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1. Death Assemblages Record Significant Range Contraction in a Molluscan Species of Concern from the Eastern Gulf of Mexico

   https://doi.org/10.58782/flmnh.gxlr7897  

   Sanders, Stephanie A; Herbert, Gregory S; Trobbiani, Gastón; Seiden, Nicole; Rogers, Jaime A (February 2023, Bulletin of the Florida Museum of Natural History)

   Marine habitats are in decline due to increasing anthropogenic pressures, but baseline data on species distributions needed to manage and conserve populations are lacking. Incorporating death assemblages into species assessments can create a more accurate understanding of pre-anthropogenic communities than survey records alone. In this study, we conducted a live-dead analysis on mollusks from a new 2008-2018 dredge survey in the eastern Gulf of Mexico. We selected the predatory banded tulip snail, Cinctura hunteria, as a test case for assessment because this species is one of several designated by the Florida Fish and Wildlife as a species of concern. Using spatial count data for shells in our samples, we estimated density values for each taxonomic grade over the sampled area using IDW spatial interpolation. These maps reveal large areas of occupation across the west Florida shelf for two taxonomic grades of dead shells but loss of offshore occurrence for live records. One explanation for the lack of occurrences in offshore habitats is that, unlike dead shell records, there is no time averaging accumulation of live shells. Time averaging increases detectability of species in habitats where they are rare. However, independent fisheries data from live-only animal surveys not only mirror our live-dead results but suggest that habitat loss in our live-dead comparisons was rapid and occurred in the late 1980s or early 1990s. Thus, live-dead comparisons reveal both natural baselines as well as anthropogenic changes in distribution without being significantly distorted by time-averaging biases. Including live-dead data can greatly improve species assessments when long-term survey records are unavailable and provide a key tool in combatting biodiversity loss across marine ecosystems. 

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2. Radiocarbon dating supports bivalve-fish age coupling along a bathymetric gradient in high-resolution paleoenvironmental studies

   https://doi.org/10.1130/G47210.1  

   Albano, Paolo G.; Hua, Quan; Kaufman, Darrell S.; Tomašových, Adam; Zuschin, Martin; Agiadi, Konstantina (March 2020, Geology)

   Abstract Studies of paleocommunities and trophic webs assume that multispecies assemblages consist of species that coexisted in the same habitat over the duration of time averaging. However, even species with similar durability can differ in age within a single fossil assemblage. Here, we tested whether skeletal remains of different phyla and trophic guilds, the most abundant infaunal bivalve shells and nektobenthic fish otoliths, differed in radiocarbon age in surficial sediments along a depth gradient from 10 to 40 m on the warm-temperate Israeli shelf, and we modeled their dynamics of taphonomic loss. We found that, in spite of the higher potential of fishes for out-of-habitat transport after death, differences in age structure within depths were smaller by almost an order of magnitude than differences between depths. Shell and otolith assemblages underwent depth-specific burial pathways independent of taxon identity, generating death assemblages with comparable time averaging, and supporting the assumption of temporal and spatial co-occurrence of mollusks and fishes. 

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3. Spatial distribution, diversity, and taphonomy of clypeasteroid and spatangoid echinoids of the central Florida Keys

   https://doi.org/10.7717/peerj.14245  

   Grun, Tobias B.; Kowalewski, Michał (January 2022, PeerJ)

   Background Irregular echinoids are ecosystem engineers with diverse functional services. Documenting present-day distribution of those widespread organisms is important for understanding their ecological significance and enhancing our ability to interpret their rich fossil record. Methods This study summarizes SCUBA surveys of clypeasteroid and spatangoid echinoids conducted in 2020 and 2021 along the central part of the Florida Keys. The survey included observations on both live and dead specimens, their distribution, habitat preferences, abundance, and live-dead comparison. Results Echinoids were found at 17 out of 27 examined sites (63%) and occurred across a wide range of habitats including coastal seagrass meadows, subtidal sand and seagrass settings of the Hawk Channel, backreef sands, and fine muddy sands of deeper forereef habitats. The encountered species, both dead and alive, included Clypeaster rosaceus (four sites), Clypeaster subdepressus (five sites), Encope michelini (three sites), Leodia sexiesperforata (eight sites), Meoma ventricosa (nine sites), and Plagiobrissus grandis (four sites). All sites were dominated by one species, but some sites included up to five echinoid species. Live-dead fidelity was high, including a good agreement in species composition of living and dead assemblages, congruence in species rank abundance, and overlapping spatial distribution patterns. This high fidelity may either reflect long-term persistence of local echinoid populations or fragility of echinoid tests that could prevent post-mortem transport and the formation of time-averaged death assemblages. Regardless of causative factors, the live-dead comparisons suggest that irregular echinoid assemblages, from settings that are comparable to the study area, may provide a fossil record with a high spatial and compositional fidelity. The survey of live fauna is consistent with past regional surveys in terms of identity of observed species, their rank abundance, and their spatial distribution patterns. The results suggest that despite increasingly frequent hurricanes, active seasonal fisheries, massive tourism, and urban development, irregular echinoids continue to thrive across a wide range of habitats where they provide diverse ecosystem services by oxygenating sediments, recycling organic matter, supporting commensal organisms, and providing food to predators. Results reported here document the present-day status of local echinoid populations and should serve as a useful reference point for assessing future regional changes in echinoid distribution and abundance. 

