, World agriculture towards 2030/2050. The, ESA Working Paper. FAO, 2012.
, The ecological role of biodiversity in agroecosystems, Agric. Ecosyst. Environ, vol.74, pp.19-31, 1999.
URL : https://hal.archives-ouvertes.fr/cirad-00772224
, Crop production variability in North and South America forced by life-cycles of the El Nino Southern Oscillation, 2017.
, Agric. For. Meteorol, vol.239, pp.151-165
, Single and double crop systems in the Argentine Pampas: Environmental determinants of annual grain yield, F. Crop. Res, vol.177, pp.137-147, 2015.
, Introduction: the Role of Agricultural Technologies in Tropical Deforestation, pp.14-30, 2001.
, Spatial patterns of rainfall regimes related to levels of double cropping agriculture systems in Mato Grosso (Brazil), Int. J. Climatol, vol.2633, pp.2622-2633, 2014.
URL : https://hal.archives-ouvertes.fr/halshs-00910825
, Classification of MODIS EVI time series for crop mapping in the state of Mato Grosso. Brazil, Int. J. Remote Sens, vol.32, pp.7847-7871, 2011.
URL : https://hal.archives-ouvertes.fr/halshs-00623706
, Analyzing the agricultural transition in Mato Grosso, Brazil, using satellite-derived indices, Appl. Geogr, vol.32, pp.702-713, 2012.
URL : https://hal.archives-ouvertes.fr/cirad-00820484
, Research investment implications of shifts in the global geography of wheat stripe rust, Nat. Plants, vol.1, p.15132, 2015.
, Remote Sensing and Cropping Practices: A Review, 2018.
, Sentinel-2 cropland mapping using pixel-based and objectbased time-weighted dynamic time warping analysis, Remote Sens. Environ, vol.204, pp.509-523, 2018.
, Sustainability issues on rice-wheat cropping system, Int. Soil Water Conserv. Res, vol.4, pp.64-74, 2016.
, Monitoring of the Rice Cropping System in the Mekong Delta Using ENVISAT/ASAR Dual Polarization Data, IEEE Trans. Geosci. Remote Sens, vol.47, pp.517-526, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00385142
, Classifying multiyear agricultural land use data from Mato Grosso using time-series MODIS vegetation index data, Remote Sens. Environ, vol.130, pp.39-50, 2013.
, Towards better measurement of household food security : Harmonizing indicators and the role of household surveys. Glob. Food Sec. 2, 30-40, 2013.
, Cropping frequency and area response to climate variability can exceed yield response, Nat. Clim. Chang, vol.6, pp.601-604, 2016.
, Survey of multiple cropping in less developed nations, 1971.
, Land use sustainability on the South-Eastern Amazon agricultural frontier: Recent progress and the challenges ahead, Appl. Geogr, vol.80, pp.86-97, 2017.
, The relationship of rainfall variability in western equatorial africa to the tropical oceans and atmospheric circulation. Part II: The boreal autumn, J. Clim, vol.26, pp.66-84, 2013.
, Mapping croplanduse intensity across Europe using MODIS NDVI time series, Environ. Res. Lett, vol.11, p.24015, 2016.
, Do increases in agricultural yield spare land for nature?, Glob. Chang. Biol, vol.15, pp.1716-1726, 2009.
, Length of growing period (LGP) zones of the world (FGGD) [WWW Document, 2007.
, WorldClim 2: new 1-km spatial resolution climate surfaces for global land areas, Int. J. Climatol, vol.4315, pp.4302-4315, 2017.
, Future perspectives of multiple cropping, pp.351-369, 1986.
, Mapping global cropland and field size, Glob. Chang. Biol, vol.21, 1980.
, Combining remote sensing and ground census data to develop new maps of the distribution of rice agriculture in China, Global Biogeochem. Cycles, vol.16, pp.10-38, 2002.
, New district-level maps of rice cropping in India: A foundation for scientific input into policy assessment, F. Crop. Res, vol.98, pp.164-177, 2006.
, Multiple cropping systems as drivers for providing multiple ecosystem services: from concepts to design, Agron. Sustain. Dev, vol.35, pp.607-623, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01173332
, Wavelet analysis of MODIS time series to detect expansion and intensification of rowcrop agriculture in Brazil, Remote Sens. Environ, vol.112, pp.576-587, 2008.
, Mapping Asian Cropping Intensity With MODIS, IEEE J. Sel. Top. Appl. Earth Obs. Remote Sens, vol.57, pp.3373-3379, 2014.
, Mapping rice-fallow cropland areas for short-season grain legumes intensification in South Asia using MODIS 250 m time-series data, Global Environmental Change, vol.9, p.102131, 2016.
, , pp.981-1003
, High-Resolution Global Maps of 21st-Century Forest Cover Change, Science, vol.342, pp.850-853, 2013.
