheat rotation: Water use, productivity, profitability and soil physical properties
|Soil and Tillage Research|2009|351
Optimizing intensive cereal-based cropping systems addressing current and future drivers of agricultural change in the northwestern Indo-Gangetic Plains of India
|Agriculture Ecosystems & Environment|2013|287
Tillage and Crop Establishment Affects Sustainability of South Asian Rice–Wheat System
|Agronomy Journal|2011|252