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4. Arctic bivalve dead-shell assemblages as high temporal- and spatial- resolution archives of ecological regime change in response to climate change

   https://doi.org/10.1144/SP529-2022-131  

   Meadows, Caitlin A.; Grebmeier, Jacqueline M.; Kidwell, Susan M. (October 2022, Geological Society, London, Special Publications)

   Abstract A 15-year time-series of data on benthic community response to rapid climate change at a biomass ‘hotspot’ in the northern Bering Sea, Alaska, provides an exceptional opportunity to evaluate naturally occurring molluscan dead-shell assemblages as ecological archives. We find that, at five middle-shelf stations censused annually from 2000 to 2014, dead-shell assemblages collected in 2014 are dominated by obligate deposit-feeding Nuculanidae bivalves as opposed to the other families in that guild or the facultative deposit-feeding Tellinidae that dominate the most recent living bivalve assemblages, thus correctly detecting the location and direction of known ecological changes. However, live–dead contrast is significant where the bivalve biomass and abundance has declined over time, and muted where bivalve abundances, and therefore shell input, increased, underscoring the general danger of assuming constant shell input. We also find that proportional abundance-based measures are best suited for detecting benthic response to climate change. Combined with preliminary results from shell age-dating, these results indicate that dead-shell assemblages provide a short-lived but compositionally faithful ecological memory well-suited for detecting recent site- and habitat-level ecological change under cold-water conditions. With marine regime change suspected to now be underway throughout the Arctic, molluscan dead-shell assemblages should become an integral part of efforts to detect transitioning regions. 

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5. Comparison of taphonomic estimates for two common underwater sampling methodologies

   https://doi.org/10.1080/08912963.2025.2482794  

   Torres, Luis; Kowalewski, Michał (April 2025, Historical Biology)

   Young, Mark T (Ed.)

   Whereas all sampling methods induce biases, implementation of different methodologies may amplifychallenges associated with numerical comparisons within and across case studies. SCUBA-based underwatersediment sampling, commonly utilised in marine biology and palaeontology, employs two popular meth-odologies: hand collection and HVAC-suction sampling. Here, we compared relative mass proportions ofmollusc and echinoid remains extracted from hand and HVAC sourced sediment samples collected from foursites representing three distinct depositional and climatic settings. Collected specimens were classified asfragmentary, complete dead, or live-collected, with relative abundances estimated via total mass (g)measurements. Hand and HVAC sample comparisons indicated consistent, statistically indistinguishablemass proportion estimates of live-collected molluscs, complete dead molluscs/echinoids, and fragmentarymolluscs, including the mass proportions of mollusc fragments relative to complete dead molluscs (Hand:0.807; HVAC: 0.788; p = 0.77), complete dead echinoids relative to combined complete mollusc/echinoidmass (Hand: 0.01; HVAC: 0.004; p = 0.62) and live-collected molluscs relative to complete dead molluscs(Hand: 0.067; HVAC: 0.064; p = 0.96). The results of this study do not necessarily indicate an unbiasedsampling process but rather that both methodologies produced comparable, statistically indistinguishableestimates, thus justifying their joint usage when obtaining benthic samples for analyses. (PDF) Comparison of taphonomic estimates for two common underwater sampling methodologies. Available from: https://www.researchgate.net/publication/390398643_Comparison_of_taphonomic_estimates_for_two_common_underwater_sampling_methodologies [accessed Sep 05 2025]. 

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