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8. Direct Measurement of the Mutation Rate and Its Evolutionary Consequences in a Critically Endangered Mollusk.

Author

Wooldridge, T, Ford, Sarah, Conwell, Holland, Hyde, John, Harris, Kelley, and Shapiro, Beth

Subjects
conservation, mollusk, mutation rate, phylogenomics, Animals, Mutation Rate, Endangered Species, Gastropoda, Biological Evolution, Evolution, Molecular, Germ-Line Mutation, Mollusca, Population Density
Abstract

The rate at which mutations arise is a fundamental parameter of biology. Despite progress in measuring germline mutation rates across diverse taxa, such estimates are missing for much of Earths biodiversity. Here, we present the first estimate of a germline mutation rate from the phylum Mollusca. We sequenced three pedigreed families of the white abalone Haliotis sorenseni, a long-lived, large-bodied, and critically endangered mollusk, and estimated a de novo mutation rate of 8.60 × 10-9 single nucleotide mutations per site per generation. This mutation rate is similar to rates measured in vertebrates with comparable generation times and longevity to abalone, and higher than mutation rates measured in faster-reproducing invertebrates. The spectrum of de novo mutations is also similar to that seen in vertebrate species, although an excess of rare C > A polymorphisms in wild individuals suggests that a modifier allele or environmental exposure may have once increased C > A mutation rates. We use our rate to infer baseline effective population sizes (Ne) across multiple Pacific abalone and find that abalone persisted over most of their evolutionary history as large and stable populations, in contrast to extreme fluctuations over recent history and small census sizes in the present day. We then use our mutation rate to infer the timing and pattern of evolution of the abalone genus Haliotis, which was previously unknown due to few fossil calibrations. Our findings are an important step toward understanding mutation rate evolution and they establish a key parameter for conservation and evolutionary genomics research in mollusks.

Published
2025

9. The quagga mussel, Dreissena rostriformis : a novel model for EcoEvoDevo, environmental research, and the applied sciences.

Author

Wanninger, Andreas and Schwarze, Gudrun

Subjects
APPLIED sciences, EVOLUTIONARY developmental biology, GLOBAL warming, ZEBRA mussel, BIOMIMETICS
Abstract

Bivalve mollusks are globally distributed in marine and freshwater habitats. While exhibiting a relatively uniform bodyplan that is characterized by their eponymous bivalved shell that houses the soft-bodied animal, many lineages have acquired unique morphological, physiological, and molecular innovations that account for their high adaptability to the various properties of aquatic environments such as salinity, flow conditions, or substrate composition. This renders them ideal candidates for studies into the evolutionary trajectories that have resulted in their diversity, but also makes them important players for research concerned with climate change-induced warming and acidification of aquatic habitats. Some species, such as the blue and Mediterranean as well as the zebra and quagga mussels, form biodegradable fibers, the byssus threads. These have significant potential for biomimetic approaches by aiding in developing sustainable textiles and other fiber-based fabrics. Despite this broad span of scientific relevance, bivalves remain dramatically understudied and key resources such as high-quality genomes and developmental transcriptomes in combination with established laboratory protocols to carry out state-of-the-art molecular and morphological studies are only available for less than a handful of species. Here, we report on one of the best-investigated bivalves in this respect, the quagga mussel, Dreissena rostriformis , an invasive freshwater species. We summarize the current state of knowledge and available resources that make the quagga mussel highly amenable for studying adaptive mechanisms for life in hypoosmotic environments, biomineralization, biomimetics, and evolutionary developmental biology. We argue that the unique combination of biological features and the broad relevance of the quagga mussel for the basic and the applied sciences as well as for biomonitoring and conservation biology measures call for intensified research efforts using Dreissena rostriformis as a model. [ABSTRACT FROM AUTHOR]

Published
2025
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10. Comparative evaluation of specimen type and processing conditions for studying oyster microbiomes.

Author

Almuhaideb, Esam, Hasan, Nur A., Grim, Christopher, Rashed, Shah Manzur, and Parveen, Salina

Subjects
AMERICAN oyster, VIBRIO vulnificus, BACTERIAL communities, SPECIES diversity, DRUG resistance in microorganisms
Abstract

Metagenomic sequencing is increasingly being employed to understand the assemblage and dynamics of the oyster microbiome. Specimen collection and processing steps can impact the resultant microbiome composition and introduce bias. To investigate this systematically, a total of 54 farmed oysters were collected from Chesapeake Bay between May and September 2019. Six different specimen types and processing methods were evaluated for microbial community composition using shotgun metagenomics, namely fresh oyster homogenate (FOH), oyster homogenate after simulated temperature abuse (AOH), Luria broth-enriched oyster homogenate (EOH), dissected stomach homogenate (DSH), hemolymph (HLM), and stomach-gut content (SGC). In general, DSH, EOH, and FOH yielded the highest DNA concentration, while EOH had the highest microbial reads, followed by DSH, HLM, and FOH. HLM produced the highest bacterial species alpha diversity, followed by AOH, EOH, and SGC. Although alpha diversities did not differ significantly, beta-diversity measurements showed significant dissimilarity among methods (p < 0.05) indicating that the specimen types and processing steps do play an important role in representing the composition of the bacterial community. Bacterial species that had the highest log mean abundance included Cyanobium sp. PCC 7001 in FOH, Vibrio vulnificus in AOH, EOH, and DSH, and lastly Synechococcus sp. CB0205 in the DSH, HML, and SGC samples. EOH displayed higher bacterial hits, distinct microbial composition, and higher values of bacterial, phages, and antimicrobial resistance gene reads. Therefore, if studying the overall oyster microbial community, prioritizing optimum specimen collection and processing methods that align with the overall goal of the study is recommended. [ABSTRACT FROM AUTHOR]

Published
2025
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11. Benthic Mollusk Biodiversity Correlates with Polluted Sediment Conditions in a Shallow Subtropical Estuary.

Author

Stark, Rachael H. and Johnson, Kevin B.

Subjects
CONTAMINATED sediments, SPECIES diversity, ECOLOGICAL impact, WATER quality, BIOINDICATORS
Abstract

To quantify the ecological impacts of organic sediments and environmental dredging, benthic mollusks were chosen as bioindicators of environmental change, measured as sediment organic content and associated parameters. Data on species richness, ecological diversity (which was measured as biodiversity), and abundances were collected alongside sediment and near-bottom water quality data before, during, and after environmental dredging. Organic sediment content was found to have an inverse logarithmic relationship with benthic mollusk biodiversity, species richness, and abundance. Post hoc analyses found that percent dissolved oxygen, which correlates with sediment organic content, was responsible for 29.31–34.12% of the benthic mollusk community variation. Sediments with lower organic content had higher biodiversity (organism densities up to 1 organism m−2), abundance (over 2.0 × 105 organisms m−2), and species richness (organism densities up to 4 organisms m−2). In comparison, sediments with higher organic content had low biodiversity (organism densities 0–1 organisms m−2), abundance (as low as 0 organisms m−2), and species richness (organism densities as low as 0 organisms m−2). [ABSTRACT FROM AUTHOR]

Published
2025
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12. The Invertebrate Immunocyte: A Complex and Versatile Model for Immunological, Developmental, and Environmental Research.

Author

Sacchi, Sandro, Malagoli, Davide, and Franchi, Nicola

Subjects
*BIOLOGICAL systems, *POMACEA canaliculata, *SUSTAINABLE development, *ENVIRONMENTAL research, *INVERTEBRATE diversity
Abstract

The knowledge of comparative and developmental immunobiology has grown over the years and has been strengthened by the contributions of multi-omics research. High-performance microscopy, flow cytometry, scRNA sequencing, and the increased capacity to handle complex data introduced by machine learning have allowed the uncovering of aspects of great complexity and diversity in invertebrate immunocytes, i.e., immune-related circulating cells, which until a few years ago could only be described in terms of morphology and basic cellular functions, such as phagocytosis or enzymatic activity. Today, invertebrate immunocytes are recognized as sophisticated biological entities, involved in host defense, stress response, wound healing, organ regeneration, but also in numerous functional aspects of organismal life not directly related to host defense, such as embryonic development, metamorphosis, and tissue homeostasis. The multiple functions of immunocytes do not always fit the description of invertebrate organisms as simplified biological systems compared to those represented by vertebrates. However, precisely the increasing complexity revealed by immunocytes makes invertebrate organisms increasingly suitable models for addressing biologically significant and specific questions, while continuing to present the undeniable advantages associated with their ethical and economic sustainability. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Dietary Probiotic Rhodopseudomonas palustris Formulation Improves Growth Performance, Muscle Composition, Digestive Enzyme Activity, Non-Specific Immunity and Disease Resistance of Juvenile Ivory Shell (Babylonia areolata).

