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1. Body-size evolution in gastropods across the Plio-Pleistocene extinction in the western Atlantic

   https://doi.org/10.1371/journal.pone.0313060  

   Anderson, Brendan M; Petsios, Elizabeth; Behn, Jessica; Betz, Amy; Allmon, Warren D; Lieberman, Bruce S; Hendricks, Jonathan R (December 2024, PLOS ONE)

   Naser, Murtada D (Ed.)

   The Plio-Pleistocene turnover event in the western Atlantic following the closure of the Central American Seaway involved high rates of extinction for both gastropod and bivalve molluscs. This extinction was associated with declining nutrient conditions and has been presumed to be associated with a decrease in molluscan body size. Previous work which has been concordant with this expectation, however, has either focused on bivalves or not considered the effects of the recovery post extinction. In three phylogenetically diverse clades, we found that body-size evolution in gastropods across the turnover event is likely tied to ecology. One clade increased in size, one decreased, and another exhibited no substantial change. Individual species lineages exhibit a mixture of microevolutionary changes from the Pliocene to today. This study indicates that gastropod body-size evolution may be more complex than in bivalves, with ecology and other functional traits playing a significant role. Macroevolutionary processes, especially whether a clade re-radiated post extinction, were found to be important. Indeed, a low portion of extant diversity consists of survivors from clades that increased in size or have similar size distributions among their species relative to the Pliocene. 

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2. FUNCTIONAL TRAITS AND SURVIVABILITY IN WEST ATLANTIC MOLLUSKS

   https://doi.org/10.1130/abs/2023AM-392761  

   Betz, Amy; Anderson, Brendan; Hendricks, Jonathan; Portell, Roger W.; Strotz, Luke; Lieberman, Bruce (August 2023, Geological Society of America Abstracts with Programs)

   Predicting the effects of anthropogenic climate change on Earth’s marine mollusk species is highly relevant, as many are critical human food resources and indispensable members of marine ecosystems. To predict which species will go extinct and which will survive, it is essential to understand the past climate species have experienced, as well as determine the relationship between functional traits, which provide a direct connection to organismal ecology, and survival. Many extant West Atlantic (WA) mollusks, especially gastropods and bivalves, survived the Mid-Pliocene Warm Period and the Last Interglacial, warm intervals compared to the present, that can serve as analogues for predicted future conditions of anthropogenic climate change. WA mollusks have an exceptional Neogene fossil record, which makes them an ideal group to study to develop a predictive extinction risk framework. The present research focuses on the correlation between functional traits and extinction in over 80 species of WA mollusks, both extant and extinct. Functional trait data such as body size, mobility, diet, bathymetric depth range, and organism-substrate relationship, which correlate with metabolic requirements, a known factor in extinction risk, and degree and type of ornamentation, shell shape in bivalves, and narrowness of the aperture in gastropods, which correlate with predation resistance, were collected across these species. These comprise both continuous and discrete character data. Various statistical tests were applied to the database to examine variable correlation/interaction, and the relative contributions of traits to extinction risk. Traits related to metabolism were strong predictors of survival; traits related to predation resistance play a less important role. While this study focuses on organismic traits, the aim of future research will be to explore how group characteristics such as geographic range are associated with functional traits and extinction risk for these species. A predictive framework is developed using patterns of extinction in the fossil record to infer survival of various species in the future, which will be relevant for evaluating the potential consequences of climate change, global change biology, and for determining which species should be targeted for conservation efforts. 

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3. CHANGES IN DRILLING AND PEELING PREDATION ON TURRITELLID GASTROPODS ASSOCIATED WITH THE PLIOCENE WESTERN ATLANTIC REGIONAL MASS EXTINCTION

   https://doi.org/10.1130/abs/2023AM-393122  

   Storozhynska, Nina; Anderson, Brendan; Allmon, Warren D. (August 2023, Geological Society of America Abstracts with Programs)

