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Article Reference Massive boulders shifted along the coast of Guantánamo, Cuba, during Hurricane Matthew (2016)
Hurricane Matthew struck the province of Guantánamo in southeastern Cuba in 2016 by making landfall as the first and only hurricane reaching category 4 in documented history. We surveyed transport path, distance and mode of coastal boulder deposits (CBD) after the event at three coastal sites and compared them with the pre-Matthew boulderscape, which reflects the effects of extreme-wave events on millennial time scales. The application of a dimensionless analytical framework comparing elevation, CBD size and wave climate with a global dataset of storm-transported CBD shows that boulder transport during Matthew is at the uppermost possible limit, while larger boulders that remained inactive hint to even more intense hurricanes or a large tsunami in the prehistoric past. Most observations support typical patterns of storm-transported CBD in carbonate environments, such as a source at the cliff edge, preferential sourcing and clustering at shoreline indentations and a stepwise movement inland during multiple storm events. The study shows that Hurricane Matthew is not unique in Guantánamo in terms of intensity on larger, prehistoric time scales. At the same time, recurrence intervals of highest-category hurricanes in this region may decrease with ongoing climate change prompting the need to use the inland distribution of CBD plus additional buffer as minimum setback zones in coastal hazard management.
Located in Library / RBINS Staff Publications 2025
Article Reference Four decades of the Working Group on Marine and Coastal Geography – Interdisciplinary perspectives and practices: Introduction to the special issue
Located in Library / RBINS Staff Publications 2025
Article Reference The Inundation Signatures on Rocky Coastlines Global Database for coastal boulder deposits (ISROC-DB)
Coastal boulder deposits are long-lived signatures of high-energy storm wave and tsunami inundation found on rocky and reefal coastlines worldwide. Although increasing numbers of research reports have been published on coastal boulder deposits, it has been difficult to compare studies from different areas because of a lack of standardised data and of quality-controlled datasets. This paper describes ISROC-DB, a new standardised database compiled from both published and unpublished data. There are two important parts: 1. Uniform standards to enable collation and intercomparison of coastal boulder deposits, with preformatted Excel files to enable convenient data entry; and 2. A freely accessible compiled database of coastal boulder deposit data. Both are published in downloadable permanent archives. Ongoing additions will further increase the database scope.
Located in Library / RBINS Staff Publications 2025
Article Reference Geomorphic and sedimentary impact on beaches of Eastern Visayas (Philippines) after Typhoon Haiyan in 2013 - short-term recovery and post-depositional changes
Tropical cyclones and storm surges are a major threat to coastal communities of the Philippines. On 08th November 2013, category 5 Typhoon Haiyan (local name: Yolanda) made landfall on the islands of Eastern Visayas and caused more than 6000 casualties and severe damage to infrastructure and habitats. To assess the geomorphic impact of one of the strongest tropical cyclones on record, three post-typhoon surveys were conducted in 2014, 2015 and 2016 at two severely affected sites on the islands of Leyte and Samar. They aimed at documenting Haiyan-related erosional features and sand deposits. The sites have different geomorphic and geological settings, and exposure to the typhoon track. Differential global navigation satellite system (DGNSS) measurements and sediment analyses were used to document erosion and washover deposition caused by waves and coastal flooding of the beach ridge systems, as well as their recovery and changes over time. Shoreline changes were measured on high-resolution satellite images using the Digital Shoreline Analysis System (DSAS) to determine the typhoon’s impact and recovery potential at a larger spatial scale. The results show the potential to identify storm-wave erosion and washover deposits in sandy ridge sequences across larger time scales. However, fine sedimentary signatures, such as millimetre-scale lamination, may be rapidly overprinted by bioturbation and geomorphic reorganisation of the coast. The coastline tends to return to its pre-storm equilibrium, whereas the pace depends on whether eroded sands remain within reach of the long-term wave regime, on the frequency of subsequent high-category storms and very local geomorphic conditions.
