GroMoPo Metadata for NW Bangladesh MODFLOW model

Authors:

GroMoPo Sacha Ruzzante

Owners:

gromopo_admin

Type:

Resource

Storage:

The size of this resource is 1.5 KB

Created:

Feb 08, 2023 at 3:56 p.m.

Last updated:

Feb 08, 2023 at 3:57 p.m.

Citation:

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Abstract

We present a general and flexible Bayesian approach using uncertainty multipliers to simultaneously analyze the input and parameter uncertainty of a groundwater flow model with consideration of the heteroscedasticity of the groundwater level error. Groundwater recharge and groundwater abstraction multipliers are introduced to quantify the uncertainty of the spatially distributed input data of the groundwater model in addition to parameter uncertainty. The heteroscedasticity of the groundwater level error is also considered in our Bayesian approach by incorporating a new heteroscedastic error model. The proposed methodology is applied in an overexploited aquifer in Bangladesh where groundwater abstraction and recharge data are highly uncertain. The results of the study confirm that consideration of recharge and abstraction uncertainty through the use of recharge and abstraction multipliers is feasible even in a fully distributed physically based groundwater flow model. Heteroscedasticity is present in the groundwater level error and has an effect on the model predictions and parameter distributions. The input uncertainty affects the model predictions and parameter distributions and it is the dominant source of uncertainty in the groundwater flow prediction. Additionally, the approach described also provides a new way to optimize the spatially distributed recharge and abstraction data along with the parameter values under uncertain input conditions. We conclude that considering model input uncertainty along with parameter uncertainty and heteroscedasticity of the groundwater level error is important for obtaining realistic model predictions and a correct estimation of the uncertainty bounds.

Subject Keywords

Coverage

Spatial

Coordinate System/Geographic Projection:

WGS 84 EPSG:4326

Coordinate Units:

Decimal degrees

Place/Area Name:

Bangladesh

North Latitude

25.1300°

East Longitude

89.3000°

South Latitude

24.3000°

West Longitude

88.2800°

Streets Terrain Satelite

Spatial Extent

Content

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Additional Metadata

Name	Value
DOI	10.1029/2017WR021857
Depth
Scale	1 001 - 10 000 kmÂ²
Layers	1
Purpose	Scientific investigation (not related to applied problem)
GroMoPo_ID	331
IsVerified	True
Model Code	MODFLOW
Model Link	https://doi.org/10.1029/2017WR021857
Model Time	1990-2000
Model Year	2018
Model Authors	Mustafa, SMT; Nossent, J; Ghysels, G; Huysmans, M
Model Country	Bangladesh
Data Available	Report/paper only
Developer Email	syed.mustafa@vub.be
Dominant Geology	Unconsolidated sediments
Developer Country	Belgium
Publication Title	Estimation and Impact Assessment of Input and Parameter Uncertainty in Predicting Groundwater Flow With a Fully Distributed Model
Original Developer	No
Additional Information
Integration or Coupling	None of the above
Evaluation or Calibration	Dynamic water levels
Geologic Data Availability	No

How to Cite

GroMoPo, S. Ruzzante (2023). GroMoPo Metadata for NW Bangladesh MODFLOW model, HydroShare, http://www.hydroshare.org/resource/c85c542fbb784e988ca43d7b33cf6650

This resource is shared under the Creative Commons Attribution CC BY.

http://creativecommons.org/licenses/by/4.0/

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