Author

Wang, Xiao, Lu, Yao-Peng, Zhang, Ze-Long, Zheng, Pei-Hua, Li, Jun-Tao, Zhang, Xiu-Xia, Li, Jia-Jun, Wu, Heng-Mei, and Xian, Jian-An

Subjects
*DIGESTIVE enzymes, *ACID phosphatase, *RHODOPSEUDOMONAS palustris, *OXIDANT status, *DIETARY supplements, *SUPEROXIDE dismutase
Abstract

Rhodopseudomonas palustris (RP) are known anaerobic bacteria with probiotic properties containing several bioactive compounds and enzymes that benefit aquatic animals. However, studies on the use of RP on aquatic animal species are limited. This study investigated the effects of dietary supplementation with RP formulation on the growth, non-specific immunity, and disease resistance of juvenile ivory shells (Babylonia areolata). The experiment was conducted for 8 weeks, with B. areolata fed a control diet (RP0) and four diets containing four different RP formulations, with doses of 1 (RP1), 5 (RP2), 10 (RP3), and 20 (RP4) g/kg, respectively. Higher levels of R. palustris in the formulation led to increased final weight, weight gain, and specific growth rate in B. areolata. The crude protein content was significantly higher in the RP4 group compared to the RP0 group. However, there was no significant difference in the crude lipid content. Higher levels of R. palustris in the RP4 formulation group increased the trypsin and lipase activities. Dietary supplementation with RP significantly increased the total antioxidant capacity, superoxide dismutase, and catalase activities and decreased the malondialdehyde content in B. areolata. Acid phosphatase and alkaline phosphatase activities were significantly increased in the RP4 group compared to the RP0 group. Dietary RP significantly increased the expression levels of antioxidant-related (superoxide dismutase, Cu/Zn-superoxide dismutase, glutathione S-transferase A-like, ferritin) and immune-related (acid phosphatase, cytochrome c) genes. Higher levels of R. palustris in the formulations RP3 and RP4 increased the survival rate of B. areolata challenged with Vibrio parahaemolyticus. These findings indicate that R. palustris preparation could improve growth performance, muscle composition, and digestive capacity and may act as an immune booster for preventing disease in B. areolata. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Herbivore kairomones affect germination speed, seedling growth, and herbivory.

Author

Pellegrini, Brooke A., Pintado, Lina S., Souza, Paige N., Bhavanam, Santhi P., Orians, Colin M., Orrock, John L., and Preisser, Evan L.

Subjects
*MUSTARD, *KAIROMONES, *MUCUS, *BIOMASS, *BIOLOGICAL assay
Abstract

Seeds and seedlings are particularly vulnerable to herbivory. Unlike mature plants, which can wait until herbivory is experienced to induce defense, seeds and seedlings face mortality if they wait. Slug mucus functions as a kairomone, a non-attack-related substance emitted by consumers that is detected by a prey species (in this case, plants). While snail mucus has been shown to induce defense in seedlings, it is not widely confirmed whether slugs have the same effect and whether seeds can also detect and react to such herbivore cues. We investigated how exposure to Arion subfuscus mucus affected growth and defense in Brassica nigra seeds and seedlings. Seeds exposed to slug mucus germinated 5% faster than control (water only) seeds, but the resulting seedlings weighed 16% less than control seedlings. To test whether this difference results from herbivore-exposed plants allocating energy from growth to defense, we conducted choice bioassays assessing slug preference for control seedlings versus seedlings that were either (A) exposed to mucus only as a seed; or (B) exposed to mucus as a seed and seedling. While slugs did not differentiate between control seedlings and ones exposed to herbivore cues only as a seed, they ate 88% less biomass of seedlings exposed to mucus as both seeds and seedlings. These results suggest that slug mucus induces changes in plant traits related to defense and growth/competitive ability. Future research should determine the chemical mechanisms of this induced defense. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Detrimental effect of the harmful dinoflagellate Karenia mikimotoi on Japanese common squid Todarodes pacificus.

Author

Natsuike, Masafumi, Yamamoto, Jun, Konishi, Tetsuya, Kimura, Shunsuke, Kitagawa, Masahiko, and Itaya, Kazuhiko

Subjects
*RED tide, *WILCOXON signed-rank test, *ALGAL blooms, *BONFERRONI correction, *SQUIDS, *KARENIA brevis
Abstract

Japanese common squid Todarodes pacificus was exposed to the red tide-causing dinoflagellate Karenia mikimotoi, collected from a red tide event in Hakodate Port, in seawater at four densities (0, 90, 320, and 1900 K. mikimotoicells mL−1) for 24 h. The number of squids that sunk to the bottom every hour and the survival of squids were recorded every 3 h. Squids in the group exposed to the highest cell density of K. mikimotoi began to sink to the bottom within 1 h of the start of the exposure test, and the frequency of anomalies (sinking or death) was significantly higher in this group than in the other groups (Wilcoxon signed-rank test with Bonferroni correction, P-values < 0.001). Hazard ratios for squid mortality were affected by K. mikimotoi cell density (Cox proportional hazards model; P-values < 0.01). These results suggest that K. mikimotoi is harmful to the Japanese common squid and that even short-term exposure to high densities of this alga causes debilitation and loss of swimming ability, leading to death. The debilitation and death of the Japanese common squid by K. mikimotoi has the potential to cause a loss of freshness and a decline in their commercial value, as has been observed during red tide events. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Extremely Rare Finding of a Chiton (Mollusca, Polyplacophora) in a Rocky Intertidal Habitat in Nova Scotia (Canada).

Author

Ellrich, Julius A. and Scrosati, Ricardo A.

Subjects
*ENDANGERED species, *MOLLUSKS, *BIVALVES, *HABITATS, *BIODIVERSITY
Abstract

Chitons are a group of mollusks (polyplacophores) that differ from the mollusks that are most often found on marine rocky shores (bivalves and gastropods). On the Atlantic coast of North America, chitons have been reported in subtidal habitats from Newfoundland (Canada) to New England (USA). Here, we report the finding of Boreochiton ruber at the mid-to-high intertidal zone in a wave-exposed habitat in Nova Scotia (Canada). After surveying various coastal locations across Nova Scotia for 20 years (2004 to 2024), this was the only intertidal chiton we ever found in such habitats, making this an extremely rare occurrence. Rare species may contribute in unique ways to community functioning, making their reports valuable for biodiversity and ecosystem research. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Variation in thermal tolerance plasticity and the costs of heat exposure in the estuarine sea hare, Phyllaplysia taylori

Author

Richelle L. Tanner, Rauri C. K. Bowie, Cynthia Y. Wang‐Claypool, and Jonathon H. Stillman

Subjects
mollusk, physiological plasticity, population genetics, thermal tolerance, Ecology, QH540-549.5
Abstract

Abstract Climate change is increasing average temperatures and the frequency and intensity of thermal extremes in coastal marine environments. Organisms in coastal marine habitats are accustomed to environmental fluctuations and possess physiological plasticity that may be advantageous in response to increased occurrence of extremes. To examine whether such plasticity is locally adapted to environmental conditions, we investigated the relationship between genetic diversity and thermal tolerance plasticity in 11 populations of the direct‐developing intertidal sea hare, Phyllaplysia taylori, on the western coast of the United States. Using whole‐organism metrics of muscle function and metabolic rate and a ddRADseq genomic approach, we were unable to identify correlations between heat tolerance and underlying genetics on a population or individual level. P. taylori from all locations consistently exhibited critical thermal maxima (CTmax) above habitat temperatures (CTmax ranged from 24 to 35°C, average = 30.1 ± 0.2°C; average habitat temperature across habitats ranged from 12 to 20°C, average = 17 ± 2.7°C). We found little evidence for genetic distinctions between populations and high overall genetic diversity, suggesting more gene flow across long distances than was expected from their direct development life history strategy. The breadth of acclimation capacity we observed (11°C) was substantially wider than that reported for other poikilothermic taxa in the literature and did not follow a latitudinal cline. Our findings suggest that high plasticity of thermal tolerance exists across all populations and genetic panmixia is occurring despite life history limitations; thus, heat tolerance traits may not be under positive selection in P. taylori.

