|
carbon intensity of human well-being |
3 |
|
urbanization |
3 |
|
agriculture |
2 |
|
arctic environmental protection |
2 |
|
biosphere integrity |
2 |
|
carbon emission |
2 |
|
carbon emissions |
2 |
|
carbon footprint |
2 |
|
carbon mitigation |
2 |
|
china |
2 |
|
climate change |
2 |
|
co emissions 2 |
2 |
|
co2 emission |
2 |
|
consumption structure |
2 |
|
consumption-based accounting |
2 |
|
consumption-based emission |
2 |
|
consumption-based emissions |
2 |
|
decoupling |
2 |
|
demand-side management |
2 |
|
drivers |
2 |
|
eastern china |
2 |
|
ecological network analysis |
2 |
|
embodied emissions |
2 |
|
embodied emissions in trade |
2 |
|
environmental extended multi-regional input-output model |
2 |
|
financial crisis |
2 |
|
geoengineering |
2 |
|
ghg emissions |
2 |
|
glam |
2 |
|
global courtiers |
2 |
|
groundnut |
2 |
|
hanpp |
2 |
|
household carbon emissions |
2 |
|
household characteristics |
2 |
|
household consumption |
2 |
|
human well-being |
2 |
|
input-output analysis |
2 |
|
input–output model |
2 |
|
international trade |
2 |
|
land system |
2 |
|
model projections |
2 |
|
multi-regional input-output analysis |
2 |
|
multiregional input-output analysis |
2 |
|
navigability |
2 |
|
new normal |
2 |
|
planetary boundary |
2 |
|
regional disparity |
2 |
|
satellite observations |
2 |
|
shared socioeconomic pathways |
2 |
|
structural decomposition analysis |
2 |
|
sustainable development |
2 |
|
trans-arctic routes |
2 |
|
transport efficiency |
2 |
|
accounting principles |
1 |
|
aerosol radiative forcing |
1 |
|
agent-based model |
1 |
|
aging |
1 |
|
aging society |
1 |
|
aglomeraciones urbanas |
1 |
|
agricultural data |
1 |
|
agricultural hanpp embodied in consumption |
1 |
|
agricultural trade |
1 |
|
air pollutant control device |
1 |
|
air pollution |
1 |
|
air pollution mitigation |
1 |
|
ambient air pollution |
1 |
|
american |
1 |
|
anaerobic oxidation of methane |
1 |
|
aquatic heavy metal |
1 |
|
argentina |
1 |
|
atmospheric factor |
1 |
|
atmospheric transport |
1 |
|
attribution analysis |
1 |
|
backward and forward linkages |
1 |
|
backward-linkage participation |
1 |
|
behavioral norms |
1 |
|
beijing |
1 |
|
belarus |
1 |
|
belt and road initiative |
1 |
|
belt and road initiative (bri) |
1 |
|
bidirectional couplings and feedbacks |
1 |
|
biodiversity |
1 |
|
bioenergy |
1 |
|
biofuel |
1 |
|
biomass electricity generation |
1 |
|
biophysical constraints |
1 |
|
bioplastics |
1 |
|
blue carbon |
1 |
|
brazil |
1 |
|
carbon dioxide |
1 |
|
carbon dioxide emissions |
1 |
|
carbon emission imbalance |
1 |
|
carbon emission pathways |
1 |
|
carbon emissions embodied in investment (eci) |
1 |
|
carbon inequality |
1 |
|
carbon intensity |
1 |
|
carbon leakage |
1 |
|
carbon neutrality |
1 |
|
carbon pricing |
1 |
|
carbon revenues recycling |
1 |
|
carbon storage |
1 |
|
carbon tax |
1 |
|
carbon taxes |
1 |
|
cge model |
1 |
|
ch4 emissions |
1 |
|
chemical engineering |
1 |
|
chemical oxygen demand |
1 |
|
child growth |
1 |
|
china climate mitigation |
1 |
|
china provinces |
1 |
|
circular economy |
1 |
|
cities |
1 |
|
city |
1 |
|
city-level |
1 |
|
clean and low-carbon transition |
1 |
|
clean energy technologies |
1 |
|
clean energy transition |
1 |
|