Located in Library / RBINS Staff Publications 2025
Article Reference Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes
Marine biological (‘blue’) carbon pathways are crucial components of the global carbon budget due to the ecosystem services they provide through the fixation of CO2 from the atmosphere. CO2 is removed from biosphere through long-term sequestration into seafloor sediments, removing it from the carbon cycle. Coincident with marine ice loss, little studied negative (mitigating) feedbacks to climate change are emerging in polar waters, which is important to quantify and comprehend. Understanding the mechanisms driving these pathways, that could lead to change, is a massive task and to ensure studies are comparable requires standardisation and prioritisation of future research. The expertise of scientists within the EU grant, Coastal ecosystem carbon balance in times of rapid glacier melt (CoastCarb), identified the 23 most important high latitude pathways through a modified Delphi scoring system. Metrics were selected as priorities for future research and for syntheses across broader geographic regions. The metrics with the highest importance scores also scored as the metrics that could be most readily standardised in the next five years. This review provides a definition and description of how each metric is measured, including its central role to blue carbon pathways. It also provides recommendations for standardisation, emphasising the requirement for modelling studies to scale from geographically limited regions where high-resolution data is available. Where methods cannot be standardised, cross calibration between methods is required to ensure reproducibility. An increasing use of remote sensing and innovative technologies will be necessary to scale measurements across this vast and remote region.
Located in Library / RBINS Staff Publications 2025
Article Reference Carbon burial in two Greenland fjords shows no direct link to glacier type
Fjord systems play a crucial role in the burial and long-term storage of organic carbon (OC). Despite their importance, Greenland's fjords remain underrepresented in global carbon budgets, even though accelerated melt of the Ice Sheet alters these ecosystems through increased freshwater discharge and iceberg calving, ultimately driving glacier retreat inland. This study compares sediment TOC, TN, and Chl-a content as well as δ13C, δ15N and organic carbon burial rates (OCBRs) in two neighbouring Greenland fjords: Nuup Kangerlua, dominated by marine-terminating glaciers (MTGs), and Ameralik, influenced by a land-terminating glacier (LTG). Although subglacial upwelling enhances primary productivity in Nuup Kangerlua, this does not translate into correspondingly higher surface sediment organic matter content or significantly higher OCBRs compared to Ameralik, where no such upwelling occurs. Instead, the average OCBRs were similar between the two fjords with 18.0 ± 1.6 g C m−2 yr−1 in Nuup Kangerlua and 16.2 ± 1.7 g C m−2 yr−1 in Ameralik. In Nuup Kangerlua, sediment Chl-a content in the upper 10 cm ranged from 0.08 to 9.8 µg g−1 and TOC from 0.05 \% to 1.32 \%, whereas in Ameralik they ranged from 0.35 to 20.1 µg g−1 and 0.13 \% to 2.43 \%, respectively. The elevated values in Ameralik are linked to a deep depositional basin that promotes OC accumulation and strongly contributes to the relatively high average OCBR. Furthermore, between 8 \% and 28 \% of the annual surface production in Nuup Kangerlua is ultimately buried in the sediments, whereas this proportion is substantially higher in Ameralik: 25 \% to 62 \%. The weaker coupling between surface production and sedimentary OC burial in Nuup Kangerlua versus Ameralik underscores the need for further research to disentangle the interactions driving primary production, carbon transfer in the food web, and the lateral and vertical transport, degradation and preservation of OC in fjord sediments.
Located in Library / RBINS Staff Publications 2025
Article Reference New insights on the Lower Ordovician linguliformean brachiopods of the Anglo-Brabant Massif and the Stavelot-Venn Inlier (Belgium)
The Lower Ordovician (Tremadocian) linguliformean brachiopods of the southeastern part of the Anglo-Brabant Massif are documented systematically for the first time. The material belongs to a single Belgian locality (La Roche-en-Brabant), situated in one of the few valleys that incise the Mesozoic-Cenozoic cover, and more precisely from the topmost part of the siliciclastic Mousty Formation (Tangissart Member). Here, minute, poorly diverse linguliformeans are associated with planktic graptolites (Rhabdinopora) and nileid trilobites (Platypeltoides). They consist of three species belonging to three genera (Obolidae and Elkaniidae), of which only Broeggeria is known with certainty, due to the poor preservation of the material. In the Belgian part of the Stavelot-Venn Inlier, the presence of linguliformean brachiopods within the Floian Les Plattes Member of the Ottré Formation, which were reported more than 150 years ago, remains unconfirmed. The genus Broeggeria, known from several Belgian Tremadocian localities, is a relic from the Cambrian brachiopod fauna. By the Tremadocian it is well established globally between the Low-Latitude and High-Latitude provinces. The Belgian assemblage has strong similarities with assemblages from Baltica reflecting the early Palaeozoic changing palaeogeography.