Published
2025
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19. Comparative evaluation of specimen type and processing conditions for studying oyster microbiomes

Author

Esam Almuhaideb, Nur A. Hasan, Christopher Grim, Shah Manzur Rashed, and Salina Parveen

Subjects
oyster microbiome, shotgun metagenomics, Crassostrea virginica, mollusk, Vibrio spp., Microbiology, QR1-502
Abstract

Metagenomic sequencing is increasingly being employed to understand the assemblage and dynamics of the oyster microbiome. Specimen collection and processing steps can impact the resultant microbiome composition and introduce bias. To investigate this systematically, a total of 54 farmed oysters were collected from Chesapeake Bay between May and September 2019. Six different specimen types and processing methods were evaluated for microbial community composition using shotgun metagenomics, namely fresh oyster homogenate (FOH), oyster homogenate after simulated temperature abuse (AOH), Luria broth-enriched oyster homogenate (EOH), dissected stomach homogenate (DSH), hemolymph (HLM), and stomach-gut content (SGC). In general, DSH, EOH, and FOH yielded the highest DNA concentration, while EOH had the highest microbial reads, followed by DSH, HLM, and FOH. HLM produced the highest bacterial species alpha diversity, followed by AOH, EOH, and SGC. Although alpha diversities did not differ significantly, beta-diversity measurements showed significant dissimilarity among methods (p

Published
2025
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20. The quagga mussel, Dreissena rostriformis: a novel model for EcoEvoDevo, environmental research, and the applied sciences

Author

Andreas Wanninger and Gudrun Schwarze

Subjects
bivalve, mollusk, evolution, development, evodevo, invasive species, Biology (General), QH301-705.5
Abstract

Bivalve mollusks are globally distributed in marine and freshwater habitats. While exhibiting a relatively uniform bodyplan that is characterized by their eponymous bivalved shell that houses the soft-bodied animal, many lineages have acquired unique morphological, physiological, and molecular innovations that account for their high adaptability to the various properties of aquatic environments such as salinity, flow conditions, or substrate composition. This renders them ideal candidates for studies into the evolutionary trajectories that have resulted in their diversity, but also makes them important players for research concerned with climate change-induced warming and acidification of aquatic habitats. Some species, such as the blue and Mediterranean as well as the zebra and quagga mussels, form biodegradable fibers, the byssus threads. These have significant potential for biomimetic approaches by aiding in developing sustainable textiles and other fiber-based fabrics. Despite this broad span of scientific relevance, bivalves remain dramatically understudied and key resources such as high-quality genomes and developmental transcriptomes in combination with established laboratory protocols to carry out state-of-the-art molecular and morphological studies are only available for less than a handful of species. Here, we report on one of the best-investigated bivalves in this respect, the quagga mussel, Dreissena rostriformis, an invasive freshwater species. We summarize the current state of knowledge and available resources that make the quagga mussel highly amenable for studying adaptive mechanisms for life in hypoosmotic environments, biomineralization, biomimetics, and evolutionary developmental biology. We argue that the unique combination of biological features and the broad relevance of the quagga mussel for the basic and the applied sciences as well as for biomonitoring and conservation biology measures call for intensified research efforts using Dreissena rostriformis as a model.

Published
2025
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21. Snail slime in real time: Challenges in predicting the relationship between environmental DNA and apple snail biomass.

Author

Burks, Romi L., Reynolds, Cassidy, Rosas, Esmeralda, Bashara, Cynthia, Dolapchiev, Lillian, Jerde, Christopher L., and Barnes, Matthew A.

Subjects
*INTRODUCED species, *POMACEA, *SNAILS, *REGRESSION analysis, *MOLLUSKS
Abstract

As environmental DNA (eDNA) becomes a fixture in the invasive species management toolbox, expectations of its utility extend beyond presence/absence to analyses that provide more detailed information about target populations. Studies with fish and other vertebrates have reported moderately reliable, positive relationships between eDNA concentrations and biomass. However, few studies have considered this relationship in invertebrates. To address this gap, we investigated whether increasing biomass of apple snails (Pomacea maculata) resulted in a similar predictive relationship with eDNA concentration, and we did so under cold conditions that make apple snails less conspicuous and more difficult to detect with traditional methods. Placing snails in either distilled or stream water, we used a species-specific quantitative PCR assay to measure eDNA concentrations after 24 hr over an apple snail biomass gradient (0, 2, 4, or 6 snails; 143 to 624 g total biomass). Detection success of eDNA derived from apple snails kept in a small volume (i.e., 13 L) of cold water (13 °C) averaged 66% overall. Successful detection in distilled water (75%) exceeded the overall average. Lower detection efficiency occurred in stream water (58%). Despite the cold conditions, we observed snail activity in 90% of our replicates, but net eDNA accumulation failed to reflect patterns commonly observed with vertebrates. Censored regression modeling efforts, which account for a disproportionate number of zeros (i.e., non-detections), identified a significant predictive relationship between snail biomass and eDNA concentration, but only starting at a high amount of biomass (~ 422 g). Future management strategies to monitor apple snails will likely include eDNA, but its utility in ascertaining biomass remains unclear. Considering the ecology of eDNA of invasive invertebrates will help bolster managers’ ability to understand the utility and limitations of this valuable tool. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Lack of membrane sex steroid receptors for mediating rapid endocrine responses in molluscan nervous systems.

Author

Fodor, István, Matsubara, Shin, Osugi, Tomohiro, Shiraishi, Akira, Kawada, Tsuyoshi, Satake, Honoo, and Pirger, Zsolt

Subjects
STEROID receptors, TRANSMEMBRANE domains, PROGESTERONE receptors, CELL membranes, ENDOCRINE system
Abstract

Despite the lack of endogenous synthesis and relevant nuclear receptors, several papers have been published over the decades claiming that the physiology of mollusks is affected by natural and synthetic sex steroids. With scant evidence for the existence of functional steroid nuclear receptors in mollusks, some scientists have speculated that the effects of steroids might be mediated via membrane receptors (i.e. via non-genomic/non-classical actions) - a mechanism that has been well-characterized in vertebrates. However, no study has yet investigated the ligand-binding ability of such receptor candidates in mollusks. The aim of the present study was to further trace the evolution of the endocrine system by investigating the presence of functional membrane sex steroid receptors in a mollusk, the great pond snail (Lymnaea stagnalis). We detected sequences homologous to the known vertebrate membrane sex steroid receptors in the Lymnaea transcriptome and genome data: G protein-coupled estrogen receptor-1 (GPER1); membrane progestin receptors (mPRs); G protein-coupled receptor family C group 6 member A (GPRC6A); and Zrt- and Irt-like protein 9 (ZIP9). Sequence analyses, including conserved domain analysis, phylogenetics, and transmembrane domain prediction, indicated that the mPR and ZIP9 candidates appeared to be homologs, while the GPER1 and GPRC6A candidates seemed to be non-orthologous receptors. All candidates transiently transfected into HEK293MSR cells were found to be localized at the plasma membrane, confirming that they function as membrane receptors. However, the signaling assays revealed that none of the candidates interacted with the main vertebrate steroid ligands. Our findings strongly suggest that functional membrane sex steroid receptors which would be homologous to the vertebrate ones are not present in Lymnaea. Although further experiments are required on other molluscan model species as well, we propose that both classical and non-classical sex steroid signaling for endocrine responses are specific to chordates, confirming that molluscan and vertebrate endocrine systems are fundamentally different. [ABSTRACT FROM AUTHOR]

Published
2024
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23. The Multiphasic Teeth of Chiton Articulatus, an Abrasion‐Resistant and Self‐Sharpening Tool for Hard Algae Collection.

