Modelling the long term dynamics of the Mara wetland (Tanzania) using a 2D-hydromorphydynamic model

Ibrahim John Migaddea; Alessandra Crosato; Francesco Bregolia; Mick van der Wegen

Modelling the long term dynamics of the Mara wetland (Tanzania) using a 2D-hydromorphydynamic model

Ibrahim John Migaddea, Alessandra Crosato, Francesco Bregolia, Mick van der Wegen

Environmental Fluid Mechanics

Research output: Contribution to conference › Abstract › Scientific

Abstract

In wetlands, water is the primary factor controlling the environment and the associated plant and animal life (Ramsar Convention Secretariat, 2006). Wetlands not only provide diverse ecosystem services but also contribute to the improvement of surface water. In tropical Africa, their supportive role has become progressively highlighted in ongoing studies, but less scientific research has been carried out as compared to other ecosystem forms and wetlands in other parts of the world (Kabii, 2017). This is largely due to the difficulty in field or insitu monitoring owed to their remote locations (Gallant, 2015), with those accessible during periods of low flow, totally cut off during high flows. The lack of timely and reliable information on the status and evolution of tropical African wetlands impedes efforts to sustainably manage and develop them.

Original language	English
Pages	69-70
Number of pages	2
Publication status	Published - 2019
Event	NCR Days 2019: Land of Rivers - Utrecht, Netherlands Duration: 31 Jan 2019 → 1 Feb 2019 https://ncr-web.org/events/17/ncr-days-2019/

Conference

Conference	NCR Days 2019
Country/Territory	Netherlands
City	Utrecht
Period	31/01/19 → 1/02/19
Internet address	https://ncr-web.org/events/17/ncr-days-2019/

Keywords

Wetland
Delft3D
Dam Operations
Suspended Sediment
Vegetation

Cite this

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title = "Modelling the long term dynamics of the Mara wetland (Tanzania) using a 2D-hydromorphydynamic model",

abstract = "In wetlands, water is the primary factor controlling the environment and the associated plant and animal life (Ramsar Convention Secretariat, 2006). Wetlands not only provide diverse ecosystem services but also contribute to the improvement of surface water. In tropical Africa, their supportive role has become progressively highlighted in ongoing studies, but less scientific research has been carried out as compared to other ecosystem forms and wetlands in other parts of the world (Kabii, 2017). This is largely due to the difficulty in field or insitu monitoring owed to their remote locations (Gallant, 2015), with those accessible during periods of low flow, totally cut off during high flows. The lack of timely and reliable information on the status and evolution of tropical African wetlands impedes efforts to sustainably manage and develop them. ",

keywords = "Wetland, Delft3D, Dam Operations, Suspended Sediment, Vegetation",

author = "Migaddea, {Ibrahim John} and Alessandra Crosato and Francesco Bregolia and {van der Wegen}, Mick",

year = "2019",

language = "English",

pages = "69--70",

note = "NCR Days 2019 : Land of Rivers ; Conference date: 31-01-2019 Through 01-02-2019",

url = "https://ncr-web.org/events/17/ncr-days-2019/",

}

TY - CONF

T1 - Modelling the long term dynamics of the Mara wetland (Tanzania) using a 2D-hydromorphydynamic model

AU - Migaddea, Ibrahim John

AU - Crosato, Alessandra

AU - Bregolia, Francesco

AU - van der Wegen, Mick

PY - 2019

Y1 - 2019

N2 - In wetlands, water is the primary factor controlling the environment and the associated plant and animal life (Ramsar Convention Secretariat, 2006). Wetlands not only provide diverse ecosystem services but also contribute to the improvement of surface water. In tropical Africa, their supportive role has become progressively highlighted in ongoing studies, but less scientific research has been carried out as compared to other ecosystem forms and wetlands in other parts of the world (Kabii, 2017). This is largely due to the difficulty in field or insitu monitoring owed to their remote locations (Gallant, 2015), with those accessible during periods of low flow, totally cut off during high flows. The lack of timely and reliable information on the status and evolution of tropical African wetlands impedes efforts to sustainably manage and develop them.

AB - In wetlands, water is the primary factor controlling the environment and the associated plant and animal life (Ramsar Convention Secretariat, 2006). Wetlands not only provide diverse ecosystem services but also contribute to the improvement of surface water. In tropical Africa, their supportive role has become progressively highlighted in ongoing studies, but less scientific research has been carried out as compared to other ecosystem forms and wetlands in other parts of the world (Kabii, 2017). This is largely due to the difficulty in field or insitu monitoring owed to their remote locations (Gallant, 2015), with those accessible during periods of low flow, totally cut off during high flows. The lack of timely and reliable information on the status and evolution of tropical African wetlands impedes efforts to sustainably manage and develop them.

KW - Wetland

KW - Delft3D

KW - Dam Operations

KW - Suspended Sediment

KW - Vegetation

M3 - Abstract

SP - 69

EP - 70

T2 - NCR Days 2019

Y2 - 31 January 2019 through 1 February 2019

ER -

Modelling the long term dynamics of the Mara wetland (Tanzania) using a 2D-hydromorphydynamic model

Abstract

Conference

Keywords

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Cite this