The MitigatePlus: Low-Emission Food Systems Initiative aims to contribute to low-emission food systems development and reduce net annual greenhouse gas emissions (GHGE) from food systems.
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La iniciativa MitigatePlus: Sistemas Alimentarios Bajos en Emisiones tiene como objetivo contribuir a la reducción de las emisiones anuales de gases de efecto invernadero (GEI) en los sistemas alimentarios.
Bt cotton area contraction drives regional pest resurgence, crop loss, and pesticide use
Unveiling how Bt cotton area contraction drives regional pest resurgence, crop loss, and pesticide use.
Consumer acceptance of gene-edited food products in China
Rice cultivation in the NLPR regions has moved to higher latitudes.
Urbanization is a pressing challenge for earth’s humans because it is changing not only natural environments but also agricultural lands.
Evaluating economic output and carbon footprint of different rice production systems, based on several long-term experiments.
This note provides an overview of investment trends in global agricultural research to the year 2016, which revises ASTI’s prior global update (Beintema et al. 2012).
A macro perspective on the relationship between farm size and agrochemicals use in China
Agrochemicals are overused in China. One strategy to reduce agrochemical use is to increase farm size because of the potential effect of economy of scale.
Impacts of the central South-to-North Water Diversion on groundwater storage recovery within the context of climate variability and other policies.
Modelling the global economic consequences of a major African swine fever outbreak in China
African swine fever is a deadly porcine disease that has spread into East Asia where it is having a detrimental effect on pork production. However, the implications of African swine fever on the global pork market are poorly explored.
This report presents the findings of an assessment on the use of information and communication technology (ICT) to improve food production and distribution in the People’s Republic of China.
The concentration of crop cultivation can be measured in terms of spatial clustering and of inequality in the distribution of the cropland area.
Understanding the patterns, processes, and causes of land use changes remains the core task and challenge of land system science (Rounsevell et al., 2012; Turner, Lambin, & Reenberg, 2007; Verburg, Erb, Mertz, & Espindola, 2013).