Author

Montroni, Devis, Sarmiento, Ezra, Zhao, Ruoheng, Dasika, Phani Saketh, Connolly, John Michael, Wuhrer, Richard, Zhang, Yugang, Zhernenkov, Mikhail, Wang, Taifeng, Ramirez‐Santana, Brenda Paola, Sheppard, Leigh, Avila‐Poveda, Omar Hernando, Arakaki, Atsushi, Nemoto, Michiko, Zavattieri, Pablo, and Kisailus, David

Subjects
*ORGANIC wastes, *SOLID waste, *MAGNETITE, *BIOMINERALIZATION, *TEETH, *GOETHITE
Abstract

Chiton articulatus is a species of mollusk living in the tropical Pacific intertidal rocky shores of Mexico. This species feeds on solid waste organic sources, including hard crustose algae that grow on rocky substrates, by grazing on them with its radula, a flexible chitinous membrane lined with mineralized major lateral teeth. In this study, the composition, morphology, and resulting mechanics of the mature teeth of this species, which have yet to be examined, are revealed. The results show the presence of multiphasic mature teeth, each consisting of aligned hard magnetite nanoparticles on the leading edge of the tooth underneath which are magnetite lamellae, followed by goethite, lepidocrocite, and eventually hydroxyapatite near the trailing edge. This multiregional structure demonstrates a gradation in hardness as well as different microstructural features integrated with tough interfaces. The combination of these microstructural and phase arrangements results in an abrasion‐resistant tough structure with a self‐sharpening ability. The results of this work will help contribute to developing new bioinspired designs while also helping to understand the evolution and feeding habits of these intriguing invertebrates. [ABSTRACT FROM AUTHOR]

Published
2024
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24. The Natural Infection of Freshwater Snails with the Avian Air Sac Fluke, Cyclocoelum mutabile (Trematoda: Cyclocoelidae), in Brazil.

Author

Assis, Jordana Costa Alves de and Pinto, Hudson Alves

Subjects
*BIOMPHALARIA glabrata, *LIFE cycles (Biology), *FRESHWATER snails, *BIRD mortality, *TREMATODA, *GASTROPODA, BIRD infections
Abstract

Trematodes of the family Cyclocoelidae are parasites mainly of the respiratory system of birds and present a cosmopolitan distribution. Although infection with these flukes can result in pathological changes and even bird death, information on their life cycles is scarce and almost entirely based on experimental infection data. Thus, the generation of knowledge on the mollusks that act as natural intermediate hosts of cyclocoelids is necessary and can aid control measures against these air sac trematodes. In the present study, gastropod mollusks collected in an urban stream from Belo Horizonte, Minas Gerais, Brazil, were subjected to the compression technique for the detection of non-emerging larval trematodes. Tailless cercariae with confluent ceca were found in 8/30 (26.7%) specimens of Biomphalaria glabrata and 3/33 (9.1%) specimen of Physella acuta. Samples of the cercariae were subjected to morphological characterization and genetic study (28S, Cox-1, and Nad-1). For comparative purposes, adult trematodes previously collected in the air sac of a common gallinule (Gallinula galeata) found dead in another waterbody from the same region were also characterized. The molecular sequences obtained revealed a high degree of similarity (100% in 28S, 99.2% in Cox-1, and 99.5% in Nad-1) between larval stages found in mollusks and adult parasites found in G. galeata and morphologically identified as Cyclocoelum mutabile. The conspecificity with this widely distributed cyclocoelid was also corroborated by phylogenetic analysis and comparison with isolates of this species previously characterized in Peru and the Czech Republic (99.4–100% and 96.7–97.0% of similarity in Nad-1, respectively). Thus, the integrative analysis carried out in the present work enabled us to identify C. mutabile in mollusks in South America for the first time. The finding of B. glabrata and P. acuta as new intermediate hosts corroborates the importance of freshwater gastropods in the transmission of C. mutabile, as well as the low specificity to the mollusk group, as previously characterized through experimental studies. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Development of environmental DNA metabarcoding primers for marine mollusks and comparison with published primers

Author

Xiaojing Shi, Yihui Jiang, Ling Cao, and Cong Zeng

Subjects
eDNA, Primer development, Mollusk, Metabarcoding, Mitochondrial genes, Ecology, QH540-549.5, Evolution, QH359-425
Abstract

Abstract Monitoring mollusk biodiversity is a great challenge due to their large diversity and broad distribution. Environmental DNA (eDNA) technology is increasingly applied for biodiversity monitoring, but relevant studies on marine mollusks are still limited. Although previous studies have developed several pairs of primers for mollusk eDNA analyses, most of them targeted only a small group of mollusks. In this study, seven primers were designed for the mollusk community and validated and compared with eight pairs of published primers to select the best candidates. After in silico test, MollCOI154 and MollCOI255 primers showed non-specific amplification, and same results were also obtained in published primers (COI204, Sepi, and veneroida). Moll12S100, Moll12S195 and Moll16S primers failed to amplify across all genomic DNA from selected mollusk. Except Moll16S, all developed and two published (unionoida and veneroida) primers were successfully amplified on four eDNA samples from Yangtze River estuary. After annotation of the amplified sequences, MollCOI253 showed higher annotation of the amplification results than the other primers. In conclusion, MollCOI253 had better performance in terms of amplification success and specificity, and can provide technical support for eDNA-based research, which will be beneficial for molluscan biodiversity investigation and conservation.

Published
2024
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26. Lack of membrane sex steroid receptors for mediating rapid endocrine responses in molluscan nervous systems

Author

István Fodor, Shin Matsubara, Tomohiro Osugi, Akira Shiraishi, Tsuyoshi Kawada, Honoo Satake, and Zsolt Pirger

Subjects
progesterone, testosterone, estradiol, membrane receptor, mollusk, Lymnaea stagnalis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Despite the lack of endogenous synthesis and relevant nuclear receptors, several papers have been published over the decades claiming that the physiology of mollusks is affected by natural and synthetic sex steroids. With scant evidence for the existence of functional steroid nuclear receptors in mollusks, some scientists have speculated that the effects of steroids might be mediated via membrane receptors (i.e. via non-genomic/non-classical actions) - a mechanism that has been well-characterized in vertebrates. However, no study has yet investigated the ligand-binding ability of such receptor candidates in mollusks. The aim of the present study was to further trace the evolution of the endocrine system by investigating the presence of functional membrane sex steroid receptors in a mollusk, the great pond snail (Lymnaea stagnalis). We detected sequences homologous to the known vertebrate membrane sex steroid receptors in the Lymnaea transcriptome and genome data: G protein-coupled estrogen receptor-1 (GPER1); membrane progestin receptors (mPRs); G protein-coupled receptor family C group 6 member A (GPRC6A); and Zrt- and Irt-like protein 9 (ZIP9). Sequence analyses, including conserved domain analysis, phylogenetics, and transmembrane domain prediction, indicated that the mPR and ZIP9 candidates appeared to be homologs, while the GPER1 and GPRC6A candidates seemed to be non-orthologous receptors. All candidates transiently transfected into HEK293MSR cells were found to be localized at the plasma membrane, confirming that they function as membrane receptors. However, the signaling assays revealed that none of the candidates interacted with the main vertebrate steroid ligands. Our findings strongly suggest that functional membrane sex steroid receptors which would be homologous to the vertebrate ones are not present in Lymnaea. Although further experiments are required on other molluscan model species as well, we propose that both classical and non-classical sex steroid signaling for endocrine responses are specific to chordates, confirming that molluscan and vertebrate endocrine systems are fundamentally different.

