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Model
GBR Dynamic Sednet
QUAL2K
EFDC
HSPF
MIKE HYDRO River
NDP
SWMM
RGWLF
AGNPS
DLEM
ELEMeNT-N
AVGWLF
GSSHA
SWAT
SWAT+
CBP-WSM
THMB
MapShed
FVCOM
EcoHAT
PDP
AGNPS-VSA
QUAL2Kw
MIKE21
GPUOM-WQ
PCSWMM
L-THIA
SWAT - MODFLOW
MIKE SHE
WEP-N
MIKE11
InfoWorks ICM
TETIS - N
WAM
WEPP-WQ
DHSVM
DYRESM�CAEDYM
GLM
SWAT-MODFLOW-RT3D
WARMF
APEX
Mike Basin
CE-QUAL-W2
SimplyP
SEAWAT-MODFLOW
GWLF
AnnAGNPS
Delft3D FM
INCA
MIKE 21 FM
LSPC
PCLake
InVEST
GBNP
SUSTAIN
SSHBS
Delft3D
WASP8
Water Body Type
Water body
Watershed
Location
Florida
Chesapeake Bay Watershed
The Great Barrier Reef
Other
Watershed Size
Small
Medium
Large
Predominant Land Use
Forest
Urban
Agricultural
Water Body Characteristics
Lakes
Estuarine
Coastal
Oceans
Rivers
Streams
Reservoirs
Water Body Size
Small
Medium
Large
Dimensions
1D
3D
2D
Simulation Type
Continuous model
Event-based model
Parameters
Phosphorus
DO
Flow Velocity
Water Levels
Reservoir Operations
TDS
Salinity
Q
Nitrogen
Algae
TSS
Temperature
Sediment Transport
Waves
Chla
TP
TN
Time Step
Annual
Daily
Monthly
Sub-daily
Minutes
Hours
Seconds
Model Complexity
Complex
Medium
Simple
Simulation Objectives
Managing nutrient fluxes in polders
Model nitrogen dynamics
evaluate combined and sanitary sewer overflows
Assess natural and human impacts on water quality
BMP locations
BMP Evaluations
Extreme events evaluation
Water resource management
Evaluate Water body Hydrodynamics
evaluate green infrastructure implementation
Assessing agricultural phosphorus loss
Climate Change Studies
flood control
Wave-Current Interaction
Large-scale hydrologic modeling
Reservoir management
NPS nutrient loads evaluation
modeling of complex domains
Holistic Simulation
Evaluate nitrogen loads in cold regions
Evaluate groundwater nutrient dynamics
assess the effects of land use change
Urban stormwater management
assess sediment and nutrient transport
Watershed management
TMDL development
flood and drought management
Ecosystem Assessments
Manage eutrophication and algal blooms
evaluate water quality improvement
Assess nutrient and carbon fluxes
hydropower optimization
Erosion analysis
Understand hydrology in snow regions
Assessment of Storm events
Identify Priority Management Areas
Assess hydrology-biogeochemistry in streams
simulate watersheds with variable source areas
Screening Simulation
Support navigation
Storm Surge analysis
Data Requirements
Specific yield
Wind
LULC
DO
Sewer networks
Wind Speed
Stream network
Geomorphic parameters
ET
N surplus
Precipitation
Relative humidity
Flow
DEM
River reach characteristics
Specific storage
Algae
Temperature
Wind speed
Solar radiation
Porosity
Bathymetric data
Hydraulic conductivity
Soil
Sediment characteristics
Hydraulic data
Water quality
Model Availability
Closed source
Open source
Model Limitations
Requires numerous parameters and complex calibration
Limited for hydrological impacts of climate change
Limited applications in the USA
Temporally lumped
Not suitable for shallow systems
Poor simulation of extreme events
GUI is not open source
Simplified hydraulic processes
Simplified hydrological processes
Dependent on Input Data
Does not simulate large watersheds
Model Expertise
Extensive datasets
Limited to cold regions
Dependent on input data
Topography data may require preprocessing
Simplified floodplain dynamics
Simplified vertical stratification
Does not simulate P
Limited to main stream simulation
Inaccurate long-term projections
Simplified biogeochemical processes
Limited hydrodynamics
High uncertainty
Does not incorporate Zooplankton
Sensitive to specific input parameters
Limitations in model robustness and flexibility
Can not be coupled with optimization algorithm
Coarse spatial resolution
Limited applications in urban watersheds
Poor sediment simulation
Limited to small stream networks
Point source loads have constant rates
Does not simulate N
Accuracy decreases with higher trophic levels
Limited applications in subtropical regions
Limited to polder systems
Does not model BMP properties
Limited to urban watersheds
Limitations in storm sewer pipes simulation and calibration
Poor groundwater simulation
Model expertise
Limited developer and community support
Assumes horizontal homogeneity
Manual calibration
Not user friendly
Requires high computational resources
Does not consider specific algae species
Limited land cover dynamics
Model Library
Model library serves as a comprehensive reference guide for various watershed and waterbody simulation models. It provides detailed descriptions of each model’s type, developers, capabilities, limitations, computational requirements, and data inputs and outputs. The aim is to assist researchers, policymakers, and practitioners in selecting the most suitable modeling tools for their specific application. Each model entry includes links to download resources if it is open-source, relevant references, and examples of practical applications to further support users in making informed decisions. For more details see Model Library .
Model
Watershed Size
Predominant Land Use
Simulation Objectives