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Trekvis - Migratory fishes in the river Scheldt

Latest version published by Research Institute for Nature and Forest (INBO) on May 24, 2016 Research Institute for Nature and Forest (INBO)

In the context of the "Trekvis" migratory fish project fykes are placed at a few locations in the river Scheldt and among the most important fish migration bottlenecks in the basin of the Scheldt. Every month, traps placed 24 hours later retrieved. All fish are determinatie, measured and weighed.

Data Records

The data in this occurrence resource has been published as a Darwin Core Archive (DwC-A), which is a standardized format for sharing biodiversity data as a set of one or more data tables. The core data table contains 14,741 records.

This IPT archives the data and thus serves as the data repository. The data and resource metadata are available for download in the downloads section. The versions table lists other versions of the resource that have been made publicly available and allows tracking changes made to the resource over time.

Downloads

Download the latest version of this resource data as a Darwin Core Archive (DwC-A) or the resource metadata as EML or RTF:

Data as a DwC-A file download 14,741 records in English (465 KB) - Update frequency: daily
Metadata as an EML file download in English (34 KB)
Metadata as an RTF file download in English (23 KB)

Versions

The table below shows only published versions of the resource that are publicly accessible.

How to cite

Researchers should cite this work as follows:

Stevens M (2012): Trekvis - Migratory fishes in the river Scheldt. v70.5. Research Institute for Nature and Forest (INBO). Dataset/Occurrence. http://doi.org/10.15468/j9tj7x

Rights

Researchers should respect the following rights statement:

The publisher and rights holder of this work is Research Institute for Nature and Forest (INBO). To the extent possible under law, the publisher has waived all rights to these data and has dedicated them to the Public Domain (CC0 1.0). Users may copy, modify, distribute and use the work, including for commercial purposes, without restriction.

GBIF Registration

This resource has been registered with GBIF, and assigned the following GBIF UUID: b2d0f29e-4614-4001-93c8-f651878a86d2.  Research Institute for Nature and Forest (INBO) publishes this resource, and is itself registered in GBIF as a data publisher endorsed by Belgian Biodiversity Platform.

Keywords

Occurrence; Observation; fish; fykes; migratory fish

Contacts

Who created the resource:

Maarten Stevens
Researcher
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE

Who can answer questions about the resource:

Maarten Stevens
Researcher
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE

Who filled in the metadata:

Maarten Stevens
Researcher
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE

Who else was associated with the resource:

Point Of Contact
Maarten Stevens
Researcher
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE
Author
Johan Coeck
Researcher
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE
Processor
Dimtiri Brosens
Data liaison officer
Research Institute for Nature and Forest (INBO) Kliniekstraat 25 1070 Brussels Brussels Capital Region BE
http://www.biodiversity.be

Geographic Coverage

The Scheldt (Dutch Schelde, French Escaut) is a 350 km long river in northern France, western Belgium and the southwestern part of the Netherlands. Its name is derived from an adjective corresponding to Old English sceald "shallow", Modern English shoal, Low German schol, Frisian skol, and Swedish skäll "thin".

Bounding Coordinates South West [50.58, 2.81], North East [51.51, 4.58]

Taxonomic Coverage

All species in this dataset are fishes (Actinopterygii, Cephalaspidomorphi), except for the Chinese mitten crab (Eriocheir sinensis), which is an invasive arthropod and the common littoral crab (Carcinus maenas). The top 3 recorded species are Rutilus rutilus (27%), Gobio gobio (10%), and Anguilla anguilla (7%).