Published
2024
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27. Benthic Mollusk Biodiversity Correlates with Polluted Sediment Conditions in a Shallow Subtropical Estuary

Author

Rachael H. Stark and Kevin B. Johnson

Subjects
mollusk, muck, eutrophication, abundance, sediment, pollution, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

To quantify the ecological impacts of organic sediments and environmental dredging, benthic mollusks were chosen as bioindicators of environmental change, measured as sediment organic content and associated parameters. Data on species richness, ecological diversity (which was measured as biodiversity), and abundances were collected alongside sediment and near-bottom water quality data before, during, and after environmental dredging. Organic sediment content was found to have an inverse logarithmic relationship with benthic mollusk biodiversity, species richness, and abundance. Post hoc analyses found that percent dissolved oxygen, which correlates with sediment organic content, was responsible for 29.31–34.12% of the benthic mollusk community variation. Sediments with lower organic content had higher biodiversity (organism densities up to 1 organism m−2), abundance (over 2.0 × 105 organisms m−2), and species richness (organism densities up to 4 organisms m−2). In comparison, sediments with higher organic content had low biodiversity (organism densities 0–1 organisms m−2), abundance (as low as 0 organisms m−2), and species richness (organism densities as low as 0 organisms m−2).

Published
2024
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28. Synergy between Seasonality and Climatic Anomaly and their Effects on the Growth of Oysters Cultivated in the Amazon Coast

Author

Rafael Anaisce das Chagas, Mara Rúbia Ferreira Barros, Wagner César Rosa dos Santos, and Marko Herrmann

Subjects
Amazon region, aquaculture, mollusk, oyster farming, native oyster, Crassostrea gasar, Biotechnology, TP248.13-248.65
Abstract

Abstract In this study, we aimed to evaluate the synergistic effect between the Amazon seasonality and the El Niño climate anomaly (2015/16 event) on the growth of oysters cultivated on the Amazon coast in comparison with the growth of oysters in a normal year (2013). It should be noted that both experiments determined the absolute growth of oysters Crassostrea gasar by reading microgrowth using an internal calcein marker. the results clearly indicate the synergistic effect of the Amazon seasonality with the El Niño climatic anomaly. thus, in normal years, the best oyster growth performance occurs in the dry season, while in El Niño years it occurs in the wet season. This is the first study carried out in the Amazon region that aims to analyze the effects of El Niño on the production of fishery resources from aquaculture. Such information enables adaptations in the planning of the production cycle of oyster farming, serving as an investment indicator.

Published
2024
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29. Freshwater Malacofauna and Distribution of Trabzon, Türkiye.

Author

KARA, Cemil, BOZALİ, Nuri, and GÜRLEK, Mustafa Emre

Subjects
FRESHWATER microbiology, ZOOGEOGRAPHY, ZEBRA mussel, PHYSIDAE
Abstract

Copyright of Journal of Agriculture & Nature / Kahramanmaraş Sütçü İmam Üniversitesi Tarım & Doğa Dergisi is the property of Kahramanmaras Sutcu Imam Universitesi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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30. Effects of microplastics and nanoplastics on host–parasite interactions in aquatic environments.

Author

Balsdon, Mary K. C. and Koprivnikar, Janet

Abstract

Microplastics (MPs) and nanoplastics (NPs) are now widely recognized as a ubiquitous and pervasive environmental pollutant with important consequences for aquatic fauna in particular; however, little is known regarding their potential effects on interactions between hosts and their parasites or pathogens. We conducted a literature survey of published studies that have conducted empirical investigations of MP and NP infuences on infectious disease dynamics to summarize the current state of knowledge. In addition, we examined the efects of microbead (MB) ingestion on the longevity of freshwater snails (Stagnicola elodes) infected by the trematode Plagiorchis sp., along with their production of infectious stages (cercariae), with a 3-week lab study during which snails were fed food cubes containing either 0, 10 or 100 polyethylene MBs sized 106–125 μm. We found 22 studies that considered MP and NP infuences on host resistance or tolerance—20 of these focused on aquatic systems, but there was no clear pattern in terms of host effects. In our lab study, MB diet had marginal or few effects on snail growth and mortality, but snails exhibited a significant non-monotonic response with respect to cercariae production as this was greatest in those fed the high-MB diet. Both our literature summary and experimental study indicate that MPs and NPs can have complex and unpredictable efects on infectious disease dynamics, with an urgent need for more investigations that examine how plastics can afect aquatic fauna through direct and indirect means. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Comparison of development and overwintering rates and feeding efficiency on rice seedlings among two invasive freshwater apple snails and their hybrid.

Author

Matsukura, Keiichiro and Yoshida, Kazuhiro

Subjects
*FRESHWATER snails, *POMACEA canaliculata, *RICE diseases & pests, *TROPICAL ecosystems, *SEEDLINGS, *HYBRID rice
Abstract

Since the 1980s, the freshwater apple snails, Pomacea canaliculata, Pomacea maculata, and their hybrid, have been introduced into a wide range of freshwater ecosystems in tropical to temperate regions. Although P. canaliculata has become established in temperate East Asia, P. maculata and the hybrid are rarely found in this region. To evaluate the risk of P. maculata and the hybrid particularly as rice pests in temperate regions, we compared growth rate, winter survival rate, and feeding efficiency on rice seedlings of these snails with P. canaliculata. When P. maculata and P. canaliculata hatchlings were reared under laboratory or field conditions, the adult P. maculata had larger shells than adult P. canaliculata. Neither P. maculata nor F1 hybrids could survive winter in a simulated drained paddy field, and only a few individuals of P. maculata and F1 hybrids overwintered successfully in freshwater. Pomacea maculata juveniles fed on rice seedlings at the highest rate at temperatures above 27°C. These results suggest that P. maculata becomes a serious rice pest in temperate region as P. canaliculata once it is introduced from warmer regions under global warming. Further biological examination of P. maculata is needed to evaluate the risk of this snail in detail. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Optimizing detectability of the endangered fan mussel using eDNA and ddPCR.

Author

Marques, Virginie, Loot, Géraldine, Blanchet, Simon, Miaud, Claude, Planes, Serge, Peyran, Claire, Arnal, Véronique, Calvet, Coralie, Pioch, Sylvain, and Manel, Stéphanie

Subjects
*LAGOONS, *MUSSELS, *BIOLOGICAL extinction, *ECOSYSTEM management, *RESTORATION ecology, *ENDANGERED species
Abstract

Spatial and temporal monitoring of species threatened with extinction is of critical importance for conservation and ecosystem management. In the Mediterranean coast, the fan mussel (Pinna nobilis) is listed as critically endangered after suffering from a mass mortality event since 2016, leading to 100% mortality in most marine populations. Conventional monitoring for this macroinvertebrate is done using scuba, which is challenging in dense meadows or with low visibility. Here we developed an environmental DNA assay targeting the fan mussel and assessed the influence of several environmental parameters on the species detectability in situ. We developed and tested an eDNA molecular marker and collected 48 water samples in two sites at the Thau lagoon (France) with distinct fan mussel density, depths and during two seasons (summer and autumn). Our marker can amplify fan mussel DNA but lacks specificity since it also amplifies a conspecific species (Pinna rudis). We successfully amplified fan mussel DNA from in situ samples with 46 positive samples (out of 48) using ddPCR, although the DNA concentrations measured were low over almost all samples. Deeper sampling depth slightly increased DNA concentrations, but no seasonal effect was found. We highlight a putative spawning event on a single summer day with much higher DNA concentration compared to all other samples. We present an eDNA molecular assay able to detect the endangered fan mussel and provide guidelines to optimize the sampling protocol to maximize detectability. Effective and non‐invasive monitoring tools for endangered species are promising to monitor remaining populations and have the potential of ecological restoration or habitat recolonization following a mass mortality event. [ABSTRACT FROM AUTHOR]

Published
2024
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34. TWO IN ONE: REPORT OF TWO EPIBIONTS GROUPS ON THE Callinectes bocourti A. MILNE-EDWARDS, 1879 (DECAPODA: PORTUNIDAE) FROM THE AMAZON PROVINCE

Author

Flavio de Almeida Alves-Júnior, Déborah Elena Galvão Martins, Barbara Siqueira Monteiro, Jonata Arruda Francisco, Alex Garcia Cavalleiro de Macedo Klautau, and Israel Hidenburgo Aniceto Cintra

Subjects
mollusk, barnacle, commensal interaction, non-native species, new host interaction, Environmental sciences, GE1-350
Abstract