climate alliance |
1 |
|
climate benefit |
1 |
|
climate change mitigation |
1 |
|
climate damage |
1 |
|
climate mitigation |
1 |
|
climate policy |
1 |
|
co 2 emission |
1 |
|
co 2 emissions |
1 |
|
co-evolution |
1 |
|
co2 emissions |
1 |
|
co2 equivalent |
1 |
|
co2eemissions |
1 |
|
coal mine |
1 |
|
coal phase-out |
1 |
|
coal-fired power plant |
1 |
|
coal-fired power plants |
1 |
|
community network |
1 |
|
comparative advantage |
1 |
|
constructed wetland matrix system |
1 |
|
constructed wetlands |
1 |
|
consumption |
1 |
|
consumption based |
1 |
|
consumption based accounting |
1 |
|
consumption patterns |
1 |
|
consumption-based |
1 |
|
consumption-based accounting of toxic release |
1 |
|
consumption-based accounts |
1 |
|
consumption-based carbon emissions |
1 |
|
countermeasures |
1 |
|
coupling coordination degree |
1 |
|
covid-19 |
1 |
|
covid-19 pandemic |
1 |
|
critical materials |
1 |
|
critical metals |
1 |
|
cross-border production |
1 |
|
data assimilation |
1 |
|
declining co2 emissions |
1 |
|
decomposition |
1 |
|
decomposition analysis |
1 |
|
decoupling, consumption-based emissions,green growth, structural decomposition analysis |
1 |
|
deep learning |
1 |
|
deforestation |
1 |
|
demographic policy |
1 |
|
demonstration effect |
1 |
|
determinants |
1 |
|
developing economies |
1 |
|
diet change |
1 |
|
dietary transition |
1 |
|
distributional impact |
1 |
|
distributional impacts |
1 |
|
dmsp/ols |
1 |
|
domestic water footprint |
1 |
|
double counting |
1 |
|
driving forces |
1 |
|
drought-sensitive regions |
1 |
|
earth and human systemmodels |
1 |
|
earth sciences |
1 |
|
ecological unequal exchange |
1 |
|
econometric analysis |
1 |
|
economic cost |
1 |
|
economic growth |
1 |
|
effectiveness |
1 |
|
efficiency |
1 |
|
electricity generation technologies |
1 |
|
electricity sector |
1 |
|
electricity supply and planning |
1 |
|
electricity wholesale market |
1 |
|
embodied carbon flow |
1 |
|
embodied carbon trade inequalities |
1 |
|
embodied co2 emission flow |
1 |
|
embodied co2 emissions |
1 |
|
embodied co2 emissions in exports |
1 |
|
embodied hanpp |
1 |
|
embodied land |
1 |
|
embodied land in trade |
1 |
|
emission drivers |
1 |
|
emission intensity |
1 |
|
emission inventory |
1 |
|
emission responsibility |
1 |
|
emission standard |
1 |
|
emission trading scheme |
1 |
|
emission trajectory |
1 |
|
emission transfer |
1 |
|
emissions |
1 |
|
emissions abatement |
1 |
|
employment |
1 |
|
energy |
1 |
|
energy consumption |
1 |
|
energy cost burden |
1 |
|
energy costs |
1 |
|
energy crisis |
1 |
|
energy efficiency |
1 |
|
energy footprint |
1 |
|
energy management |
1 |
|
energy modeling |
1 |
|
energy policy |
1 |
|
energy resources |
1 |
|
energy sustainability |
1 |
|
energy transition |
1 |
|
energy use per value-added |
1 |
|
energy-environment efficiency |
1 |
|
energy-metal nexus |
1 |
|
energy-water nexus |
1 |
|
engineering |
1 |
|
environment |
1 |
|
environmental behavior |
1 |
|
environmental cge model |
1 |
|
environmental costs |
1 |
|
environmental efficiency |
1 |
|
environmental emissions |
1 |
|
environmental equality |
1 |
|
environmental footprint |
1 |
|
environmental footprints |
1 |
|
environmental impact |
1 |
|
environmental impacts of rare earths |