, How do weather and climate influence cropping area and intensity? Glob. Food Sec, vol.4, pp.46-50, 2014.
, Biodiversity increases the resistance of ecosystem productivity to climate extremes, Nature, vol.526, pp.574-577, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02959854
, Adapting to Climate Variability and Change: Experiences from Cereal-Based Farming in the Central Rift and Kobo Valleys, Ethiopia. Environ. Manage, vol.52, pp.1115-1131, 2013.
, Soy moratorium impacts on soybean and deforestation dynamics in Mato Grosso, Brazil. PLoS One, vol.12, pp.1-21, 2017.
, Intercropping increases parasitism of pests, Nature, vol.388, pp.1-293, 1997.
, RiceAtlas, a spatial database of global rice calendars and production, Sci. Data, vol.4, p.170074, 2017.
, How extensive are yield declines in long-term rice-wheat experiments in Asia? F, Crop. Res, vol.81, pp.219-227, 2003.
, , pp.261-269, 2001.
, Mapping Crop Cycles in China Using MODIS-EVI Time Series, Remote Sens, vol.6, pp.2473-2493, 2014.
, Seasonality of African precipitation from 1996 to 2009, J. Clim, vol.25, pp.4304-4322, 2012.
, Soil aggregate and microbial biomass in a permanent bed wheat -maize planting system after 12 years, F. Crop. Res, vol.97, pp.302-309, 2006.
, Resilience in Agriculture through Crop Diversification: Adaptive Management for Environmental Change, Bioscience, vol.61, pp.183-193, 2011.
, Changes in the potential multiple cropping system in response to climate change in China from 1960-2010, PLoS One, vol.8, pp.1-12, 2013.
, Plant Resources of Tropical Africa 1 -Cereals and Pulses . PROTA foundation, pp.221-229, 2006.
, Global biomass production potentials exceed expected future demand without the need for cropland expansion, Nat. Co, vol.6, 2015.
, Farming the planet: 2. Geographic distribution of crop areas, yields, physiological types, and net primary production in the year 2000: GLOBAL CROP AREAS AND YIELDS IN 2000, Global Biogeochem. Cycles, vol.22, issue.1, 2008.
, Farming systems in Argentina: yield constraints and risk management, Crop Physiology, pp.55-70, 2009.
, Cropland expansion changes deforestation dynamics in the southern Brazilian Amazon, Proc. Natl. Acad. Sci, vol.103, pp.14637-14641, 2006.
, East African Rainfall and the Tropical Circulation / Convection on Intraseasonal to Interannual Timescales, J. Clim, vol.13, pp.3915-3939, 2000.
, Biodiversity hotspots for conservation priorities, Nature, vol.403, pp.853-858, 2000.
, The relationship of rainfall variability in western equatorial Africa to the tropical oceans and atmospheric circulation. Part I: The boreal spring, J. Clim, vol.26, pp.45-65, 2013.
, Forage yield, water-and solar radiation-productivities of perennial pastures and annual crops sequences in the south-eastern Pampas of Argentina, F. Crop. Res, vol.221, pp.19-31, 2018.
, Water requirements for wheat and maize under climate change in North Nile Delta, Spanish J. Agric. Res, vol.13, issue.10, pp.3-4, 2015.
,
, The spatial distribution of crop types from MODIS data : Temporal unmixing using Independent Component Analysis, Remote Sens. Environ, vol.114, pp.1190-1204, 2010.
, The contributions of nitrogenfixing crop legumes to the productivity of agricultural systems, Symbiosis, vol.48, pp.1-17, 2009.
, How can higher-yield farming help to spare nature?, Science, vol.351, issue.6272, pp.450-451, 2016.
, Food security: definition and measurement, Food Secur, vol.1, pp.5-7, 2009.
, MIRCA2000-Global monthly irrigated and rainfed crop areas around the year 2000: A new high-resolution data set for agricultural and hydrological modeling, Global Biogeochem. Cycles, vol.24, 2010.
, Mapping cropping intensity trends in China during 1982-2013, Appl. Geogr, vol.79, pp.212-222, 2017.
, Mapping Single-, Double-, and Triple-crop Agriculture in China at 0.5° × 0.5° by Combining County-scale Census Data with a Remote Sensing-derived Land Cover Map, Geocarto Int, vol.18, pp.3-13, 2003.
, Farming the planet: 1. Geographic distribution of global agricultural lands in the year 2000: GLOBAL AGRICULTURAL LANDS IN 2000, Global Biogeochem. Cycles, vol.22, issue.1, 2008.
, Increasing global crop harvest frequency : recent trends and future directions, Environ. Res. Lett, vol.44041, 2013.
, Climate forcing datasets for agricultural modeling: Merged products for gap-filling and historical climate series estimation, Agric. For. Meteorol, vol.200, pp.233-248, 2015.
, Crop planting dates: An analysis of global patterns, Glob. Ecol. Biogeogr, vol.19, pp.607-620, 2010.