Case studies reporting crustaceans acting as basibionts for a wide range of encrusting invertebrates are widely observed in the literature. For swimming crabs of the genus Callinectes, these commensal interactions are commonly observed in estuaries and coastal zones worldwide. Despite the broad distribution of Callinectes bocourti A. Milne-Edwards, 1879 in Amazon province, the occurrence of epibiosis for this species in the area is rarely reported. Herein, we report the double occurrence of epibiont groups: the mollusks Ostrea puelchana d’Orbigny, 1842 and Sphenia fragilis (H. Adams & A. Adams, 1854) and the barnacles Amphibalanus improvisus (Darwin, 1854) and Chelonibia testudinaria (Linnaeus, 1758) from the new host C. bocourti, collected from the Amazon province, Brazil. The specimens of C. bocourti showing epibionts were collected manually in low tide, with a baited trap called “puçá”, in the region of Curuçá River mouth, state of Pará (0°40’3,705”S, 047°54”43,405”W). We observed five specimens of C. bocourti showing double cases of epibiosis, composed by mollusks and crustaceans sharing the same area. In addition, here, we expand the range extension of the mollusk O. puelchana and we register the presence of the invasive species barnacle A. improvisus from the state of Pará, being this last species, reported as parasite adhered in carapace and branchial chambers of the host.

Published
2023
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35. LENGTH-WEIGHT RELATIONSHIPS OF THREE FRESHWATER MUSSEL SPECIES FROM THE AMAZON (UNIONIDA, HYRIIDAE)

Author

Mara Rubia Ferreira Barros, Valdo Sena Abreu, Luciana Margalho Quaresma, Rafael Anaisce das Chagas, Marko Herrmann, Lilian Lund Amado, and Marcelo Costa Andrade

Subjects
bivalvia, benthos, morphometry, mollusk, meat yield, Environmental sciences, GE1-350
Abstract

Length-weight relationships of three freshwater mussel species (Hyriidae), Eastern Amazon: the length-weight relationships allow important biological estimates for the fisheries management of species. Through this relationship, it is possible to estimate the weight of the individuals by their lengths, from which the biomass of the studied population can be determined. In addition, it gathers important data to assess the ecological patterns of different populations. The aim of this study was to analyze the length-weight relationships and their respective meat yields of three species of freshwater mussels: Castalia ambigua, Triplodon corrugatus and Paxyodon syrmatophorus from Capim River Bay, Pará, Brazil. For this, the total length, visceral weight, and total weight of 1,057 individuals were determined. All three relationships were considered strong, with determination coefficients greater than 0.9. The species C. ambigua showed negative allometric growth, while the other species P. syrmatophorus and T. corrugatus showed isometric growth. The species with the highest meat yield was P. syrmatophorus with 14.8%. The study presents the first parameter record of weight-length relationships for these three freshwater mussel species.

Published
2023
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36. Integrated analysis of physiological, transcriptome, and metabolome analyses of the gills in Solenaia oleivora under ammonia exposure

Author

Ting Zhang, Yanfeng Zhou, Haibo Wen, Xueyan Ma, and Dongpo Xu

Subjects
Mollusk, Ammonia, Transcriptome, Metabolome, Immune, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350
Abstract

Ammonia is a common toxicant in aquatic systems and one of the key factors affecting aquaculture. However, data on mollusks’ toxic response and coping mechanisms to ammonia nitrogen, especially freshwater mollusks, are still lacking. In this study, we evaluated the tolerance of a freshwater mollusk Solenaia oleivora to ammonia and investigated its coping mechanisms by combining physiological, metabolic, and transcriptomic analyses in the gills. The acute toxicity test revealed that the LC50–96 h (temperature-20 ℃, pH-7.4) of ammonia in S. oleivora was 63.29 mg/L. The physiological and TUNEL results showed that although 10 mg/L ammonia exposure increased the activities of antioxidant, immune and ammonia detoxification-related enzymes, it still caused oxidative damage and cell apoptosis of gill tissues. A total of 97 differential metabolites (DMs) and 3431 differential expressed genes (DEGs) were identified after ammonia stress. Among them, most DMs and DEGs were involved in immune response, antioxidant, cell apoptosis, carbohydrate metabolism, amino acid metabolism, and lipid metabolism. The enhancement of glycolysis and lipid metabolisms may provide energy for immune response and ammonia detoxification. In addition, glutamine synthesis, alanine synthesis and urea cycle were involved in ammonia nitrogen detoxification in the gill tissue of S. oleivora. Our results indicate that ammonia leads to individual death in S. oleivora, as wells as oxidative damage, cell apoptosis, immune response, and metabolic changes of gill tissues. The findings will provide valuable information to assess the potential ecological risk of environmental ammonia to freshwater mollusks and theoretical guidance for the healthy aquaculture of S. oleivora.

Published
2024
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37. Current Estimates of Philippine Marine Mollusks Taxonomic Diversity.

Author

Garcia, Abigail A. and Anticamara, Jonathan A.

Subjects
*ONLINE databases, *INVERTEBRATES, *SPECIES, *WORMS
Abstract

Mollusks are among the most diverse and the most threatened invertebrate groups, with high records of recent extinctions. Yet, the assessment of mollusk diversity and records in megadiverse countries such as the Philippines greatly needs synthesis and updating. Here, we report on the current taxonomic diversity of the Philippine mollusk. Comprehensive records of mollusks in the Philippines from published literature, accessible museum records, and online databases were compiled and checked with the World Register of Marine Species. A total of 64,898 Philippine mollusk records were compiled, comprised of 14,482 distinct species. Of these distinct species records of Philippine mollusk, 51% have accepted names in WoRMS, whereas 35.8% had taxonomic name changes; 1.5% had unaccepted names in WoRMS but with no accepted names either (e.g. taxon inquirendum, nomen dubium, etc), and 11.7% did not have exactly matched records in WoRMS. After checking all Philippine mollusks records against WoRMS, there were 8,066 mollusk species in the Philippines belonging to 1,991 genera within 423 families and 51 orders, representing all molluscan classes. A total of 7,085 (88%) of the species records were marine (6,953 or 86% were strictly marine species) belonging to 1,780 genera, 368 families, and 50 orders, also representing all mollusk classes. This current account is the most comprehensive we know to date, but it certainly is an underestimate, as not all possible resources are accessible. A systematic national-scale survey of Philippine mollusk diversity is needed to improve the current account and to fill the gaps in [1] taxonomic status verification, and [2] the IUCN and conservation status of many Philippine mollusk species (which, to date, 96% of all species have no IUCN assessments). [ABSTRACT FROM AUTHOR]

Published
2023

38. Improvements in operant memory of Aplysia are correlated with age and specific gene expression.

Author

Randolph, Eric C. and Fieber, Lynne A.

Subjects
GENE expression, NEURAL circuitry, OPERANT conditioning, MEMBRANE proteins, CARRIER proteins
Abstract

The transcription factor Aplysia CCAAT/enhancer binding protein (ApC/EBP) is expressed as an immediate early gene in the cAMP responsive element binding protein (CREB) mediated gene cascade, and it has essential functions in the synaptic consolidation of memory following a learning event. Synaptic consolidation primarily involves morphological changes at neuronal synapses, which are facilitated through the reorganization of the actin and microtubular cytoarchitecture of the cell. During early nervous system development, the transmembrane synaptic protein teneurin acts directly upon neuronal presynaptic microtubules and postsynaptic spectrin-based cytoskeletons to facilitate the creation of new synapses. It is reasonable to hypothesize that teneurin may also be linked to learning-induced synaptic changes and is a potential candidate to be a later gene expressed in the CREB-mediated gene cascade downstream of ApC/EBP. To assess the role of ApC/EBP and teneurin in learning and memory in the marine snail Aplysia californica, young (age 7–8 months) and aged (age 13–15 months; aging stage AII) siblings of Aplysia were trained in an operant conditioning paradigm—learning food is inedible (LFI)—over 2 days, during which they learned to modify the feeding reflex. Aged Aplysia had enhanced performance of the LFI task on the second day than younger siblings although far more aged animals were excluded from the analysis because of the initial failure in learning to recognize the inedible probe. After 2 days of training, ApC/EBP isoform X1 mRNA and teneurin mRNA were quantified in selected neurons of the buccal ganglia, the locus of neural circuits in LFI. Teneurin expression was elevated in aged Aplysia compared to young siblings regardless of training. ApC/EBP isoform X1 expression was significantly higher in untrained aged animals than in untrained young siblings but decreased in trained aged animals compared to untrained aged animals. Elevated levels of ApC/EBP isoform X1 and teneurin mRNA before training may have contributed to the enhancement of LFI performance in the aged animals that successfully learned. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Cooperation and cheating orchestrate Vibrio assemblages and polymicrobial synergy in oysters infected with OsHV-1 virus.

