PR 00035: verschil tussen versies

(Nieuwe pagina aangemaakt met ' {{Project config}} {{Project |Supercontext=Building with Nature |Project type=Standaard |Name=MORPHOLOGICAL DEVELOPMENT OF PERKPOLDER TIDAL BASIN |Start date=2016/...')
 
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The Dutch waters, including the delta areas, are almost two thirds of the Natura 2000 areas. These are important resting and foraging areas for migratory birds. And, also, represent important breeding habitats for coastal birds. For an effective management of these areas the monitoring, including estuarine dynamics, in the delta management cycle is of great importance. These monitoring activities also offer the opportunity to adjust system designs and / or system interventions (in time) for local managers.


Project monitoring uses conventional measuring techniques that are often labor-intensive and therefore costly. The aim of this project is to investigate whether monitoring nature conservation projects can be more efficient. The key question is whether by using new measurement techniques more or different types of data can be collected at lower costs, over larger areas and with better temporal resolutions. Getting at the same time a more effective monitoring and, more importantly, a better system understanding.
'''Research type:''' field research, desk analysis
'''Research level:''' project level, e.g. Water management students and/or Civil engineering students; minor, internship or graduation bachelor thesis project.
'''Prerequisite:''' e.g. Driver’s License, interest in ecology, morphology and GIS. MATlab or Python is a plus
'''Partners:''' NIOZ, WMR
'''Client:''' João (J.N. Salvador de Paiva)
{{Project config}}
{{Project config}}
{{Project
{{Project
|Supercontext=Building with Nature
|Name=Innovative monitoring of estuarine dynamics
|Project type=Standaard
|Supercontext=PR_00151
|Name=MORPHOLOGICAL DEVELOPMENT OF PERKPOLDER TIDAL BASIN
|Start date=2019/09/01
|Start date=2016/08/01
|End date=2020/02/01
|End date=2017/02/01
|Summary=Understanding if innovative measuring techniques can be more efficient than traditional monitoring techniques on intertidal areas
|Summary=Since the termination of the ferry service between Perkpolder (Zeeuws Vlaanderen) and Kruiningen in 2003 the area needed a new destination. In close cooperation with stakeholders a new plan was developed which combines, housing, recreation and the development of a salt march (www.perkpolder.nl). For the development of this salt march a freshwater agricultural area is now connected to the Western Scheldt, since July 2015.
 
Research type: field research, desk analysis


Research type: field research, deskwork (GIS, Excel) Research
Research level: minor, internship or graduation bachelor thesis project.
level: bachelor internship, minor research
Prerequisite: interest in morphology and geology or fluid dynamics
Partners: Rijkswaterstaat Zee en Delta, Deltares
Client: Matthijs Boersema


The salt water from the Western Scheldt will flow through an opening in the dyke. The morphological dynamics of this inlet (or breach in the dyke) will depend on the flow velocity, size of the salt march area, tidal range and the present type of material (sand and clay). In this study you will monitor the development of the inlet, which will give Rijkswaterstaat important information concerning the stability of the dyke. Furthermore you will investigate the morphological development (height levels) of the Perkpolder basin, based on field measurements of sediment thickness, and sediment concentrations in the water column.
Prerequisite: Driver’s License, interest in ecology, morphology and GIS.
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Huidige versie van 18 mrt 2020 om 17:03

The Dutch waters, including the delta areas, are almost two thirds of the Natura 2000 areas. These are important resting and foraging areas for migratory birds. And, also, represent important breeding habitats for coastal birds. For an effective management of these areas the monitoring, including estuarine dynamics, in the delta management cycle is of great importance. These monitoring activities also offer the opportunity to adjust system designs and / or system interventions (in time) for local managers.

Project monitoring uses conventional measuring techniques that are often labor-intensive and therefore costly. The aim of this project is to investigate whether monitoring nature conservation projects can be more efficient. The key question is whether by using new measurement techniques more or different types of data can be collected at lower costs, over larger areas and with better temporal resolutions. Getting at the same time a more effective monitoring and, more importantly, a better system understanding.

Research type: field research, desk analysis

Research level: project level, e.g. Water management students and/or Civil engineering students; minor, internship or graduation bachelor thesis project.

Prerequisite: e.g. Driver’s License, interest in ecology, morphology and GIS. MATlab or Python is a plus

Partners: NIOZ, WMR

Client: João (J.N. Salvador de Paiva)



























Understanding if innovative measuring techniques can be more efficient than traditional monitoring techniques on intertidal areas

Research type: field research, desk analysis

Research level: minor, internship or graduation bachelor thesis project.

Prerequisite: Driver’s License, interest in ecology, morphology and GIS.

Startdatum
september 1, 2019
Einddatum
februari 1, 2020





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