, Land-use change trajectories up to 2050: insights from a global agro-economic model comparison, Agric. Econ, vol.45, pp.69-84, 2014.
, Characterization and variability of Kiremt rainy season over Ethiopia, Meteorol. Atmos. Phys, vol.89, pp.153-180, 2005.
, Monitoring farmers' decisions on Mediterranean irrigated crops using satellite image time series, Int. J. Remote Sens, vol.29, pp.2293-2316, 2008.
, Logit models for identifying the factors that influence the uptake of new "no-tillage" technologies by farmers in the rice-wheat and the cotton-wheat farming systems of Pakistan's Punjab, Agric. Syst, vol.75, pp.79-95, 2003.
, Crops that feed the world 6. Past successes and future challenges to the role played by maize in global food security, Food Secur, vol.3, pp.307-327, 2011.
, Crops that feed the world 10. Past successes and future challenges to the role played by wheat in global food security, Food Secur, vol.5, pp.291-317, 2013.
, Global Patterns of Cropland Use Intensity, Remote Sens, vol.2, pp.1625-1643, 2010.
, The geography and causes of food insecurity in developing countries, Agric. Econ, vol.22, issue.99, pp.51-52, 2000.
, Recent cropping frequency, expansion, and abandonment in Mato Grosso, Brazil had selective land characteristics, Environ. Res. Lett, vol.9, p.64010, 2014.
, Cropping system diversification, conservation tillage and modern seed adoption in Ethiopia: Impacts on household income, agrochemical use and demand for labor, Ecol. Econ, vol.93, pp.85-93, 2013.
, Productivity and management of rice-wheat cropping systems: issues and challenges, F. Crop. Res, vol.69, pp.93-132, 2001.
, Global food security, biodiversity conservation and the future of agricultural intensification, Biol. Conserv, vol.151, pp.53-59, 2012.
, Mapping biophysical factors that influence agricultural production and rural vulnerability, 2007.
, Socioeconomic development and agricultural intensification in Mato Grosso, Philos. Trans. R. Soc. B Biol. Sci, vol.368, pp.1-7, 2013.
, Length of Growing Period over Africa: Variability and Trends from 30 Years of NDVI Time Series, Global Environmental Change, vol.64, p.102131, 2013.
, Multi-crop separability study of rabi crops using multi-temporal satellite data, Jounal Indian Soc. Remote Sens, vol.33, pp.75-79, 2005.
, Adaptation to climate change through the choice of cropping system and sowing date in sub-Saharan Africa, Glob. Environ. Chang, vol.23, pp.130-143, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01788194
, A Unified Cropland Layer at 250 m for Global Agriculture Monitoring, vol.1, 2016.
, Analysis of time-series MODIS 250 m vegetation index data for crop classification in the, Remote Sens. Environ, vol.108, pp.290-310, 2007.
, Agricultural growing season calendars derived from MODIS surface reflectance, Int. J. Digit. Earth, vol.8, pp.173-197, 2015.
, Global cropping intensity gaps: Increasing food production without cropland expansion, vol.76, pp.515-525, 2018.
, Mapping paddy rice agriculture in southern China using multi-temporal MODIS images, Remote Sens. Environ, vol.95, pp.480-492, 2005.
, Mapping paddy rice agriculture in South and Southeast Asia using multi-temporal MODIS images, Remote Sens. Environ, vol.100, pp.95-113, 2006.
, Automated cropland mapping of continental Africa using Google Earth Engine cloud computing, ISPRS J. Photogramm. Remote Sens, vol.126, pp.225-244, 2017.
, Yield trends, and changes in soil organic-C and available NPK in a long-term ricewheat system under integrated use of manures and fertilisers, F. Crop. Res, vol.68, pp.219-246, 2000.
, Improving Water Productivity of Wheat-Based Cropping Systems in South Asia for Sustained Productivity, Advances in Agronomy, pp.157-258, 2014.
, Multiple cropping intensity in China derived from agro-meteorological observations and MODIS data, Chinese Geogr. Sci, vol.24, pp.205-219, 2013.
, Potential benefits of climate change for crop productivity in China, Agric. For. Meteorol, vol.208, pp.76-84, 2015.
, Assessing the harvested area gap in China, Agric. Syst, vol.153, pp.212-220, 2017.
, MODIS-Based Fractional Crop Mapping in the U.S. Midwest with Spatially Constrained Phenological Mixture Analysis. Remote Sens, vol.7, pp.512-529, 2015.
, Developing grain production policy in terms of multiple cropping systems in China, Land Use Policy, vol.40, pp.140-146, 2014.
, Spatial exploration of multiple cropping efficiency in china based on time series remote sensing data and econometric model, J. Integr. Agric, vol.12, pp.60308-60309, 2013.
, Global Environmental Change, vol.64, p.102131, 2020.