   The Plio-Pleistocene regional mass extinction of molluscan fauna of Florida and the US Atlantic coastal plain was followed by a period of rapid origination, resulting in similar modern regional species richness. Predator and prey relationships were impacted by high extinction rates across all taxa. Previous studies have suggested that the extinction is associated with a possible system-wide decline in predation intensity, but data from additional prey species both prior to and after the extinctions are needed to determine how general this pattern may be. We examined predatory trace fossils on turritellid gastropods, a clade which experienced substantial extinction during this time. Overall rates of peeling predation on turritellid gastropods across the extinction boundary decreased – with turritellid species having an average peel-repair frequency of 0.41 in the Plio-Pleistocene compared to a frequency of 0.16 in modern samples. However, in the two surviving lineages, Turritella perexilis and Torcula exoleta, peel-repair frequency was similar in the Plio-Pleistocene samples and in modern samples. Fossil T. perexilis had a peel frequency of 0.26, compared to the modern samples’ peeling frequency of 0.14. Fossil T. perattenuata had a peeling frequency of 0.18, while its descendant, T. exoleta, had a peeling frequency of 0.17. Additionally, the incidence of multiple attacks in modern samples is markedly lower. While a majority (89%) of turritellid species went extinct during this event, most fossil species had higher peel-repair frequencies than fossils of the surviving lineages. In contrast with peeling frequency, the frequency of drilling predation on modern descendants is higher than their fossil ancestors (0.21 vs 0.02 and 0.14 vs. 0.11 for T. exoleta/T. perattenuata and T. perexilis, respectively). Across all species, drilling increased from an average of 0.11 in the Plio-Pleistocene samples to 0.19 in modern samples. These results suggest that as turritellid prey diversity decreased, predators may have adapted to attack surviving species, or these lineages may have become more vulnerable to their predators. 

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4. Convergence and contingency in the evolution of a specialized mode of life: multiple origins and high disparity of rock-boring bivalves

   https://doi.org/10.1098/rspb.2022.1907  

   Collins, Katie S.; Edie, Stewart M.; Jablonski, David (February 2023, Proceedings of the Royal Society B: Biological Sciences)

   Evolutionary adaptation to novel, specialized modes of life is often associated with a close mapping of form to the new function, resulting in narrow morphological disparity. For bivalve molluscs, endolithy (rock-boring) has biomechanical requirements thought to diverge strongly from those of ancestral functions. However, endolithy in bivalves has originated at least eight times. Three-dimensional morphometric data representing 75 species from approximately 94% of extant endolithic genera and families, along with 310 non-endolithic species in those families, show that endolithy is evolutionarily accessible from many different morphological starting points. Although some endoliths appear to converge on certain shell morphologies, the range of endolith shell form is as broad as that belonging to any other bivalve substrate use. Nevertheless, endolithy is a taxon-poor function in Bivalvia today. This limited richness does not derive from origination within source clades having significantly low origination or high extinction rates, and today's endoliths are not confined to low-diversity biogeographic regions. Instead, endolithy may be limited by habitat availability. Both determinism (as reflected by convergence among distantly related taxa) and contingency (as reflected by the endoliths that remain close to the disparate morphologies of their source clades) underlie the occupation of endolith morphospace. 

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5. The Plio-Pleistocene Pinecrest Beds: Problems, progress, and potential

   Hendricks, JR; Anderson, BM; Portal, RW; Lee, HG; Allmon, WD (July 2024, Museum of Paleontology, The University of Michigan; University of Michigan Papers on Paleontology)

   The Plio-Pleistocene Pinecrest beds (Tamiami Fm.) of southern Florida rank amongst the most species-rich assemblages known from the Cenozoic macrofossil record. The tropical to subtropical fauna of the Pinecrest beds includes hundreds of mollusk species and subspecies (perhaps over 1,000), as well as diverse corals, bryozoans, and vertebrates. Some elements of the Pinecrest fauna are extant, but most species went extinct during one or more extinction pulses early in the Pleistocene. There was significant species turnover, but perhaps limited overall change in biodiversity relative to the present. Characterization of biotic change during this interval is important for understanding the evolution of the modern molluscan fauna of the southeastern United States but is unfortunately stymied by two major confounding factors. First, there are no natural exposures of the Pinecrest, and detailed sections have only been exposed in now-flooded quarries near Sarasota, Florida. Most samples from these and other quarries and canal cuts come from spoil piles, which often mix shells from multiple time intervals and habitats, limiting stratigraphic and ecological resolution for occurrence records. Second, the mollusks of the Pinecrest have not been comprehensively treated systematically and some elements of the macrofauna have likely been taxonomically over-split, leading to confusion and wariness among researchers about using published records in analyses. Conversely, the micromollusk fauna (<5.5 mm) has been understudied and many new species await description. Refining our understanding of this major regional turnover event is dependent upon a stable taxonomic foundation and supporting specimen occurrence data. Current estimates of diversity from literature and museum datasets do not closely align. Literature from the mid 1990s suggest over 550 species of gastropods and 250 species of bivalves in the Pinecrest beds, but numerous species have been described subsequently, the majority in the gray literature. In contrast to published tallies, over 1,000 and 400 names have been applied, respectively, to Pinecrest gastropods and bivalves in the collections the Florida Museum of Natural History, representing 140 families. Over 280 micromollusk species may also be present in the Pinecrest fauna. We have begun a project to comprehensively refine and substantiate these estimates of biodiversity to better characterize the Plio-Pleistocene turnover event(s) that led to the establishment of the modern fauna. Funding source: This research is supported by NSF DEB 2225014. 

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