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1. Activating the Paleontological Research Potential of Life History Data in Living Collections: A Case Study at the Duke Lemur Center

   Whitman, Karie; Riddle, Catherine; Mazza, Amanda; Heritage, Steven; Neely, Kate; Yapuncich, Gabriel; Borths, Matthew (October 2024, Society of Vertebrate Paleontology 2024 Annual Meeting Program and Abstracts)

   Evans, Alistair; Peecook, Brandon; Bai, Bin; Benito, Juan; Capobianco, Alessio; Chapelle, Kimberley; Chiarenza, Alfio; Davis, Brian; Delcourt, Rafael; Ehret, Dana (Ed.)

   Interpretations of extinct vertebrate anatomy, behavior, and life history are built upon comparative anatomy data from neontological collections. Ideally, these interpretations are informed by metadata collected while the organism was alive such as diet, mass throughout life, social relationships, and reproductive history. Unfortunately, these data are not available for many specimens as natural history collections have focused on wild-caught individuals for which mass at collection, sex, and collection locality are typically the only associated data. In contrast, extensive life-history data are collected from organisms in sustained human care, but transferring these data from zoos to natural history collections is not standardized or prioritized. The Duke Lemur Center (DLC) has been designing a database that allows researchers access to morphological and life-history data derived from animals that were part of the living research colony. The DLC is home to over 200 lemurs representing 16 different species. The colony has access to open air, multi-acre habitats. For over 50 years the AZA-accredited DLC has been a platform for non-invasive research on strepsirrhine primates and the DLC Museum is the repository for DLC specimens and fossils related to the evolution of primates. The colony’s breeding records, veterinary care, husbandry data, locomotor behaviors, and diets are recorded by researchers and staff. However, these data are disaggregated, making it difficult to explore. The DLC Data Team started by generating microCT scans of the osteology and frozen cadaver collection to make morphological data available on MorphoSource. Preserved specimens were rehoused and inventoried. Now we are using DLC-developed REDCap database management tools to network scans with life-history records, building a database that researchers can use to explore questions such as individual variation in tooth wear, osteological signatures of different pathologies, and individual biomechanical performance. The REDCap database is also used to store fossil metadata like field notes and specimen preparation records. Our goal is to make these database tools available to other living colonies and natural history collections, so life-history data can be shared and standardized across institutions. This effort – in collaboration with the ZooMu network – will ultimately make life histories accessible to researchers – including paleontologists exploring the fossil record. 

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2. ESTIMATING THE NET EFFECT OF FUNCTIONAL TRAITS ON EXTINCTION IN PLIOCENE TO MODERN MOLLUSKS

   https://doi.org/10.1130/abs/2023AM-389992  

   Rojas, Daniel; Lieberman, Bruce; Anderson, Brendan M.; Hendricks, Jonathan; Portell, Roger W. (August 2023, Geological Society of America Abstracts with Programs)

   The influence of functional traits on species survivorship has been evaluated in various contexts in both modern and ancient ecosystems, but an important direction for research is to integrate datasets that include both extinct and extant taxa. This approach can provide a more reliable understanding of the effects of functional traits on macroecological and macroevolutionary dynamics. Knowledge of the links between individual traits and survivorship is crucial for developing accurate extinction risk predictive models. Here we test the impact of numerous functional traits on the survival and extinction of species through time, using bivalve and gastropod species from the rich fossil record of the western Atlantic over the last ~3 million years, along with the associated extant biota. We also compare the impact of these organismic traits on survival relative to a group level trait: geographic distribution. Analyses use a dataset of 12 functional traits including life habit, feeding behavior and basal metabolic rate (BMR), for 115 species from 36 families. Traits were observed and measured from specimens in the collections of the Paleontological Research Institution, Florida Museum of Natural History, and University of Kansas, as well as surveys of the literature and online databases such as the Neogene Marine Biota of Tropical America (NMITA). Results derived from Principal Coordinates Analysis (PCoA) show there is a clear distinction between extinct and extant species, overall, when comparing them based on life habit, maximum body size, shell composition and BMR. Most traits showed little direct relation with survival, except BMR and associated maximum body size, supporting the Metabolic Theory of Ecology. Since many functional traits do not explain survival, their function may be mis- or over-interpreted, and traits posited to represent important organismic adaptations may not play a prominent role in long-term species survival, especially during the major climate changes over the last ~ 3 million years. Some traits do show significant interactions, and these were more fully explored using additional multivariate analyses. The relative importance of geographic range size suggests group-level characters may be the primary determinant of extinction patterns over macroevolutionary time scales. 

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3. A virtual repository of Lower Siwalik Miocene fossils from Ramnagar (Udhampur District, Jammu & Kashmir), India.

