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Article Reference infraFADA: Upgrading the taxonomic backbone of global freshwater animal biodiversity research infrastructures
The current Freshwater Animal Diversity Assessment (FADA) comprises an extensive set of global taxa lists for freshwater animal groups. At present, more than 125 thousand described freshwater animal species in more than 11 thousand genera have been documented. However, taxonomy is a living scientific discipline, where new taxa are continuously being described, and existing taxa are being placed in new taxonomic positions. Therefore, after a period of relative inactivity, the BELSPO (Belgian Science Policy) project “infraFADA” (2023-2026) re-establishes the global FADA consortium of taxonomic experts, so that all taxa lists will be brought up to date, both technically and in terms of content. infraFADA will develop a living, updated, and global FADA database, fully in open access and according to the FAIR principles. The infraFADA database is intended for use and consultation by the scientific freshwater community, as well as for interested stakeholders, for example, freshwater ecosystem managers, biodiversity conservationists, and others. Most importantly, FADA will also serve as a taxonomic backbone for other global biodiversity data infrastructures, such as the Catalogue of Life (CoL), the Global Biodiversity Information Facility (GBIF), the Freshwater Information Platform (FIP), and others. As such, FADA will provide a digital and living heritage of freshwater data, building bridges between science and society and helping to sustainably maintain freshwater resources.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference Integrated taxonomic-taphonomic investigations of a complex late Pleistocene mollusc fauna: a case study from Zeebrugge
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference To colour or not to colour: colour patterns and pigments in invertebrates from the Palaeozoic of Belgium
Almost nothing is known about the evolution of shell colour in invertebrates. This is largely due to the ultra-rarity of fossils in which colour patterns and pigments are preserved and immediately visible, and therefore easy to identify, especially when these are hundreds of millions of years old. This hampers our understanding of the role and function of colour in extinct animals, their ecology, mode of life, interactions, development, and evolution. A good example for this ultra-rarity is the Palaeozoic of Belgium, world-renowned for its exquisitely preserved fossils of the Devonian and Carboniferous, enabling to document major transitions in ecosystem dynamics and the evolution of life on Earth (e.g. nekton revolution, terrestrialisation, major climate changes, anoxic events, biodiversity crises) but from which only a few cephalopod, bivalve and gastropod mollusc and brachiopod shells were historically documented preserving coloured traces (mostly by L.-G. de Koninck and P. de Ryckholt, mid to late 19th century). However, recently, it was discovered that many more specimens preserve these traces, in particular those from Tournaisian–Viséan shallow marine reef environments, allowing to investigate its occurrence in different evolutionary lineages of marine invertebrates exactly during one of the main periods of revolution in geologic history. In Brain project B2/P233/P2 nicknamed COLOURINPALAEO financed by Belspo, after gathering all the specimens available in the main Belgian collections, we use different techniques (multispectral photogrammetry and spectro-imaging) to better visualise the preserved colour patterns and pigments. Furthermore, advanced spectroscopic techniques, namely Raman micro-probe spectroscopy, synchrotron trace elemental mapping and absorption spectroscopy, are used to identify the chemical signature of the pigments as well as their mode and pathways of preservation. Some of the first results on this multidisciplinary study on a unique set of Belgian fossils will be presented.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference An exceptionally diverse pre-K/Pg boundary nautilid fauna from the Maastrichtian type area (the Netherlands and Belgium).
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference Eric Simon (1948-2018): his contributions to the knowledge of Campanian-Maastrichtian (Late Cretaceous) brachiopods.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference To colour or not to colour: Colour patterns and pigments in Invertebrates from the Palaeozoic of Belgium.
Almost nothing is known about the evolution of shell colour in invertebrates. This is largely due to the ultra-rarity of fossils in which colour patterns and pigments are preserved and immediately visible, and therefore easy to identify, especially when these are hundreds of millions of years old. This hampers our understanding of the role and function of colour in extinct animals, their ecology, mode of life, interactions, development, and evolution. A good example for this ultra-rarity is the Palaeozoic of Belgium, world-renowned for its exquisitely preserved fossils of the Devonian and Carboniferous, enabling to document major transitions in ecosystem dynamics and the evolution of life on Earth (e.g. nekton revolution, terrestrialisation, major climate changes, anoxic events, biodiversity crises) but from which only a few cephalopod, bivalve and gastropod mollusc and brachiopod shells were historically documented preserving coloured traces (mostly by L.-G. de Koninck and P. de Ryckholt, mid to late 19th century). However, recently, it was discovered that many more specimens preserve these traces, in particular those from Tournaisian–Viséan shallow marine reef environments, allowing to investigate its occurrence in different evolutionary lineages of marine invertebrates exactly during one of the main periods of revolution in geologic history. In Brain project B2/P233/P2 nicknamed COLOURINPALAEO financed by Belspo, after gathering all the specimens available in the main Belgian collections, we will use different techniques (multispectral photogrammetry and spectro-imaging) to better visualise the preserved colour patterns and pigments. Furthermore, advanced spectroscopic techniques, namely Raman micro-probe spectroscopy, synchrotron trace elemental mapping and absorption spectroscopy, will be used to identify the chemical signature of the pigments as well as their mode and pathways of preservation. Some of the first results on this multidisciplinary study on a unique set of Belgian fossils will be presented.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference Belgian fossil shells as fortune tellers? Unique climate archives yet hardly tapped into
Shells are powerful climate archives - they add growth increments on timescales as short as sub-daily, and often live for decades, some even more than 100 years. With the aid of isotope and trace-elemental geochemistry, the effects of climate change on temperature, seasonality and extreme weather can be read from them. Belgium is one of the few countries blessed with extensive records of exquisitely preserved fossil shells dating to the Pliocene, a geologic period dating from 5.3 to 2.6 million year ago. Critically, the Pliocene is the youngest geologic time during which CO2 levels were >400 ppm and mean annual temperatures comparable to those to be reached by the end of this century, following Shared Socioeconomic Pathways (SSP) 2-4.5 of the IPCC. It therefore presents an ideal near-future analogue. Rich collections of well-preserved Belgian Pliocene shells are in the Royal Belgian Institute of Natural Sciences (RBINS), and more material is collected from temporary outcrops like building sites in and around Antwerp with the aid of citizen-scientists. In recent years, RBINS collaborated with national (VUB, KULeuven) and international (VU Amsterdam, Naturalis, UDerby) researchers to start tapping into these exquisite climate archives, unraveling previously unknown details on Belgian past climate, predicting amplified seasonality in Europe in a warmer world, and investigating the potential of fossil shells to document heat waves and storms. The poster will highlight some of this recent collaborative work, and, why the RBINS, through its collections, fieldwork and expertise can play a pivotal role in climate research in Belgium.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference PSS V, a modular techno-economic simulation tool for deep subsurface uses
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference Building a regional telescoped model of the Campine Basin for subsurface management
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference Sustainability impact assessment of deep subsurface use in Flanders
Located in Library / RBINS Staff Publications 2024