1 |
|
environmental indicators |
1 |
|
environmental justice |
1 |
|
environmental kuznets curve |
1 |
|
environmental labelling |
1 |
|
environmental policy |
1 |
|
environmental pollution |
1 |
|
environmental pressure |
1 |
|
environmental responsibility |
1 |
|
environmental science |
1 |
|
environmental sustainability |
1 |
|
environmental tax |
1 |
|
environmental tax reform |
1 |
|
environmental taxation |
1 |
|
environmentally extended input-output model |
1 |
|
environmentally-extended multi-regional input–output analysis |
1 |
|
estonia |
1 |
|
extended input-output model |
1 |
|
fairtrade |
1 |
|
feedback loops |
1 |
|
firm heterogeneity |
1 |
|
food security |
1 |
|
food system |
1 |
|
food-energy-water nexus |
1 |
|
footprint analysis |
1 |
|
former soviet union |
1 |
|
forward linkage |
1 |
|
forward-linkage participation |
1 |
|
fuel cells |
1 |
|
g20 |
1 |
|
gcam |
1 |
|
geographically weighted regression model |
1 |
|
global agro-ecological model |
1 |
|
global countries |
1 |
|
global emergency events |
1 |
|
global financial crisis |
1 |
|
global land use |
1 |
|
global multi-regional input-output analysis |
1 |
|
global multiregion input-output (mrio) model |
1 |
|
global supply chain |
1 |
|
global supply chains |
1 |
|
global trade |
1 |
|
global trade patterns |
1 |
|
global value chain |
1 |
|
global value chain participation |
1 |
|
global value chains |
1 |
|
globalization |
1 |
|
globalizing air pollution |
1 |
|
granger causality test |
1 |
|
granger causality tests |
1 |
|
green growth |
1 |
|
greenhouse gas |
1 |
|
greenhouse gases |
1 |
|
greening global value chains |
1 |
|
guangdong |
1 |
|
guangdong province |
1 |
|
health benefits |
1 |
|
health impact |
1 |
|
healthy china |
1 |
|
heat wave |
1 |
|
heterogeneity |
1 |
|
hg emissions |
1 |
|
high spatial resolution inventory |
1 |
|
high-resolution water consumption dataset |
1 |
|
household |
1 |
|
household budget constraint |
1 |
|
household water footprint |
1 |
|
households |
1 |
|
human settlements |
1 |
|
hybrid approaches |
1 |
|
hybrid life-cycle analysis |
1 |
|
hydrogen |
1 |
|
impulse response function |
1 |
|
imágenes de luminosidad nocturna |
1 |
|
income distribution |
1 |
|
income level |
1 |
|
income-based co2 emission |
1 |
|
index decomposition analyses |
1 |
|
index decomposition analysis |
1 |
|
indirect export |
1 |
|
industrial ecology |
1 |
|
industrial relocation |
1 |
|
industrial transition |
1 |
|
industrial wastewater discharge intensity |
1 |
|
industry-level |
1 |
|
inequality |
1 |
|
influencing factors |
1 |
|
input-output |
1 |
|
input-output analysis (ioa) |
1 |
|
input-output model |
1 |
|
input–output analysis |
1 |
|
integrated hybrid life cycle analysis |
1 |
|
integrated water management |
1 |
|
intensidad de la emisión de co 2 |
1 |
|
interprovincial trade |
1 |
|
interregional trade |
1 |
|
ipat |
1 |
|
iron reduction |
1 |
|
irrigated cropland expansion |
1 |
|
irrigation efficiency |
1 |
|
just transition |
1 |
|
kazakhstan |
1 |
|
labor impacts |
1 |
|
land |
1 |
|
land displacement |
1 |
|
land footprint |
1 |
|
land grab |
1 |
|
land use |
1 |
|
land-based protein products (lpps) |
1 |
|
land-dependent water resources (ldw) |
1 |
|
land-use |
1 |
|
land-water nexus |
1 |
|
