Skip to content. | Skip to navigation

Personal tools

You are here: Home

Search results

RSS Subscribe to an always-updated RSS feed.

1837 items matching your search terms.
Filter the results.
Item type



































New items since



Sort by relevance · date (newest first) · alphabetically
Techreport Reference System-to-system interface between the EMSA CleanSeaNet service and OSERIT: the potential synergies between remote sensing and modelling in case of marine pollution
The European Maritime Safety Agency (EMSA) and the Royal Belgian Institute of Natural Sciences (RBINS) develop and operate together a system-to-system interface between the EMSA’s CleanSeaNet service and OSERIT, the Belgian Oil Spill Evaluation and Response Integrated Tool. This interface is meant to provide CleanSeaNet users with a support tool for early and automatic oil drift and fate simulation results of any satellite-detected oil spills reported by the CleanSeaNet service in the North Sea and the English Channel. In view of the automatic forecast and backtrack simulations results, CleanSeaNet users have the possibility to further refine this early risk assessment either by activating their own national decision support system or by requesting new, advanced simulations through the CleanSeaNet GIS viewer. This interface is currently passing the final acceptance tests. However, the system has already been used by RBINS for the oil pollution event subsequent to the Flinterstar sinking at 8km off the port of Zeebruges on the 6th of October 2015. This event perfectly illustrates the potential synergies of remote sensing and modelling in case of marine pollution and their integration in risk assessments that must be performed for any significant pollution of the marine system.
Located in Library / RBINS Staff Publications 2016
Article Reference A new delphinid from the lower Pliocene of the North Sea and the early radiations of true dolphins
Located in Library / RBINS Staff Publications 2021
Article Reference Climate influences the response of community functional traits to local conditions in bromeliad invertebrate communities
10.1111/ecog.05437
Located in Library / RBINS Staff Publications 2020
Article Reference Redescription of Strandesia sanoamuangae (Savatenalinton & Martens, 2010) and description of a new species of Strandesia (Crustacea, Ostracoda) from Grande Terre, New Caledonia
Located in Library / RBINS Staff Publications 2020
Article Reference Taxonomic revision of Strandesia s.s. (Crustacea, Ostracoda) from four Brazilian floodplains, with the description of three new species
Located in Library / RBINS Staff Publications 2020
Article Reference A database of freshwater fish species of the Amazon Basin
Located in Library / RBINS Staff Publications 2020
Article Reference Review of the Adoretini of Cambodia with six new species (Coleoptera, Scarabaeidae, Rutelinae)
Located in Library / RBINS Staff Publications 2022 OA
Article Reference Variation in ecosystem services within biogenic reefs: The role of reef-building species under distinct hydrodynamic conditions
To enhance the climate resilience of coastlines, measures are being implemented to protect and restore coastal ecosystems, such as biogenic reefs and dunes. These measures, known as Nature-based Solutions (NbS), provide protection against storms, coastal erosion, and flooding. They are also recognised for increasing biodiversity and delivering a range of ecosystem services (ES). This study investigated the ES provided by biogenic reefs composed of two reef-building species (Mytilus edulis and Lanice conchilega) under distinct hydrodynamic conditions. Three ES were assessed at two sites in the Belgian part of the North Sea: (1) coastal protection, (2) carbon sequestration, and (3) water quality regulation. The two sites have different hydrodynamic conditions due to their relative locations in relation to local sandbanks, making one site more exposed and the other more sheltered. The ES were quantified and monetised using in-situ measurements and literature data based on the SUstainable Marine Ecosystem Services (SUMES) model. The results suggest that the provision of ES in biogenic reefs is determined by multiple factors, including environmental conditions (e.g. hydrodynamics) and reefbuilding species. (1) Sediment accumulation was only observed under low hydrodynamic conditions, due to the higher settlement success of M. edulis and the presence of L. conchilega. (2) M. edulis “produces” carbon under both low and high hydrodynamic conditions, due to high respiration and biocalcification rates. However, low hydrodynamic conditions are more conducive to carbon burial, thus enhancing carbon sequestration. (3) M. edulis patches exhibited higher denitrification rates under low hydrodynamic conditions than under high hydrodynamic conditions or in L. conchilega patches, due to divergent macrobenthic functional diversity. In conclusion, the level of ES provision is determined by location and associated environmental conditions, as well as temporal and spatial variation in biogenic reefs and the physiological characteristics of reef builders. Therefore, both aspects need to be carefully considered when planning coastal protection measures and determining the provision of ES. Finally, when implementing NbS along high-energy coastlines, sheltered sites should be prioritised.
