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| At three locations in the Westerschelde estuary (Baalhoek, Knuitershoek and Perkpolder) experiments have been carried out with innovative measuring techniques to gain a better understanding of factors that influence the functioning of tidal ecosystems. Data from nine key parameters were collected: (1) bird numbers, (2) benthos as bird food, (3) benthos as bioturbator, (4) medium-scale morphology, (5) large-scale morphology, (6) short-term (daily) changes in sediment height, (7) soil density, (8) hydrodynamics: currents / waves and (9) sediment concentrations in water. | | At three locations in the Westerschelde estuary (Baalhoek, Knuitershoek and Perkpolder) experiments have been carried out with innovative measuring techniques to gain a better understanding of factors that influence the functioning of tidal ecosystems. Data from nine key parameters were collected: (1) bird numbers, (2) benthos as bird food, (3) benthos as bioturbator, (4) medium-scale morphology, (5) large-scale morphology, (6) short-term (daily) changes in sediment height, (7) soil density, (8) hydrodynamics: currents / waves and (9) sediment concentrations in water. |
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Versie van 11 nov 2020 14:32
D-GPS measurements (traditional method for determining sediment height) taken in the field by students.
The Netherlands has laid down guidelines for nature conservation and biodiversity in the Natura2000 Management Plan for Delta Waters. The Dutch waters and delta areas make up two-thirds of the Natura2000 areas and form an important habitat for coastal breeding birds and are indispensable for migratory birds as a resting area and place to forage. For nature management to be more effective, monitoring the dynamics of estuarine nature in the delta management cycle is of great importance. It offers public professionals the opportunity to adapt system designs and/or system interventions.
For project monitoring conventional measuring techniques are used which are often labour-intensive and therefore costly. The aim of this project is to investigate whether monitoring nature restoration projects can be made more efficient. The key question is whether the use of new measuring techniques will enable more or different types of data to be collected at lower cost, over larger areas and with better temporal resolutions. In other words, more understanding of the system.
At three locations in the Westerschelde estuary (Baalhoek, Knuitershoek and Perkpolder) experiments have been carried out with innovative measuring techniques to gain a better understanding of factors that influence the functioning of tidal ecosystems. Data from nine key parameters were collected: (1) bird numbers, (2) benthos as bird food, (3) benthos as bioturbator, (4) medium-scale morphology, (5) large-scale morphology, (6) short-term (daily) changes in sediment height, (7) soil density, (8) hydrodynamics: currents / waves and (9) sediment concentrations in water.
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| Pagina naam | Titel | Auteur(s) | Datum |
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20180430 Paper Aesop FRAMES.pdf | Bestand:20180430 Paper Aesop FRAMES.pdf | Adaptive planning for flood resilient areas: dealing with complexity in decision-making about multilayered flood risk management | Buijs, J-M., Boelens, L., Bormann, H., Restemeyer, B., Terpstra, T. | januari 1, 2018 |
DK 050 Projectvoorstel LCHT final V3 bvs mve 210617.pdf | Bestand:DK 050 Projectvoorstel LCHT final V3 bvs mve 210617.pdf | Projectvoorstel RAAK Publiek Low cost monitoren met high tech innovatoren | Anonymous | juni 22, 2017 |
Factsheet Acoustic sensor morphology.docx | Bestand:Factsheet Acoustic sensor morphology.docx | Factsheet Acoustic Sensor | J. Salvador de Paiva | januari 29, 2021 |
Factsheet DGPS leveling morphology.docx | Bestand:Factsheet DGPS leveling morphology.docx | Factsheet DGPS-RTK | J. Salvador de Paiva | januari 29, 2021 |
Factsheet Electro-resistivity sensor morphology.docx | Bestand:Factsheet Electro-resistivity sensor morphology.docx | Factsheet Electro-resistivity sensor | J. Salvador de Paiva | januari 29, 2021 |