   Patel, B.A.; Gilbert, C.C.; Sehgal, R.K.; Singh, N.P.; Di, A.; Choudhary, D.; Wazir, W.A.; Campisano, C.J.; Patnaik, R. (March 2022, American journal of physical anthropology)

   Vertebrate fossils have been known from Lower Siwalik Miocene deposits surrounding the town of Ramnagar (Udhampur District, Jammu & Kashmir) in northwest India since Barnum Brown’s American Museum of Natural History (AMNH) expedition in 1922. These fossils included dentognathic specimens of Sivapithecus and other Chinji Formation-aged mammals. Paleontological fieldwork has continued sporadically in the Ramnagar region ever since, and in that time, a large number of vertebrate fossils have been recovered by many different researchers and institutions, including the recently discovered primates Kapi and Ramadapis. Ramnagar fossils are currently housed in several institutions across India and the United States, thereby making it challenging to comprehensively study the entire collection. Consequently, a full understanding of important questions related to the taxonomy, paleobiology, paleoecology, and biochronology of the Ramnagar fauna cannot be readily obtained. Moreover, without answers to these questions, correlations and comparisons cannot be accurately made to other similar aged fossil localities in the Siwaliks (i.e., Potwar Plateau, Pakistan) and elsewhere in Eurasia. Therefore, the goal of this collaborative project is to establish and grow a 3D digital repository of all fossil specimens from the Ramnagar region for continued comprehensive study. We employ µCT, surface scanning, and photogrammetry to virtually bring together specimens from the AMNH, Panjab University, Wadia Institute of Himalayan Geology, and Yale Peabody Museum. Thus far, >100 specimens have been digitized and made openly accessible on the MorphoSource web platform. Here we highlight some of the best-preserved specimens, including recovered primates and micromammals, and discuss their scientific importance. 

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4. MORPHOLOGY AND PRESERVATION OF GAOJIASHANIA , AN ENIGMATIC TUBULAR FOSSIL FROM THE UPPER EDIACARAN DUNFEE MEMBER, DEEP SPRING FORMATION, NEVADA, USA

   https://doi.org/10.2110/palo.2024.007  

   Rivas, Ashley; Myrow, Paul M; Smith, Emily F; Nelson, Lyle L; Briggs, Derek EG; Tarhan, Lidya G (December 2024, Palaios)

   Abstract The upper Ediacaran stratigraphic record hosts fossil assemblages of Earth’s earliest communities of complex, macroscopic, multicellular life. Tubular fossils are a common and diverse, though frequently undercharacterized, component of many of these assemblages. Gaojiashania cyclus is an enigmatic tubular fossil and candidate index fossil found in upper Ediacaran strata globally and is best known from the Gaojiashan Lagerstätte of South China. Here we describe a recently discovered assemblage of Gaojiashania fossils from the Ediacaran Dunfee Member of the Deep Spring Formation of Nevada, USA. Both body and trace fossil affinities have been proposed for Gaojiashania; we present morphological and biostratinomic evidence for a body fossil affinity for the Dunfee specimens. Additionally, previous studies have highlighted that Ediacaran tubular fossils are characterized by a wide range of preservational modes, including association with pyrite, apatite, or clay minerals and preservation as carbonaceous compressions. Petrographic, SEM, and EDS data indicate that the Dunfee Gaojiashania specimens are preserved as ‘Ediacara-style’ external, internal and composite molds, in siltstone and sandstone with a clay mineral-rich matrix of both aluminosilicates and non-aluminous Mg- and Fe-rich silicate minerals that we interpret as authigenic clays. Authigenic clay-mediated fossilization of unmineralized tissues, including moldic preservation in heterolithic siliciclastic strata, as indicated by the Dunfee Gaojiashania, may be linked to the prevalence of both silica-rich and ferruginous seawater conditions prior to both the radiation of silica-biomineralizing organisms and the rise of ocean and atmospheric oxygen to modern levels. In this light, clay authigenesis may have played a critical role in facilitating multiple modes of Ediacaran and Cambrian exceptional fossilization, thus shaping the stratigraphic distribution of a range of Ediacara macrofossil taxa. 

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5. A virtual repository of Lower Siwalik Miocene fossils from Ramnagar (Udhampur District Jammu & Kashmir), India.

   Patel, B.A. (January 2022, American journal of physical anthropology)

   Vertebrate fossils have been known from Lower Siwalik Miocene deposits surrounding the town of Ramnagar (Udhampur District, Jammu & Kashmir) in northwest India since Barnum Brown’s American Museum of Natural History (AMNH) expedition in 1922. These fossils included dentognathic specimens of Sivapithecus and other Chinji Formation-aged mammals. Paleontological fieldwork has continued sporadically in the Ramnagar region ever since, and in that time, a large number of vertebrate fossils have been recovered by many different researchers and institutions, including the recently discovered primates Kapi and Ramadapis. Ramnagar fossils are currently housed in several institutions across India and the United States, thereby making it challenging to comprehensively study the entire collection. Consequently, a full understanding of important questions related to the taxonomy, paleobiology, paleoecology, and biochronology of the Ramnagar fauna cannot be readily obtained. Moreover, without answers to these questions, correlations and comparisons cannot be accurately made to other similar aged fossil localities in the Siwaliks (i.e., Potwar Plateau, Pakistan) and elsewhere in Eurasia. Therefore, the goal of this collaborative project is to establish and grow a 3D digital repository of all fossil specimens from the Ramnagar region for continued comprehensive study. We employ µCT, surface scanning, and photogrammetry to virtually bring together specimens from the AMNH, Panjab University, Wadia Institute of Himalayan Geology, and Yale Peabody Museum. Thus far, >100 specimens have been digitized and made openly accessible on the MorphoSource web platform. Here we highlight some of the best-preserved specimens, including recovered primates and micromammals, and discuss their scientific importance. Funding generously provided by the U.S. National Science Foundation (BCS-1945618, BCS-1945736, BCS-1945743) and the Leakey Foundation. 

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