latin america and the caribbean |
1 |
|
latvia |
1 |
|
levy mechanisms |
1 |
|
life-cycle analysis |
1 |
|
life-cycle assessment |
1 |
|
lifestyle |
1 |
|
lifestyle change |
1 |
|
lifestyles |
1 |
|
lithuania |
1 |
|
lmdi |
1 |
|
local consumption |
1 |
|
location quotient |
1 |
|
low-income elderly |
1 |
|
lstm with attention |
1 |
|
macro-economy |
1 |
|
malnutrition |
1 |
|
mangroves |
1 |
|
mariculture products |
1 |
|
marine industries |
1 |
|
material flow analysis |
1 |
|
material footprint |
1 |
|
material price risks |
1 |
|
mechanism design |
1 |
|
merchant fleet |
1 |
|
mercury |
1 |
|
mercury emissions |
1 |
|
metal supply risk |
1 |
|
methane |
1 |
|
microbial community |
1 |
|
microbial electrolysis cell |
1 |
|
migration |
1 |
|
mitigation |
1 |
|
mitigation cost |
1 |
|
mitigation potential |
1 |
|
mn redox cycling |
1 |
|
modelado espaciotemporal |
1 |
|
mrio |
1 |
|
mrio-enhanced dpsir framework |
1 |
|
multi-criteria decision analysis (mcda) |
1 |
|
multi-region input-output analysis |
1 |
|
multi-region input–output analysis |
1 |
|
multi-regional input output model |
1 |
|
multi-regional input-output model |
1 |
|
multi-regional input-output modeling |
1 |
|
multi-regional input-output models (mrio) |
1 |
|
multi-regional input–output (mrio) analysis |
1 |
|
multi-regional input–output analysis |
1 |
|
multi-scale and multi-mechanism analysis |
1 |
|
multiregional input-output model |
1 |
|
multiregional input–output analysis |
1 |
|
multiregional input−output analysis |
1 |
|
multiregional input−output analysis (mrio) |
1 |
|
multiscale analysis |
1 |
|
multiscale geographically weighted regression |
1 |
|
national accounts |
1 |
|
natural resources |
1 |
|
ndvi |
1 |
|
negative prices |
1 |
|
nexus |
1 |
|
nitrogen footprint |
1 |
|
nitrogen removal |
1 |
|
no-trade emissions |
1 |
|
non-co2 greenhouse gas |
1 |
|
non-land-dependent water resources (nldw) |
1 |
|
nutrient density |
1 |
|
obsolete electrical and electronic equipment |
1 |
|
opportunity cost |
1 |
|
outdegree |
1 |
|
outsourcing |
1 |
|
ownership |
1 |
|
panel data model |
1 |
|
peak and decline |
1 |
|
peak oil |
1 |
|
peak prediction |
1 |
|
pearl river delta region |
1 |
|
performance measurement |
1 |
|
pharmaceuticals and personal care products |
1 |
|
photovoltaic waste |
1 |
|
physical trade flows |
1 |
|
plant role |
1 |
|
platinum |
1 |
|
pm2.5 concentrations |
1 |
|
policy sensitivity |
1 |
|
political acceptability |
1 |
|
pollution haven hypothesis |
1 |
|
pollution inequality |
1 |
|
population |
1 |
|
poverty |
1 |
|
power decarbonization |
1 |
|
power sector |
1 |
|
power transformation |
1 |
|
power transmission |
1 |
|
price floor |
1 |
|
price model |
1 |
|
price volatility |
1 |
|
process units-based bottom-up model |
1 |
|
processing trade |
1 |
|
product lifecycle assessment |
1 |
|
production sectors |
1 |
|
production-based |
1 |
|
production-based carbon emissions |
1 |
|
production-based emissions |
1 |
|
productivity |
1 |
|
prospective life cycle assessment |
1 |
|
pv spatial deployment |
1 |
|
quasi-input-output |
1 |
|
racial/ethnic disparity |
1 |
|
rainfall data |
1 |
|
rare earth resilient supply |
1 |
|
rare-earth elements |
1 |
|
raw materials |
1 |
|
re derivatives |
1 |
|
rebound effect |