Author

Oyanedel, Daniel, Lagorce, Arnaud, Bruto, Maxime, Haffner, Philippe, Morot, Amandine, Labreuche, Yannick, Dorant, Yann, Divonne, Sébastien de La Forest, Delavat, François, Inguimbert, Nicolas, Montagnani, Caroline, Morga, Benjamin, Toulza, Eve, Chaparro, Cristian, Escoubas, Jean-Michel, Yannick Gueguen, Vidal-Dupiol, Jeremie, de Lorgeril, Julien, Petton, Bruno, and Degremont, Lionel

Subjects
*VIBRIO, *OYSTERS, *PACIFIC oysters, *VIBRIO harveyi
Abstract

Polymicrobial infections threaten the health of humans and animals but remain understudied in natural systems. We recently described the Pacific Oyster Mortality Syndrome (POMS), a polymicrobial disease affecting oyster production worldwide. In the French Atlantic coast, the disease involves coinfection with ostreid herpesvirus 1 (OsHV-1) and virulent Vibrio. However, it is unknown whether consistent Vibrio populations are associated with POMS in different regions, how Vibrio contribute to POMS, and how they interact with OsHV-1 during pathogenesis. By connecting field-based approaches in a Mediterranean ecosystem, laboratory infection assays and functional genomics, we uncovered a web of interdependencies that shape the structure and function of the POMS pathobiota. We show that Vibrio harveyi and Vibrio rotiferianus are predominant in OsHV-1-diseased oysters and that OsHV-1 drives the partition of the Vibrio community observed in the field. However only V. harveyi synergizes with OsHV-1 by promoting mutual growth and accelerating oyster death. V. harveyi shows high-virulence potential and dampens oyster cellular defenses through a type 3 secretion system, making oysters a more favorable niche for microbe colonization. In addition, V. harveyi produces a key siderophore called vibrioferrin. This important resource promotes the growth of V. rotiferianus, which cooccurs with V. harveyi in diseased oysters, and behaves as a cheater by benefiting from V. harveyi metabolite sharing. Our data show that cooperative behaviors contribute to synergy between bacterial and viral coinfecting partners. Additional cheating behaviors further shape the polymicrobial consortium. Controlling cooperative behaviors or countering their effects opens avenues for mitigating polymicrobial diseases. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Radular stylus of Cryptochiton stelleri: A multifunctional lightweight and flexible fiber-reinforced composite

Author

Pohl, Anna, Herrera, Steven A, Restrepo, David, Negishi, Ryo, Jung, Jae-Young, Salinas, Chris, Wuhrer, Richard, Yoshino, Tomoko, McKittrick, Joanna, Arakaki, Atsushi, Nemoto, Michiko, Zavattieri, Pablo, and Kisailus, David

Subjects
Engineering, Materials Engineering, Animals, Ferrosoferric Oxide, Microscopy, Electron, Polyplacophora, Tooth, Mollusk, Biocomposite, Force transduction, Flexible, Biomedical Engineering, Mechanical Engineering, Biomedical engineering, Materials engineering, Mechanical engineering
Abstract

Chitons are herbivorous invertebrates that use rows of ultrahard magnetite-based teeth connected to a flexible belt (radula) to rasp away algal deposits growing on and within rocky outcrops along coastlines around the world. Each tooth is attached to the radula by an organic structure (stylus) that provides mechanical support during feeding. However, the underlying structures within the stylus, and their subsequent function within the chiton have yet to be investigated. Here, we investigate the macrostructural architecture, the regional material and elemental distribution and subsequent nano-mechanical properties of the stylus from the Northern Pacific dwelling Cryptochiton stelleri. Using a combination of μ-CT imaging, optical and electron microscopy, as well as elemental analysis, we reveal that the stylus is a highly contoured tube, mainly composed of alpha-chitin fibers, with a complex density distribution. Nanoindentation reveals regiospecific and graded mechanical properties that can be correlated with both the elemental composition and material distribution. Finite element modeling shows that the unique macroscale architecture, material distribution and elemental gradients have been optimized to preserve the structural stability of this flexible, yet robust functionally-graded fiber-reinforced composite tube, providing effective function during rasping. Understanding these complex fiber-based structures offers promising blueprints for lightweight, multifunctional and integrated materials.

Published
2020

41. Shell field morphogenesis in the polyplacophoran mollusk Acanthochitona rubrolineata

Author

Yuxiu Xia, Pin Huan, and Baozhong Liu

Subjects
Polyplacophoran, Mollusk, Shell field, Plate field, Morphogenesis, Engrailed, Evolution, QH359-425
Abstract

Abstract Background The polyplacophoran mollusks (chitons) possess serially arranged shell plates. This feature is unique among mollusks and believed to be essential to explore the evolution of mollusks as well as their shells. Previous studies revealed several cell populations in the dorsal epithelium (shell field) of polyplacophoran larvae and their roles in the formation of shell plates. Nevertheless, they provide limited molecular information, and shell field morphogenesis remains largely uninvestigated. Results In the present study, we investigated shell field development in the chiton Acanthochitona rubrolineata based on morphological characteristics and molecular patterns. A total of four types of tissue could be recognized from the shell field of A. rubrolineata. The shell field comprised not only the centrally located, alternatively arranged plate fields and ridges, but also the tissues surrounding them, which were the precursors of the girdle and we termed as the girdle field. The girdle field exhibited a concentric organization composed of two circularly arranged tissues, and spicules were only developed in the outer circle. Dynamic engrailed expression and F-actin (filamentous actin) distributions revealed relatively complicated morphogenesis of the shell field. The repeated units (plate fields and ridges) were gradually established in the shell field, seemingly different from the manners used in the segmentation of Drosophila or vertebrates. The seven repeated ridges also experienced different modes of ontogenesis from each other. In the girdle field, the presumptive spicule-formation cells exhibited different patterns of F-actin aggregations as they differentiate. Conclusions These results reveal the details concerning the structure of polyplacophoran shell field as well as its morphogenesis. They would contribute to exploring the mechanisms of polyplacophoran shell development and molluscan shell evolution.

Published
2023
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42. A remarkably diverse and well-organized virus community in a filter-feeding oyster

Author

Jing-Zhe Jiang, Yi-Fei Fang, Hong-Ying Wei, Peng Zhu, Min Liu, Wen-Guang Yuan, Li-Ling Yang, Ying-Xiang Guo, Tao Jin, Mang Shi, Tuo Yao, Jie Lu, Ling-Tong Ye, Shao-Kun Shi, Meng Wang, Ming Duan, and Dian-Chang Zhang

Subjects
Crassostrea hongkongensis, Bivalve, Mollusk, Metagenome, Circovirus, Viral-like particle enrichment, Microbial ecology, QR100-130
Abstract

