Earth and Planetary Sciences
Life Cycle Assessment
100%
Life Cycle
93%
Environmental Impact
54%
Climate Effect
48%
Land Use Change
46%
Emissions
43%
Environmental Consequence
33%
Human Health
32%
Global Warming Potential
26%
Carbon Footprint
24%
Greenhouse Gas Emission
22%
Eutrophication
18%
Environmental Impact Assessment
18%
Terrestrial Ecosystem
18%
Electricity Supply
16%
Denmark
16%
Aquatic Ecosystem
16%
Solid Waste
16%
Agricultural Practice
16%
Circular Economy
16%
Argentina
16%
Waste Collection
16%
Systems Analysis
16%
Spatial Planning
16%
Biogas
16%
Building Industry
16%
Crop Production
16%
Field Emission
16%
Waste Treatment
16%
Methane
16%
Renewable Energy
14%
Global Warming
12%
Decision Making
11%
Carbon Sequestration
10%
Combined Heat and Power
9%
Wind Power
9%
Strategic Environmental Assessment
9%
Assessment Method
8%
Belgium
8%
Forest Management
8%
Regrowth
8%
Europe
8%
Material Flow Analysis
8%
Large-Scale Experiment
8%
Calculation Method
8%
United Nations
8%
Waste Type
8%
California
8%
Biofuel
8%
United States
8%
Keyphrases
Terrestrial Ecosystems
19%
Aquatic Ecosystems
19%
Life Cycle Assessment
16%
Food Waste
16%
Catering Establishments
16%
Biogas
16%
Rebuttal
16%
Regional Input-output Tables
16%
Public Support Programmes
16%
Waste Footprint
16%
Herring
16%
Systemic Impact
16%
Health Uncertainty
16%
Climate Indicators
16%
Ecotoxicological Effects
16%
Product Labeling
16%
Hybrid Input-output Model
16%
Environmental Products
16%
Bradyrhizobium Japonicum
16%
Biochar Production
16%
Collection Scheme
16%
Economical Evaluation
16%
Life Cycle Impact Assessment
16%
Efficiency Change
16%
Circularity Gap
16%
Sixth Assessment Report
16%
Renewable Fuel Standard
16%
Transportation Fuels
16%
Calculation Rules
16%
Climate Change Impacts
16%
Methane Oxidation
16%
CO 2
16%
Global Warming Potential
16%
CO2e
12%
Soybean Production
11%
Freshwater Eutrophication
10%
Marine Eutrophication
10%
Fuel Standards
10%
Carbon Intensity
10%
Reduction Strategies
10%
Environmental Impact
10%
Emission Metrics
9%
Environmental Extensions
9%
Greenhouse Gas
9%
Intergovernmental Panel on Climate Change
9%
Methane
9%
Fish Processing
8%
Processing Factory
8%
Upstream Effect
8%
Yield Effect
8%
Engineering
Life Cycle Assessment
53%
Environmental Impact
45%
Land Use
44%
Lifecycle
32%
Carbon Footprint
24%
Cycle Impact
20%
Bioenergy
16%
Microbial
16%
Life-Cycle Costing
16%
Biochar
16%
Output Table
16%
Office Buildings
16%
Building Industry
16%
Greenhouse Gas
16%
Global Warming
16%
Field Emission
16%
Conservation
16%
Renewable Fuel Standard
16%
Emission Intensity
13%
Illustrates
10%
Energy Engineering
8%
Greenhouse Gas
8%
Wooden Buildings
8%
Building Stock
8%
Environmental Benefit
8%
Estimation Procedure
8%
Model Input
8%
Balancing Procedure
8%
Biogas
8%
Material Flow Analysis
8%
California's Low Carbon Fuel Standard
8%
Renewable Transport Fuel Obligation
8%
Municipal Solid Waste
8%
Renewable Energy Directive
8%
Fuel Production
8%
Default Value
8%
Biofuel
8%
Standardized Method
8%
United States
8%
Cycle Life
6%
Main Building
5%
Initial Estimate
5%
Building Block
5%
Member State
5%
Consumption Pattern
5%
Production Practice
5%
Life Cycle Inventory
5%
Simple System
5%
Reference System
5%