INIS
accumulation
19%
additives
11%
asymmetry
9%
atmospherics
8%
capture
11%
chile
10%
china
25%
climate models
13%
climates
38%
comparative evaluations
10%
connections
11%
corrections
17%
coupling
12%
data
14%
decay
10%
distribution
27%
dynamics
12%
environment
11%
expansion
12%
feedback
9%
global warming
14%
growth
13%
metrics
17%
modeling
15%
modifications
12%
moisture
11%
nickel oxides
53%
noise
17%
oceans
17%
oscillations
10%
perturbation theory
19%
power
11%
precipitation
100%
probability
26%
risks
13%
scaling
8%
scattering lengths
8%
seas
22%
seasons
20%
shape
9%
simulation
10%
size
9%
southern oscillation
22%
stochastic processes
12%
strong-coupling model
8%
surfaces
20%
usa
8%
values
12%
width
10%
wind
14%
Keyphrases
Adler Function
12%
Clausius-Clapeyron Equation
10%
Climate Models
10%
Continental China
10%
Coupled Model Intercomparison Project Phase 6 (CMIP6)
15%
Current Climate
18%
Daily Precipitation
25%
Decay Width
12%
Derivative Expansion
12%
El Nio
44%
Extreme Events
11%
Extreme Precipitation
21%
Extreme Precipitation Events
12%
Gamma Distribution
8%
Global Warming
14%
Henan Province
17%
High Risk
8%
Inactive Period
8%
Linear Inverse Model
12%
Linear sigma Model
8%
Mass Scale
12%
Mean State
17%
Meridional Mode
8%
Mode Structure
8%
Model Bias
10%
Moisture Transport
8%
North China
18%
Pacific Meridional Mode
10%
Perturbation Theory
17%
Power Law
11%
Precipitation Accumulation
18%
Precipitation Distribution
11%
Precipitation Extremes
32%
Precipitation Intensity
13%
Precipitation Probability Distributions
13%
Probability of Precipitation
10%
Risk Increase
8%
Risk Ratio
12%
Scattering Length
8%
Semihadronic τ Decays
12%
South Pacific Meridional Mode
10%
Southern Oscillation
21%
Spatiotemporal Characteristics
8%
State-dependent Noise
8%
Stochastic Forcing
8%
Thermal Correction
8%
Tropical Pacific Decadal Variability
8%
United States
8%
Warm Season
17%
τ Mass
12%
Earth and Planetary Sciences
Atmospheric River
8%
Chile
11%
China
25%
Climate Change
8%
Climate Modeling
37%
CMIP
24%
Convective System
8%
Coupled Model Intercomparison Project Phase 6
18%
Cyclones
8%
Ecuador
8%
Emissions
8%
Extreme Event
17%
Global Climate
7%
Global Warming
19%
Heat Wave
12%
Linear Systems
8%
Low Pressure System
8%
Marine Heatwave
8%
North Pacific
10%
Northern Hemisphere
9%
Peru
8%
Power Law
21%
Precipitation Intensity
12%
Regional Climate
8%
Return Period
8%
Sea Surface Temperature
32%
South America
8%
South Pacific
17%
Southern Oscillation
24%
Thermocline
5%
TRMM
5%
United States
8%
Water Temperature
8%
Weather Stations
8%
Zonal Wind
8%