Dutch title: Hogere trofische niveaus in de Zuidelijke Noordzee (TROPHOS) Parent project: Research action SPSD-II: Second scientific support plan for a sustainable development policy, more Funder identifier: EV/25 (Other contract id) Acronym: TROPHOS Period: February 2002 till April 2006 Status: Completed
Flemish Government; Policy Domain Environment; Research Institute for Nature and Forest (INBO), more, partner
Van Waeyenberge, Jeroen
Katholieke Universiteit Leuven; Department of Biology; Systematics and Ecology of Animals Section; Laboratory of Animal Diversity and Systematics, partner
Royal Belgian Institute of Natural Sciences; Operational Direction Natural Environment; Management Unit of the North Sea Mathematical Models (BMM), more, partner
Pichot, Georges
Abstract
Context
TROPHOS is a co-operation between five Belgian institutes (RUG-Marine Biology, KULeuven-Aquatic Ecology, Institute of Nature Conservation, MUMM and VLIZ) and one Dutch institute (NIOO-CEMO) and aims at a better understanding of processes structuring the higher trophic levels in the North Sea. As we will not ignore the link between ecosystem functioning and aquatic biodiversity, our results will also serve in aspects of sustainable management for those areas on the Belgian Continental Shelf (BCS) of the North Sea, which fulfil the criteria for protection status in marine reserves.
Project description
Objectives
Research within TROPHOS will focus on processes structuring the higher trophic levels in the North Sea ecosystem. Special attention will be given to:
- The food web interactions that shape the benthic communities. This will make it possible to unravel how food cascades into animal biomass. Detailed research on C-cycling within the benthic food web will be performed.
- The dispersal mechanisms on the BCS. This is mainly of importance for those species that have a pelagic life-style or have pelagic larvae. The impact of certain behavioural aspects (swimming, sinking,...) on the dispersal will be investigated as well.
- The importance of the benthic communities in the functioning of the total BCS ecosystem. It will be examined whether or not Phaeocystis can be used as a food source by the infauna of the benthos. In addition, sediment community oxygen consumption rates that will be performed in BCS sediments will shed light on total benthic metabolism.
- The Belgian coastal waters are internationally very important areas for a number of sea and coastal birds. Studying the distribution patterns of the possible food sources (i.c. pelagic fish) of these birds will lead to a better understanding of their spatial distribution patterns. Population dynamics of gulls and terns in the outer harbour of Zeebrugge will be studied as well.
Methodology
- Food web interactions: This task will be executed by RUG-Marine Biology Section and NIOO-CEMO and is focussed on meiobenthos. Monthly sampling of two stations, showing a clearly different food web structure, will allow describing changes in the composition and densities of the meiobenthos when changes in the primary production in the water column will occur. The primary production will sink to the sea floor and acts as an important food source for the benthos. Possible consumption of phytoplankton can be studied by comparing the natural occurring stable isotopes of the meiobenthos with those present in the phytoplankton. Changes in bacterial diversity will be assessed by means of DGGE. The benthic response to the sedimentation of the spring phytoplankton bloom will be evaluated trough experiments with enriched and labelled (stable isotopes 13C and 15N) phytoplankton. Benthic food web flows and the benthic contribution to the metabolism of the ecosystem will be inferred from inverse modelling.
- Dispersal mechanisms of key species: This part of TROPHOS will be performed by KULeuven, RUG and MUMM. Larvae and post larvae of fish and Mesopodopsis, sole and gobies will be sampled using the appropriate sampling gear. Population-specific life history characteristics (e.g. fertility, survival, growth...) will be collected. Genotyping will be done with at least 8 DNA microsatellites per fish (KULeuven) or with SSCP combined with sequencing of variable nuclear and mitochondrial loci (Mesopodopsis (RUG) and Gyrodactylus (KULeuven)). The behaviour of the planktonic stages of the fishes and Mesopodopsis will be modelled with a combined 3-D hydrodynamic and particle tracking model by MUMM.
- Coastal and sea birds: This part of TROPHOS will be a combined effort of RUG and IN. Pelagic fish will be collected monthly at 7 locations on the BCS by means of a MIC-net at the surface and near the bottom. Frequency of sampling will be diminished towards the end of the project. Species composition, length distribution, abundance, zooplankton density and a number of environmental variables will be measured. Distribution patterns of Common Tern, Sandwich Tern, Auk, Common Guillemot and Great Crested Grebe will be compared with the horizontal distribution of their prey fish. An analysis of the content of the stomach will be performed on fresh corpses of Guillemot, Auk and Great Crested Grebes found during beach bird surveys along the coast and birds accidentally caught in fishing nets. Population size of seabirds nesting in Zeebrugge will be determined. Laying date, clutch size, predation rate, hatching success, chick growth and survival will be measured. Nest attendance and prey specific foraging time will be established. Food intake and diet composition of Sandwich and Common Tern chicks will be measured from a hide. Food composition of adult terns will be identified by means of otholits and other food remains found in faeces and pellets. Variation in food composition will be compared to fluctuations in food availability. Reading of ringed Sandwich Tern, Common Tern, Herring Gull and Lesser Black-backed Gull will be analysed and migration between colonies will be assessed.