Factsheet PEEP morphology.docx | Bestand:Factsheet PEEP morphology.docx | Factsheet PEEP | J. Salvador de Paiva | januari 29, 2021 |
Factsheet SED sensor morphology.docx | Bestand:Factsheet SED sensor morphology.docx | Factsheet Sediment (SED) sensor | J. Salvador de Paiva | januari 29, 2021 |
Factsheet SFM morphology.docx | Bestand:Factsheet SFM morphology.docx | Factsheet SFM Morphology | J. Salvador de Paiva | januari 29, 2021 |
Factsheet airborne LIDAR morphology.docx | Bestand:Factsheet airborne LIDAR morphology.docx | Factsheet Airborne LIDAR | J. Salvador de Paiva | januari 29, 2021 |
Factsheet erosion pin2 morphology.docx | Bestand:Factsheet erosion pin2 morphology.docx | Factsheet Erosion pin | J. Salvador de Paiva | januari 29, 2021 |
Factsheet telescope.docx | Bestand:Factsheet telescope.docx | Factsheet Telescope | J. Salvador de Paiva | januari 29, 2021 |
Factsheet wild camera.docx | Bestand:Factsheet wild camera.docx | Factsheet Wild Camera | J. Salvador de Paiva | januari 29, 2021 |
FinalPres InternshipInTheUnderwaterLab 24.06.2021.pdf | Bestand:FinalPres InternshipInTheUnderwaterLab 24.06.2021.pdf | Innovative monitoring of subtidal environment in the UnderwaterLab | Tim van Oijen | mei 31, 2021 |
LCHT Onderwaterlab Tim van Oijen.pdf | Bestand:LCHT Onderwaterlab Tim van Oijen.pdf | LCHT final symposium subtidal Tim van Oijen | Tim van Oijen | mei 31, 2021 |
LCHT intro Tjeerd Bouma.pdf | Bestand:LCHT intro Tjeerd Bouma.pdf | LCHT Project Introduction by lector Tjeerd Bouma | Tjeerd Bouma | mei 31, 2021 |
LCHT presentation Joao.pdf | Bestand:LCHT presentation Joao.pdf | LCHT presentation techniques intertidal Joao | J. Salvador de Paiva | mei 31, 2021 |
Resource Hyperlink 00704 | Resource Hyperlink 00704 | João Salvador de Paiva | João Salvador de Paiva | maart 24, 2020 |
Resource Hyperlink 00818 | Resource Hyperlink 00818 | Website NV Economisch Impuls Zeeland | Impuls Zeeland | oktober 9, 2020 |
Resource Hyperlink 00825 | Resource Hyperlink 00825 | Introducing IUCN red list | Birdlife International | september 8, 2010 |
Resource Hyperlink 00826 | Resource Hyperlink 00826 | Natura 2000 | European Commission | augustus 27, 2020 |
Resource Hyperlink 00827 | Resource Hyperlink 00827 | Into the Okavango | National Geograpic | april 22, 2018 |
Resource Hyperlink 00828 | Resource Hyperlink 00828 | Will drones reduce investigator disturbance to surface-nesting seabirds? | Borelle and Fletcher | maart 7, 2017 |
Resource Hyperlink 00831 | Resource Hyperlink 00831 | Fine‐scale bird monitoring from light unmanned aircraft systems | Sarda Palomera et al. | november 7, 2011 |
Resource Hyperlink 00832 | Resource Hyperlink 00832 | Unmanned aircraft systems to unravel spatial and temporal factors affecting dynamics of colony formation and nesting success in birds | Sardà-Palomera et al. | mei 30, 2017 |
Resource Hyperlink 00833 | Resource Hyperlink 00833 | Population Census of a Large Common Tern Colony with a Small Unmanned Aircraft | Chabot et al. | april 15, 2015 |
Resource Hyperlink 00834 | Resource Hyperlink 00834 | Environmental Reviews and Case Studies: Applications of Unmanned Aircraft Systems (UAS) for Waterbird Surveys | Dulava et al. | februari 16, 2015 |
Resource Hyperlink 00835 | Resource Hyperlink 00835 | A small unmanned aerial system for estimating abundance and size of Antarctic predators | Goebel et al. | februari 8, 2015 |
Resource Hyperlink 00836 | Resource Hyperlink 00836 | A protocol for the aerial survey of penguin colonies using UAVs | Ratcliffe et al | maart 31, 2015 |
Resource Hyperlink 00837 | Resource Hyperlink 00837 | Measuring the influence of unmanned aerial vehicles on Adélie penguins | Rümmler et al | november 26, 2015 |
Resource Hyperlink 00838 | Resource Hyperlink 00838 | Evaluation of an off-the-shelf Unmanned Aircraft System for Surveying Flocks of Geese | Chabot and Bird | maart 1, 2012 |
Resource Hyperlink 00924 | Resource Hyperlink 00924 | Onderzoeksverantwoording ZBpanel (2017) | ZB | mei 19, 2021 |
Resource Hyperlink 00973 | Resource Hyperlink 00973 | LCHT Final Symposium | J. Salvador de Paiva | mei 31, 2021 |