Class  Actinopterygii (ray-finned fishes),  Cephalaspidomorphi,  Malacostraca
Species  Abramis brama (common bream),  Agonus cataphractus (pogge),  Alburnus alburnus (common bleak),  Ameiurus nebulosus (brown bullhead),  Anguilla anguilla (European eel),  Atherina presbyter (sand smelt),  Barbatula barbatula (stone loach),  Blicca bjoerkna (silver bream),  Carassius gibelio (Prussian carp),  Carcinus maenas,  Ciliata mustela (fivebeard rockling),  Clupea harengus (Atlantic herring),  Cobitis taenia (spined loach),  Cottus gobio (European bullhead),  Cyprinus carpio (common carp),  Dicentrarchus labrax (European seabass),  Eriocheir sinensis (Chinese mitten crab),  Esox lucius (northern pike),  Gadus morhua (Atlantic cod),  Gasterosteus aculeatus (three-spined stickleback),  Gobio gobio (gudgeon),  Gymnocephalus cernuus (Eurasian ruffe),  Hyperoplus lanceolatus (greater sand eel),  Lampetra fluviatilis (European river lamprey),  Lampetra planeri (European brook lamprey),  Lepomis gibbosus (pumpkinseed),  Leuciscus cephalus (European chub),  Leuciscus idus (ide),  Leuciscus leuciscus (common dace),  Liparis liparis (common seasnail),  Liza ramada (thinlip mullet),  Lota lota (burbot),  Osmerus eperlanus (European smelt),  Perca fluviatilis (European perch),  Pimephales promelas (fathead minnow),  Platichthys flesus (European flounder),  Pomatoschistus microps (common goby),  Pomatoschistus minutus (sand goby),  Pseudorasbora parva (stone moroko),  Pungitius pungitius (ninespine stickleback),  Rhodeus amarus (European bitterling),  Rutilus rutilus (common roach),  Salmo trutta (brown trout),  Sander lucioperca (zander),  Scardinius erythrophthalmus (common rudd),  Silurus glanis (wels catfish),  Solea solea (common sole),  Syngnathus acus (greater pipefish),  Tinca tinca (tench),  Trisopterus luscus (pouting),  Umbra pygmaea (eastern mudminnow)

Temporal Coverage

Start Date / End Date 2007-01-01 / 2010-04-27

Project Data

No Description available

Title Migratory Fishes in the river Scheldt (Trekvis)
Funding Het Ministerie van de Vlaamse Gemeenschap, Departement Mobiliteit en Openbare werken, Afdeling Maritieme Toegang, in het kader van het Onderzoeks- en Monitoringsprogramma van de Lange Termijnvisie voor het Schelde-estuarium
Study Area Description The Long-Term Vision (LTV) for the Schelde estuary is a Dutch-Flemish managerial plan. Its ultimate goal is to reconcile the apparent conflicting multiple functions of the estuary in sustainable integrated management. The LTV sets quality targets for the estuary in the year 2030 and the management measures to achieve them. These goals and management are integrated from three central perspectives: accessibility, flood management and ecology. In this framework, in the Memorandum of Vlissingen (2002) agreements were made about a long-term monitoring and research program to support the cross-border cooperation of policy and management in the Schelde-estuary. In addition to the three main perspectives, the decree also pays attention to themes like fisheries and recreation. The present project ‘Trekvis’ is part of the theme ‘fish and fisheries’ and was contracted by the Maritime Access Division of the Department of Public Works of the Flemish government to the Research Institute for Nature and Forest (INBO). This study aims to investigate the present status of diadromous fishes in the Schelde basin and to formulate measures for an integrated estuarine ecosystem management. Hereto, the causes for the local decline and extinction of the diadromous species were discussed and their present distribution in the Schelde basin was investigated in a field study. Based on this, a proposal for the monitoring of diadromous fishes and management actions are presented in order to come to a sustainable recovery of the diadromous fish populations in the Schelde basin.

