|
groundwater |
6 |
|
flow regime |
4 |
|
radon-222 |
4 |
|
rock fracture |
4 |
|
solute transport |
4 |
|
submarine groundwater discharge |
4 |
|
ammonium oxidation bacteria (aob) |
3 |
|
ammonium oxidizing archaea (aoa) |
3 |
|
anammox |
3 |
|
aquitard |
3 |
|
coastal upwelling |
3 |
|
hydrodynamics |
3 |
|
mass balance model |
3 |
|
224ra |
2 |
|
224ra/228th disequilibrium |
2 |
|
a priori information |
2 |
|
algal biomass |
2 |
|
algal bloom |
2 |
|
algal blooms |
2 |
|
ammonium |
2 |
|
biogeochemistry |
2 |
|
bioturbation |
2 |
|
bohai sea |
2 |
|
boron isotopes |
2 |
|
c-n biogeochemical processes |
2 |
|
c-q relation |
2 |
|
carbon flux |
2 |
|
carbon isotope |
2 |
|
climatological parameters |
2 |
|
coastal groundwater |
2 |
|
coastal groundwater mixing zone |
2 |
|
contaminant transport |
2 |
|
critical zone |
2 |
|
data assimilation |
2 |
|
deep learning |
2 |
|
density-driven flow |
2 |
|
density‐dependent flow |
2 |
|
desert |
2 |
|
desert lake catchment |
2 |
|
desert saline lake |
2 |
|
direct prediction |
2 |
|
dissolved inorganic carbon |
2 |
|
dissolved inorganic carbon (dic) |
2 |
|
drought |
2 |
|
e.coli |
2 |
|
eastern hainan shelf |
2 |
|
eddy diffusion coefficient |
2 |
|
eddy zone |
2 |
|
effective surface areas |
2 |
|
enhanced geothermal system |
2 |
|
enso |
2 |
|
equilibrium model |
2 |
|
estuary |
2 |
|
eutrophic lakes |
2 |
|
eutrophication |
2 |
|
flood events |
2 |
|
forward modeling |
2 |
|
fracture inversion |
2 |
|
generative adversarial network |
2 |
|
geochemical reactions |
2 |
|
geometric heterogeneity |
2 |
|
geometry-based prediction |
2 |
|
geotracer models |
2 |
|
grace |
2 |
|
greenhouse gas emissions |
2 |
|
groundwater borne nutrients |
2 |
|
groundwater discharge |
2 |
|
groundwater flow - measurement |
2 |
|
groundwater flow systems |
2 |
|
groundwater level oscillation |
2 |
|
groundwater management |
2 |
|
health risk assessment |
2 |
|
heavy metals |
2 |
|
hydrologic partition |
2 |
|
hypoxia |
2 |
|
indian summer monsoon |
2 |
|
intertidal aquifer |
2 |
|
inverse geochemical modelling |
2 |
|
lacustrine groundwater discharge |
2 |
|
lacustrine groundwater discharge (lgd) |
2 |
|
laizhou bay |
2 |
|
lake water |
2 |
|
lakebed diffusion |
2 |
|
large shallow lake |
2 |
|
leakage correction |
2 |
|
linshui river |
2 |
|
local groundwater flow |
2 |
|
mascon |
2 |
|
mean transit time |
2 |
|
microbial community |
2 |
|
moisture source |
2 |
|
mountain block recharge |
2 |
|
multilevel monitoring |
2 |
|
new production |
2 |
|
nutrient dynamics |
2 |
|
nutrient loadings |
2 |
|
nutrients |
2 |
|
pacific decadal oscillation |
2 |
|
paleoelevation |
2 |
|
phosphate |
2 |
|
phosphate limited embayment |
2 |
|
phytoplankton community structure |
2 |
|
precipitation |
2 |
|
primary production |
2 |
|
qinghai lake |
2 |
|
radionuclide reactive transport model |
2 |
|
radium |
2 |
|
radium isotope |
2 |
|
radium isotopes |
2 |
|
radium mass balance model |
2 |
|
radon |
2 |
|
reactive transport |
2 |
|
reactive transport model |
2 |
|
red tide outbreaks |
2 |
|
redox conditions |
2 |
|
remote sensing |
2 |
|
river water |
2 |
|
roughness |
2 |
|
saline water downward intrusion |
2 |
|
sediment release |
2 |
|
sediments |
2 |
|
sediment–water interface |
2 |
|
sgd |
2 |
|
short-lived radium isotopes |
2 |
|
solute export regime |
2 |
|
southwest china |
2 |
|
spherical harmonics |
2 |
|
stable isotopic buildup model |
2 |
|
submarine groundwater discharge (sgd) |
2 |
|
subterranean estuary |
2 |
|
terrestrial groundwater discharge |
2 |
|
the badain jaran desert |
2 |
|
the lakes of the badain jaran desert (bjd) |
2 |
|
the large river delta-front estuary (lde) of pearl river |
2 |
|
the water–air piston velocity |
2 |
|
tibetan plateau |
2 |
|
tidal fluctuation |
2 |
|
topography controlled aquifer |
2 |
|
trace elements |
2 |
|
trace metals |
2 |
|
uranium mining |
2 |
|
variational auto-encoder |
2 |
|
water balance |
2 |
|
water column stability |
2 |
|
water level and quality |
2 |
|
water residence time |
2 |
|
222rn |
1 |
|
acid mine drainage |
1 |
|
analogue experiments and scaling arguments |
1 |
|
bio-indicator |
1 |
|
biogeochemical reaction |
1 |
|
china |
1 |
|
co-precipitation |
1 |
|
cross-scale discontinuities |
1 |
|
da qaidam lake |
1 |
|
differential evolution |
1 |
|
dual isotopes of nitrate |
1 |
|
ecosystem function |
1 |
|
eddy |
1 |
|
evolving mechanisms |
1 |
|
freshwater management |
1 |
|
habitat restoration |
1 |
|
heavy metal pollution |
1 |
|
hydrothermal groundwater |
1 |
|
in-situ monitoring |
1 |
|
jet |
1 |
|
joint optimization |
1 |
|
leaf litter breakdown |
1 |
|
lithium and boron resource |
1 |
|
macroinvertebrate community compositions |
1 |
|
monitoring |
1 |
|
mountain mining area |
1 |
|
natural and industrial hydrofracturing |
1 |
|
numerical simulation |
1 |
|
phytoplankton size structure |
1 |
|
probabilistic neural network |
1 |
|
radial basis function |
1 |
|
river ecosystem |
1 |
|
river ecosystems |
1 |
|
river plume |
1 |
|
surrogate |
1 |
|
well-placement optimization |
1 |
|
zhejiang province |
1 |