1 |
|
regional attribution analysis |
1 |
|
regional inequality |
1 |
|
regional input-output tables |
1 |
|
regional variation |
1 |
|
regionalization |
1 |
|
removal mechanisms |
1 |
|
renewable energy deployment |
1 |
|
renewable subsidy |
1 |
|
resource nexus |
1 |
|
retrofitting measures |
1 |
|
ridge regression |
1 |
|
river basin |
1 |
|
rural–urban migration |
1 |
|
scarce irrigation water |
1 |
|
scarce water for energy |
1 |
|
scenario analysis |
1 |
|
sdgs |
1 |
|
so2 |
1 |
|
so2 emission intensity |
1 |
|
so2 emissions |
1 |
|
social network analysis |
1 |
|
socioeconomic characteristics |
1 |
|
socioeconomic factor |
1 |
|
socioeconomic factors |
1 |
|
solar photovoltaic technology diffusion |
1 |
|
soybean |
1 |
|
spatial carbon transfer |
1 |
|
spatial decomposition analysis |
1 |
|
spatial difference-in-differences |
1 |
|
spatial markov chains |
1 |
|
spatial non-stationarity |
1 |
|
spatial-temporal assessment |
1 |
|
spatiotemporal and econometric characteristics |
1 |
|
spatiotemporal characteristics |
1 |
|
steel |
1 |
|
stirpat model |
1 |
|
stochastic actor-oriented models |
1 |
|
structural decomposition analysis (sda) |
1 |
|
structural path analysis |
1 |
|
subsidy |
1 |
|
sugar crops |
1 |
|
supply chain |
1 |
|
supply chain disruption |
1 |
|
supply chain effects |
1 |
|
supply chains |
1 |
|
supply risk |
1 |
|
supply-chain network |
1 |
|
supply-constrained multi-regional input-output (mixed mrio) model |
1 |
|
surgical mask |
1 |
|
sustainability |
1 |
|
sustainability policies |
1 |
|
sustainable consumption |
1 |
|
sustainable consumption and production |
1 |
|
sustainable development goals |
1 |
|
sweden |
1 |
|
synergy |
1 |
|
system boundaries |
1 |
|
technological difference |
1 |
|
technology |
1 |
|
tele-connections |
1 |
|
teleconnection |
1 |
|
teleconnections |
1 |
|
telecoupling |
1 |
|
temporal and spatial decomposition |
1 |
|
texas |
1 |
|
thailand |
1 |
|
the baltic states |
1 |
|
thermal power generation |
1 |
|
thermal power plant |
1 |
|
total water footprint |
1 |
|
toxic chemical releases |
1 |
|
toxic release inventory |
1 |
|
trade |
1 |
|
trade and environment |
1 |
|
trade in value added |
1 |
|
trade networks |
1 |
|
trade restrictions |
1 |
|
trade transport |
1 |
|
trade-induced |
1 |
|
trade-induced energy inequality |
1 |
|
trade-offs |
1 |
|
trade-offs/synergies |
1 |
|
tradeoffs analysis |
1 |
|
transboundary impacts |
1 |
|
two-stage least squares method |
1 |
|
two-way fixed effect model |
1 |
|
urban carbon footprint |
1 |
|
urban mining |
1 |
|
urban planning |
1 |
|
value chain |
1 |
|
variance decomposition |
1 |
|
variance decomposition analysis |
1 |
|
virtual groundwater flows |
1 |
|
virtual surface water flows |
1 |
|
virtual water |
1 |
|
virtual water flow |
1 |
|
virtual water hypothesis |
1 |
|
waste management |
1 |
|
water |
1 |
|
water consumption |
1 |
|
water footprint |
1 |
|
water footprints |
1 |
|
water productivity |
1 |
|
water resource imbalance |
1 |
|
water resource stress |
1 |
|
water scarcity |
1 |
|
water scarcity index |
1 |
|
water stress |
1 |
|
water-biodiversity causal effect |
1 |
|
water-land nexus |
1 |
|
weee |
1 |
|
wind power |
1 |
|
wind power in china |
1 |
|
yellow river |
1 |
|
yield prediction |
1 |