The personnel involved in the project:

Point Of Contact
Maarten Stevens

Sampling Methods

The three sampling methods that were applied in this project (cooling water, intertidal and subtidal fykes) proved to be complementary and each are useful to describe a different aspect of the migration of diadromous fishes. The volunteer network (intertidal fykes) has a high temporal and spatial resolution. Especially the catadromous species that use the estuary as a foraging and nursery area, were caught in the intertidal fyke nets. Subadult shads and downstream migrating juvenile lampreys were only caught in the cooling water of the powerplant of Doel. In addition, the fish monitoring of the cooling water in Doel started in 1991, which allows us to investigate long-term trends. The subtidal fyke nets that were deployed underneath the migration barriers proved to be efficient in catching the fishes during their spawning run. During their upstream migration, anadromous fishes accumulate underneath the barriers where they can be caught in large numbers.

Study Extent The Long-Term Vision (LTV) for the Schelde estuary is a Dutch-Flemish managerial plan. Its ultimate goal is to reconcile the apparent conflicting multiple functions of the estuary in sustainable integrated management. The LTV sets quality targets for the estuary in the year 2030 and the management measures to achieve them. These goals and management are integrated from three central perspectives: accessibility, flood management and ecology. In this framework, in the Memorandum of Vlissingen (2002) agreements were made about a long-term monitoring and research program to support the cross-border cooperation of policy and management in the Schelde-estuary. In addition to the three main perspectives, the decree also pays attention to themes like fisheries and recreation. The present project 'Trekvis' is part of the theme 'fish and fisheries' and was contracted by the Maritime Access Division of the Department of Public Works of the Flemish government to the Research. Institute for Nature and Forest (INBO). This study aims to investigate the present status of diadromous fishes in the Schelde basin and to formulate measures for an integrated estuarine ecosystem management. Hereto, the causes for the local decline and extinction of the diadromous species were discussed and their present distribution in the Schelde basin was investigated in a field study. Based on this, a proposal for the monitoring of diadromous fishes and management actions are presented in order to come to a sustainable recovery of the diadromous fish populations in the Schelde basin. ## Distribution and status of diadromous fishes in the Schelde Catadromous species like European eel, flounder and thinlip mullet are quite abundant in the estuary. These species spawn at sea and use the estuary as a nursery or growing-up habitat. Their density is highest in summer. Thinlip mullets were caught in the freshwater zone for the first time and juvenile flounder arrives into the Zeeschelde from May on. The upstream sections of the river, above the tidal zone, are probably less important for these species. Eels, on the other hand, also colonize the upstream rivers, but their migration depends on the population density in the estuary. The status of the eel stock depends on the recruitment of glass eels. However, the recruitment of glass eels decreased dramatically during the last three decades and the eel stock is now in a critical state and well below safe biological limits. The occurrence of anadromous species in the estuary is related mainly to their pawning migration during winter and spring. In this period, mature smelts, river lampreys and threespined sticklebacks migrate upstream to reproduce in the freshwater zone. River lamprey was caught under the weir of Merelbeke as well as under the weir of Asper, indicating that their spawning grounds are further upstream. Both weirs/sluices are important migration barriers for this species. There are strong indications that the life cycle of river lamprey is complete in the Schelde, but the spawning sites and the larval habitats are unknown. Smelt was not caught upstream of the weir of Merelbeke. According to the literature, this species reproduces near the limit of tidal influence. Hence it is doubtful whether the riverine zone upstream of the barrier in Merelbeke is essential for the recovery of smelt in the Schelde. The catches of smelt near Rupelmonde during summer suggest that the Zeeschelde also functions as growing-up habitat for this species. Only a limited number of threespined sticklebacks (trachurus) were caught during the study. However, previous studies near the weir in Merelbeke showed that the upstream migration of sticklebacks occurs between January and April. The migration peak was possibly missed because of the limited temporal resolution of the sampling strategy. Only a few adult twaite shads were caught in the brackish part of the Zeeschelde. The