Located in Library / RBINS Staff Publications 2025
Article Reference Divergent feeding habits of sister species of the Antarctic amphipod genus Charcotia
Climate change and resource exploitation in the Southern Ocean are important anthropogenic pressures on Antarctic food webs. Understanding the eco-functional roles of Antarctic communities is essential for ecosystem management and conservation. Amphipods are among the most dominant and ecologically important benthic taxa in the Southern Ocean. The amphipod genus Charcotia is part of the scavenger guild playing a dominant role in nutrient recycling. To study the trophic habits of two sister species C. amundseni and C. obesa, stable isotope ratios of carbon and nitrogen were measured along geographical and bathymetrical gradients. Charcotia obesa belongs to the fourth and C. amundseni to the fifth trophic level, based on significant differences in δ15N values. Both benthic and pelagic primary producers dominate the diet in both species as derived from their low δ13C values. Charcotia obesa, the species with the narrowest depth range of the two studied species, did not show a depth-related pattern in isotopic ratios. An increasing geographic gradient of both δ15N and δ13C values was observed for C. obesa, ranging from the northern most tip of the Western Antarctic Peninsula to the southwestern most part in the Bellingshausen Sea. This might be linked to nutrient rich glacial meltwater in the latter part of the Southern Ocean. Nitrogen stable isotope ratios of C. amundseni showed a significant difference between Crown Bay and the other locations; this might be explained by the close location of the Filchner Area to nutrient rich upwelling in the Weddell Sea Gyre. Our study provides evidence for niche differentiation between two closely related amphipod species. Incorporation of additional samples from other locations and depth ranges in combination with isotope analysis and DNA-based prey identification might clarify the trophic position of benthic amphipods.
Located in Library / RBINS Staff Publications 2025
Article Reference Exploring hidden parasite diversity with environmental DNA metabarcoding during a ParasiteBlitz across a coastal habitat gradient
Environmental DNA (eDNA) metabarcoding has lagged in parasite biodiversity assessments. We implemented this method to examine parasite diversity in sediment and water from 4 physically connected aquatic habitats in coastal South Carolina, USA, as part of a ParasiteBlitz in April 2023. Sediment was collected using a syringe corer, and water was sampled using active filtration and passive collection. Five amplicon libraries, using primers targeting portions of the mitochondrial COI of platyhelminths and 18S ribosomal RNA genes of nematodes, myxozoans, microsporidians, and protists, successfully yielded parasite sequences. Out of >5.8 million sequences, we identified >1,000 parasite amplicon sequence variants (ASVs) corresponding to ~600 parasite operational taxonomic units, from 6 parasite groups. Most diversity was observed among the microsporidians, whose assay demonstrated the highest fidelity. Actively-filtered water samples captured ASVs of all 6 groups, whereas sediment captured only 4, despite yielding 3× as many ASVs. Low DNA yields from passive water samples resulted in fewer, but some unique, ASVs representing 3 parasite groups. The most efficient sampling method varied with respect to parasite group across habitats, and the parasite communities from each habitat were distinct regardless of sampling method. We detected ASVs of 9 named species, 4 of which may represent introductions to the US. The abundance of our results demonstrates the effectiveness and efficiency of eDNA metabarcoding for assessing parasite diversity during short, intensive surveys, and highlights the critical need for more comprehensive sequence databases and the development of primers for those parasite taxa that elude detection using eDNA methods.
Located in Library / RBINS Staff Publications 2025