Interaction between the different partners
Strong interactions between the various partners in this project are foreseen. The bentho-pelagic coupling theme will be a result of a strong co-operation between RUG and CEMO, while VLIZ offers ship time on their research vessel Zeeleeuw. Sampling campaigns will be a joint effort and researchers belonging to both institutes will conduct the experiments. KULeuven and RUG will work together on the theme covering the dispersal mechanisms of species having pelagic life stages. These mechanisms will be modelled as a result of collaboration between the KULeuven and RUG teams and the modellers at MUMM. IN and RUG will be the partners tackling the problems relating to the causal aspects of the distribution of seabirds: RUG will work on the pelagic fish data, while bird data will be analysed at IN.
Data management and dissemination of results: VLIZ will be responsible for the data management, valorisation and exploitation. By developing databases and websites, data gathered in the framework of TROPHOS will be made available to the public. VLIZ will also develop and implement modalities and technical solutions for data-exchange between the partners within TROPHOS.
Link with international programmes
- DIVERSITAS (ICSU, SCOPE, IUBS, IUMS, UNESCO-MAB).
- IGBP (International Geosphere - Biosphere Programme).
- LOICZ (Land Ocean Interactions in the Coastal Zone, IGBP, ICSU).
Expected results and/or products
- Scientific results will be published in peer-reviewed journals.
- Data of the benthos and seabirds on the BCS will be made public through the website. An atlas with distribution maps will be provided as well.
- Monitoring designs for the follow-up of nature conservation will be developed (potential Marine Protected Areas).
- Bio-indicator species and bio-indicator communities for anthropogenic threats will be identified and tested.
- Detailed food-web interactions will be identified for the first time in the higher trophic levels of the North Sea.
- Coupling between hydrodynamic models and dispersal mechanisms of selected species will be explained.
- Population dynamics of gulls and terns will help in setting the criteria for protected areas, habitats and species.
- Results will be made available to the public, end-users, governmental bodies.
TROPHOS: Franco, M. (2003). Nematode length/width Trophos. Ghent University, Department of Biology, Marine Biology Section (MARBIOL), Belgium., more
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Claus, S.; Cuvelier, D. (2004). De vissen van het Belgisch Continentaal Plat. Onze zee rijker dan je denkt. Vlaams Instituut voor de Zee (VLIZ): Oostende. 1 poster pp.
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(2003). Hogere trofische niveaus in de Zuidelijke Noordzee 'TROPHOS': wetenschappelijk verslag voor de periode van 01/02/2002-31/01/2003. Instituut voor Natuurbehoud/Katholieke Universiteit Leuven, Laboratorium voor Aquatische Ecologie/Universiteit Gent, Sektie Mariene Biologie: Brussel. 47 pp.
(2004). Hogere trofische niveaus in de Zuidelijke Noordzee 'TROPHOS': wetenschappelijk verslag voor de periode van 01/02/2003-31/01/2004. CEME/Instituut voor Natuurbehoud/Katholieke Universiteit Leuven, Laboratorium voor Aquatische Ecologie/NIOO/Universiteit Gent, Sektie Mariene Biologie: Brussel. 23 pp.
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van Oevelen, D. (2005). The structure of marine benthic food webs: combining stable isotope techniques and inverse modeling. PhD Thesis. Rijksuniversiteit Groningen: Groningen. 143 pp.
Claus, S.; Cuvelier, D. (2004). Wat maakt ons Belgisch stukje Noordzee zo uniek? Onze zee rijker dan je denkt. Vlaams Instituut voor de Zee (VLIZ): Oostende. 1 poster pp.
Claus, S.; Cuvelier, D. (2004). Zeevogels van de Belgische mariene gebieden. Onze zee rijker dan je denkt. Vlaams Instituut voor de Zee (VLIZ): Oostende. 1 poster pp.
Stienen, E.W.M.; Van Waeyenberge, J.; Kuijken, E. (2003). Zeezoogdieren in Belgisch mariene wateren. Rapport Instituut voor Natuurbehoud, A.2003.152. Instituut voor Natuurbehoud: Brussel. 15 pp., more
Claus, S.; Cuvelier, D. (2004). Zeezoogdieren van de Belgische mariene gebieden. Onze zee rijker dan je denkt. Vlaams Instituut voor de Zee (VLIZ): Oostende. 1 poster pp.
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