Located in Library / RBINS Staff Publications 2025
Article Reference Designation of a Brazilian topotypic neotype for Dardanus pectinatus (Ortmann, 1892) and establishment of D. ctenodon sp. nov. for the East Atlantic hermit crab previously misidentified with it (Crustacea, Decapoda, Anomura, Diogenidae)
The type locality of the hermit crab, Pagurus striatus var. pectinata Ortmann, 1892, as given in its original description, is Brazil. After its original brief taxonomic account, the species was first treated as amphi-Atlantic and later the name Dardanus pectinatus (Ortmann, 1892) was systematically applied to an African Atlantic species. No explicit reason has ever been given for this application. However, it transpires from the literature that carcinologists believed that the gastropod shell, Tonna galea (Linnaeus, 1758), occupied by the holotype of Pagurus striatus var. pectinata Ortmann, 1892 was endemic to the Mediterranean and Eastern Atlantic, and that the specimen had therefore been mislabelled. In fact, Tonna galea is amphi-Atlantic and the shell occupied by the hermit crab cannot be used to argue that it has been mislabelled. The holotype of Pagurus striatus var. pectinata Ortmann, 1892 is lost and its original description and illustration are insufficient to establish its true identity. Two steps are taken to stabilise the nomenclature in accepting the hypothesis by far most likely, i.e. that the holotype of Pagurus striatus var. pectinata did indeed come from Brazil. First action: a Brazilian neotype is designated for Pagurus striatus var. pectinata, with a specimen of a species compatible with its original description, namely Dardanus insignis (de Saussure, 1857). As a result of this action, Dardanus pectinatus (Ortmann, 1892) becomes a junior synonym of Dardanus insignis (de Saussure, 1857). Second action: the African Atlantic species is described as a new species, Dardanus ctenodon sp. nov., with a holotype from Senegal. The three similar Atlantic species Dardanus arrosor (Herbst, 1796), Dardanus ctenodon sp. nov. and Dardanus insignis (de Saussure, 1857) are the subject of an illustrated taxonomic account and an identification key is given for all the Atlantic species of Dardanus.
Located in Library / RBINS Staff Publications 2025
Article Reference Weather and climate related spatial varability of high turbidity areas in the North Sea and the English Channel
Located in Library / Pending old publications
Article Reference Limits of calcium isotopes diagenesis in fossil bone and enamel
Diagenesis has been recognized for decades to significantly alter the trace elements biogenic signatures in fossil tooth enamel and bone that are routinely used for paleobiological and paleoenvironmental reconstructions. This signature is modified during diagenesis according to a complex continuum between two main processes, addition and substitution. For an additive-like, or early diagenesis, the trace elements biogenic profiles can be restored by leaching secondary minerals, but this technique is inefficient for a substitutive-like, or extensive diagenesis for which secondary trace elements are incorporated into the biogenic mineral. This scheme is however unclear for Ca, the major cation in tooth enamel and bone hydroxylapatite, whose stable isotope composition (δ44/42Ca) also conveys biological and environmental information. We present a suite of leaching experiments for monitoring δ44/42Ca values in artificial and natural fossil enamel and bone from different settings. The results show that enamel δ44/42Ca values are insensitive to an additive-like diagenesis that involves the formation of secondary Ca- carbonate mineral phases, while bone shows a consistent offset toward 44Ca-enriched values, that can be restored to the biogenic baseline by a leaching procedure. In the context of a substitutive-like diagenesis, bone exhibits constant δ44/42Ca values, insensitive to leaching, and shows a REE pattern symptomatic of extensive diagenesis. Such a REE pattern can be observed in fossil enamel for which δ44/42Ca values are still fluctuating and follow a trophic pattern. We conclude that Ca isotopes in fossil enamel are probably not prone to extensive diagenesis and argue that this immunity is due to the very low porosity of enamel that cannot accommodate enough secondary minerals to significantly modify the isotopic composition of the enamel Ca pool.
Located in Library / RBINS Staff Publications 2023