INIS
modeling
100%
land use
100%
ecosystems
100%
crops
100%
balances
71%
energy
57%
carbon
57%
soils
57%
energy crops
57%
data
42%
production
42%
range
28%
losses
28%
europe
28%
management
28%
climates
28%
emission
28%
growth
14%
increasing
14%
decision making
14%
mitigation
14%
output
14%
climatic change
14%
biofuels
14%
food
14%
gain
14%
energy supplies
14%
greenhouse gases
14%
greenhouses
14%
fossil fuels
14%
sustainable development
14%
renewable energy sources
14%
forestry
14%
combustion
14%
life cycle assessment
14%
Earth and Planetary Sciences
Land Use Modeling
100%
Bioenergy
100%
Greenhouse Gas
88%
United Kingdom
55%
Energy Crop
44%
Soil Carbon
33%
Renewable Energy
22%
Greenhouse Gas Emission
22%
Land Use Change
22%
Life Cycle Assessment
22%
Europe
22%
Land Use
22%
State of the Art
11%
Environmental Impact Assessment
11%
Temperate Climate
11%
Energy Technology
11%
Climate Change Impact
11%
Greenhouse Gas Mitigation
11%
Energy Production
11%
Crop Growth
11%
Energy Supply
11%
Field Study
11%
Soils
11%
Decision Making
11%
Biofuel
11%
Fossil Fuel
11%
Fuel Combustion
11%
Engineering
Land Use
100%
Field Flux
100%
Greenhouse Gas
100%
Bioenergy
100%
Energy Engineering
45%
Life Cycle Assessment
18%
Renewable Energy
18%
Sustainable Development
9%
Measured Data
9%
Cycle Management
9%
Energy Production
9%
Real Data
9%
Dedicated Energy Crop
9%
Fossil Fuel Combustion
9%
Energy Technology
9%
Climate Change
9%
Climatic Change
9%
Field Study
9%
Biofuel
9%
Bioenergy Crop
9%
Agricultural and Biological Sciences
Land Use
100%
Greenhouse Gas
100%
Bioenergy
100%
Energy Crop
36%
Soil Carbon
27%
Land Use Change
18%
Food Crop
9%
Perennials
9%
Forestry
9%
Annuals
9%
Climate Change
9%
Decision Making
9%
Life Cycle Engineering
9%
Biofuel
9%
Soils
9%
Fossil Fuel
9%
Material Science
Greenhouse Gas
100%
Fossil Fuel
9%
Biofuel
9%