low number of adults and the absence of 0+ individuals indicates that twaite shad does not yet reproduce in the Schelde. Our results clearly show that the main migration route of anadromous fishes in the Schelde is towards the Upper Schelde/River Leie. On the migration axis through the Rupel, on the other hand, almost no anadromous species were caught. From March 2007 on, the sewage treatment plant of Brussels became operational, which greatly improved the water quality in the River Rupel. For the moment, however, only flounder and eel seem to benefit from the increased oxygen concentration. Their numbers increased exponentially in the Rupel during the second half of 2008. Probably, the oxygen concentration is still too low for the other diadromous species or the stimulus for upstream migration is lacking (e.g. conspecific odours in river lampreys). A number of diadromous species does not occur anymore in the Schelde basin. Until the first half of the 19 th century, a stable and reproducing copulation of allis shad occurred in the Schelde basin, but they became extinct locally by the beginning of the 20 th century. For other species like Atlantic salmon, sea trout, Atlantic sturgeon and houting, we have less information about the historical status of their populations in the Schelde. Already in the Middle Ages the populations of these species were seriously threatened, which makes natural recovery unlikely to occur. Monitoring The three sampling methods that were applied in this project (cooling water, intertidal and subtidal fykes) proved to be complementary and each are useful to describe a different aspect of the migration of diadromous fishes. The volunteer network (intertidal fykes) has a high temporal and spatial resolution. Especially the catadromous species that use the estuary as a foraging and nursery area, were caught in the intertidal fyke nets. Subadult shads and downstream migrating juvenile lampreys were only caught in the cooling water of the powerplant of Doel. In addition, the fish monitoring of the cooling water in Doel started in 1991, which allows us to investigate long-term trends. The subtidal fyke nets that were deployed underneath the migration barriers proved to be efficient in catching the fishes during their spawning run. During their upstream migration, anadromous fishes accumulate underneath the barriers where they can be caught in large numbers. The proposed monitoring programme consists of a combination of the above sampling methods. We advise to continue the monthly sampling of the cooling water and to build on seven sampling locations of the volunteer network in the estuary. An extra volunteer sampling station near the Dutch-Belgian border and, if possible, a volunteer network in the Westerschelde should be set up in order to cover the complete estuarine gradient. In addition, the possibility should be investigated of fishing with stow nets at about three locations in the Zeeschelde. In this way, the Dutch and Belgian monitoring programmes can be harmonised and diadromous fishes that migrate through the main channel will be sampled more efficiently. Each fish barriers on the main migration routes that is being solved, should be fitted with a device for capturing migrating diadromous fishes. As long as those devices are in not place, the present fyke net monitoring should be continued at the barriers on the Upper Schelde, Leie and Kleine Nete. Finally, the glass eel monitoring by a volunteer in the Zeeschelde should be maintained and further supported. This monitoring proposal for diadromous fishes is part of the integrated monitoring plan for the Schelde estuary (MONEOS).
Quality Control All records are validated.

Method step description:

  1. The proposed monitoring programme consists of a combination of the above sampling methods.

Bibliographic Citations

  1. Stevens, M. et al. (2009). Onderzoek naar de trekvissoorten in het stroomgebied van de Schelde. Rapport van het Instituut voor Natuur- en Bosonderzoek, R.2009.9. Instituut voor Natuur- en Bosonderzoek: Brussel, Belgium. 188 pp.

Additional Metadata

To allow anyone to use this dataset, we have released the data to the public domain under a Creative Commons Zero waiver (http://creativecommons.org/publicdomain/zero/1.0/). We would appreciate however, if you read and follow these norms for data use (http://www.inbo.be/en/norms-for-data-use) and provide a link to the original dataset (http://doi.org/10.15468/j9tj7x) whenever possible. If you use these data for a scientific paper, please cite the dataset following the applicable citation norms and/or consider us for co-authorship. We are always interested to know how you have used or visualized the data, or to provide more information, so please contact us via the contact information provided in the metadata, opendata@inbo.be or https://twitter.com/LifeWatchINBO.

Alternative Identifiers b2d0f29e-4614-4001-93c8-f651878a86d2
http://data.inbo.be/ipt/resource?r=trekvis-occurrences