Navin Ramankutty chercheur
Ramankutty, Navin
VIAF ID: 24125841 (Personal)
Permalink: http://viaf.org/viaf/24125841
Preferred Forms
- 100 0 _ ‡a Navin Ramankutty ‡c chercheur
- 100 1 _ ‡a Ramankutty, Navin
- 100 1 _ ‡a Ramankutty, Navin
- 100 1 _ ‡a Ramankutty, Navin
4xx's: Alternate Name Forms (6)
5xx's: Related Names (1)
Works
Title | Sources |
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Abrupt changes in rainfall during the twentieth century | |
Agronomic phosphorus imbalances across the world's croplands | |
Amazonia revealed: forest degradation and loss of ecosystem goods and services in the Amazon Basin | |
Anthropogenic transformation of the biomes, 1700 to 2000 | |
Biodiversity–production feedback effects lead to intensification traps in agricultural landscapes | |
Biogeophysical effects of historical land cover changes simulated by six Earth system models of intermediate complexity | |
Biogeophysical effects of land use on climate: Model simulations of radiative forcing and large-scale temperature change | |
Can intensive farming save nature? | |
Carbon balance of the terrestrial biosphere in the Twentieth Century: Analyses of CO2, climate and land use effects with four process-based ecosystem models | |
Carbon emissions from land use and land-cover change | |
Carbon payback times for crop-based biofuel expansion in the tropics: the effects of changing yield and technology | |
The challenge of feeding the world while conserving half the planet | |
Challenges to estimating carbon emissions from tropical deforestation | |
Characterizing the Spatial Patterns of Global Fertilizer Application and Manure Production | |
Climate volatility and poverty vulnerability in Tanzania | |
Comparing the yields of organic and conventional agriculture | |
The Conventional Versus Alternative Agricultural Divide: A Response to Garibaldi et al. | |
Crop planting dates: an analysis of global patterns | |
Detection of cropland field parcels from Landsat imagery | |
Diagnosing the uncertainty and detectability of emission reductions for REDD + under current capabilities: an example for Panama | |
Direct human influence on atmospheric CO2 seasonality from increased cropland productivity | |
Erratum: Corrigendum: Closing yield gaps through nutrient and water management | |
Estimating historical changes in global land cover: Croplands from 1700 to 1992 | |
Evaluation of terrestrial carbon cycle models with atmospheric CO2measurements: Results from transient simulations considering increasing CO2, climate, and land-use effects | |
Farming the planet: 2. Geographic distribution of crop areas, yields, physiological types, and net primary production in the year 2000 | |
Focus on global–local–global analysis of sustainability | |
From Miami to Madison: Investigating the relationship between climate and terrestrial net primary production | |
Global agricultural land-use data for integrated assessment modeling | |
A global assessment of the carbon cycle and temperature responses to major changes in future fire regime | |
Global consequences of land use | |
Global crop yield response to extreme heat stress under multiple climate change futures | |
A global data set of the extent of irrigated land from 1900 to 2005 | |
The global distribution of cultivable lands: current patterns and sensitivity to possible climate change | |
Global market integration increases likelihood that a future African Green Revolution could increase crop land use and CO2 emissions | |
Hidden linkages between urbanization and food systems | |
How do weather and climate influence cropping area and intensity? | |
How much of the world's food do smallholders produce? | |
Implementation of a Marauding Insect Module (MIM, version 1.0) in the Integrated BIosphere Simulator (IBIS, version 2.6b4) dynamic vegetation–land surface model | |
Implications for global warming of intercycle solar irradiance variations | |
Increasing expansion of large-scale crop production onto deforested land in sub-Andean South America | |
Interactions between nitrogen deposition, land cover conversion, and climate change determine the contemporary carbon balance of Europe | |
Investigating the Effects of Subgrid Cell Dynamic Heterogeneity on the Large-Scale Modeling of Albedo in Boreal Forests | |
Investigation of Hydrological Variability in West Africa Using Land Surface Models | |
Land cover change over the last three centuries due to human activities: The availability of new global data sets | |
Land sparing or land sharing: context dependent | |
Livestock policy for sustainable development | |
Many shades of gray-The context-dependent performance of organic agriculture | |
Mapping Asian Cropping Intensity With MODIS | |
Mind the gap: how do climate and agricultural management explain the ‘yield gap’ of croplands around the world? | |
The missing markets link in global-to-local-to-global analyses of biodiversity and ecosystem services | |
Modelling long-term impacts of mountain pine beetle outbreaks on merchantable biomass, ecosystem carbon, albedo, and radiative forcing | |
MODIS Collection 5 global land cover: Algorithm refinements and characterization of new datasets | |
Multiple Impacts of Land-Use/Cover Change | |
The Need for Improved Maps of Global Cropland | |
An oscillation in the global climate system of period 65–70 years | |
Our share of the planetary pie | |
People on the land: changes in global population and croplands during the 20th century. | |
Physiology on a landscape scale: plant-animal interactions | |
Prevailing Myths About Agricultural Abandonment and Forest Regrowth in the United States | |
Producer and consumer responsibility for greenhouse gas emissions from agricultural production—a perspective from the Brazilian Amazon | |
Putting people in the map: anthropogenic biomes of the world | |
Radiative forcing by anthropogenic surface albedo change before and since 1750, 2006: | |
Recent patterns of crop yield growth and stagnation | |
Reconciling apparent inconsistencies in estimates of terrestrial CO2 sources and sinks | |
The role of pasture and soybean in deforestation of the Brazilian Amazon | |
Science-graphic art partnerships to increase research impact | |
Solutions for a cultivated planet | |
Stocks, Flows, and Prospects of Land | |
Subnational distribution of average farm size and smallholder contributions to global food production | |
Synchronized failure of global crop production | |
Testing the performance of a dynamic global ecosystem model: Water balance, carbon balance, and vegetation structure | |
Trends in Global Agricultural Land Use: Implications for Environmental Health and Food Security. | |
Tropical forests were the primary sources of new agricultural land in the 1980s and 1990s | |
Urban agriculture: a global analysis of the space constraint to meet urban vegetable demand | |
Urban agriculture and food security: A critique based on an assessment of urban land constraints | |
Urbanization and the loss of prime farmland: a case study in the Calgary–Edmonton corridor of Alberta | |
What is this thing called organic? – How organic farming is codified in regulations | |
種植地球:2。2000年作物面積,產量,生理類型和淨初級生產的地理分佈 |