Abstract Background Viruses play critical roles in the marine environment because of their interactions with an extremely broad range of potential hosts. Many studies of viruses in seawater have been published, but viruses that inhabit marine animals have been largely neglected. Oysters are keystone species in coastal ecosystems, yet as filter-feeding bivalves with very large roosting numbers and species co-habitation, it is not clear what role they play in marine virus transmission and coastal microbiome regulation. Results Here, we report a Dataset of Oyster Virome (DOV) that contains 728,784 nonredundant viral operational taxonomic unit contigs (≥ 800 bp) and 3473 high-quality viral genomes, enabling the first comprehensive overview of both DNA and RNA viral communities in the oyster Crassostrea hongkongensis. We discovered tremendous diversity among novel viruses that inhabit this oyster using multiple approaches, including reads recruitment, viral operational taxonomic units, and high-quality virus genomes. Our results show that these viruses are very different from viruses in the oceans or other habitats. In particular, the high diversity of novel circoviruses that we found in the oysters indicates that oysters may be potential hotspots for circoviruses. Notably, the viruses that were enriched in oysters are not random but are well-organized communities that can respond to changes in the health state of the host and the external environment at both compositional and functional levels. Conclusions In this study, we generated a first “knowledge landscape” of the oyster virome, which has increased the number of known oyster-related viruses by tens of thousands. Our results suggest that oysters provide a unique habitat that is different from that of seawater, and highlight the importance of filter-feeding bivalves for marine virus exploration as well as their essential but still invisible roles in regulating marine ecosystems. Video Abstract

Published
2023
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43. Characterization and distribution of Teredinidae assemblage in an estuary in Ceará, Brazil's Northeast

Author

E. Carmo-Santos, M. R. Santos, C. A. Rocha-Barreira, and R. C. Maia

Subjects
environmental heterogeneity, mollusk, mangrove, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989
Abstract

Abstract Teredinids are bivalves mollusks considered the most abundant of invertebrates group of marine wood borers performing an important role in the mangrove environment. This study aimed to characterize the Teredinidae species from the Acaraú River estuary in Ceará and analyse the relationship between the mangrove plant structure and the distribution of Teredinidae, according to gradients estuaries: vertical (flooding) and horizontal (salinity). The collection of mangrove logs with Teredinidae happened in three places within the estuary (inner, median, and upper); in each area, three transects were traced in which three plots were lined off, and a total of 40 logs were collected. Teredinidae species were found and identified: Nausitora fusticula; Neoteredo reynei; Teredo turnerae; Teredo cf. bartschi; Bankia bipennata; Bankia gouldi; Lirodus massa and Lyrodus cf. bipartitus. The Lyrodus cf. bipartitus, Bankia gouldi, and Teredo cf. bartschi species were registered for the first time in Ceará. The distribution and species richness of Teredinidae were directly related to the vertical gradient (flooding) and heterogeneity of the mangrove forest habitat. The data presented here are essential for comprehending the mechanisms responsible for the distribution patterns of the Teredinidae species in the mangrove, contributing to biodiversity conservation in Ceará coastal zones.

Published
2023
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44. Invasive and Rare Aquatic Invertebrates of Taiwan with a Focus on Their Dormancy.

Author

Alekseev, Victor, Dahms, Hans-Uwe, Hwang, Jiang-Shiou, and Sukhikh, Natalia

Subjects
RARE invertebrates, INTRODUCED aquatic species, BALLAST water, TROPICAL ecosystems
Abstract

Invertebrates in tropical ecosystems are generally considered to have little or no need for a dormant phase due to the stability of the habitat. However, resting stages of aquatic organisms are occasionally found here as well. This fact increases the possibility of transport of tropical organisms by ships' ballast water, which is the main vector for the spread of alien aquatic organisms between continents. During a study of resting stages in the bottom sediments of the island of Taiwan in 2006–2007, nine species of invertebrates were found, invasive or new to the fauna of the island, with some of them forming large banks of resting stages in sediments. [ABSTRACT FROM AUTHOR]

Published
2023
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45. Improvements in operant memory of Aplysia are correlated with age and specific gene expression

Author

Eric C. Randolph and Lynne A. Fieber

Subjects
marine model, invertebrate, mollusk, neuron, transcriptomics, long term potentiation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The transcription factor Aplysia CCAAT/enhancer binding protein (ApC/EBP) is expressed as an immediate early gene in the cAMP responsive element binding protein (CREB) mediated gene cascade, and it has essential functions in the synaptic consolidation of memory following a learning event. Synaptic consolidation primarily involves morphological changes at neuronal synapses, which are facilitated through the reorganization of the actin and microtubular cytoarchitecture of the cell. During early nervous system development, the transmembrane synaptic protein teneurin acts directly upon neuronal presynaptic microtubules and postsynaptic spectrin-based cytoskeletons to facilitate the creation of new synapses. It is reasonable to hypothesize that teneurin may also be linked to learning-induced synaptic changes and is a potential candidate to be a later gene expressed in the CREB-mediated gene cascade downstream of ApC/EBP. To assess the role of ApC/EBP and teneurin in learning and memory in the marine snail Aplysia californica, young (age 7–8 months) and aged (age 13–15 months; aging stage AII) siblings of Aplysia were trained in an operant conditioning paradigm—learning food is inedible (LFI)—over 2 days, during which they learned to modify the feeding reflex. Aged Aplysia had enhanced performance of the LFI task on the second day than younger siblings although far more aged animals were excluded from the analysis because of the initial failure in learning to recognize the inedible probe. After 2 days of training, ApC/EBP isoform X1 mRNA and teneurin mRNA were quantified in selected neurons of the buccal ganglia, the locus of neural circuits in LFI. Teneurin expression was elevated in aged Aplysia compared to young siblings regardless of training. ApC/EBP isoform X1 expression was significantly higher in untrained aged animals than in untrained young siblings but decreased in trained aged animals compared to untrained aged animals. Elevated levels of ApC/EBP isoform X1 and teneurin mRNA before training may have contributed to the enhancement of LFI performance in the aged animals that successfully learned.

Published
2023
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46. Estimation of individual growth of the violet oyster Chama coralloides Reeve, 1846 (Bivalvia: Venerida) using Schnute model cases.

Author

Rubí CASTREJÓN-RÍOS, Alma, TORREBLANCA-RAMÍREZ, Carmina, FLORES-GARZA, Rafael, FLORES-RODRÍGUEZ, Pedro, Carlos CERROS-CORNELIO, Juan, and Guadalupe PADILLA-SERRATO, Jesús

Subjects
*BIVALVES, *OYSTERS, *FISHERY laws, *CRASSOSTREA
Abstract

Chama coralloides Reeve, 1846 is a commercially important mollusk in Acapulco, Mexico. There is currently no fisheries regulation or protection. Therefore, the objective of the present work was to estimate the growth parameters of C. coralloides using the Schnute model cases. Shell length data collected from March 2019 to December 2021 were used. A multinomial analysis was performed to determine the modal groups monthly. Using the mean lengths of each modal group, a modal progression was performed to define the time increments ∆t, which were taken as equivalent representations of the data from direct age estimation methods (mark-recapture). These data were used to estimate the individual growth parameters using the five cases of the Schnute model and to define the case that best describes the growth. 2804 organisms were analyzed, with lengths ranging from 7.61 to 116.30 mm SL. Multinomial analysis showed one to four modal groups per month and 14 cohorts were identified. The best-fit case was case 5 (wi = 0.72) with an L∞ = 114.2 mm, followed by case 1 (wi = 0.28) with an L∞= 109.8 mm. Both cases (5 and 1) were modeled and because the best model did not reach 90%, a mean model was estimated. C. coralloides presented a type of asymptotic growth, with an estimated L∞ that can be reached nearly 22 years. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Information on the Reproductive Cycle of Costatela acuta (Draparuand, 1805).

Author

N. A., Ruzikulova

Subjects
*MOLLUSK reproduction, *ANIMAL breeding, *WATER temperature
Abstract

The article presents information on the reproduction cycle of Costatela acuta (Draparuand, 1805) from aquatic molluscs. It is common species in the study area. It starts breeding in April. In the conditions of Uzbekistan, it has 3-4 generations. At the water temperature of 18-220°C, embryo development lasts 10-15 days. [ABSTRACT FROM AUTHOR]

Published
2023
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48. Mollusk

Author

John, Vimala K., Gautam, Akash, Vonk, Jennifer, editor, and Shackelford, Todd K., editor

Published
2022
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49. Chemical compositions of bivalves shells: Anadara senilis, Crassostrea gasar, and Mytilus edulis and their potential for a sustainable circular economy

Author

Isa Elegbede, Aderonke Lawal-Are, Ogunlana Favour, T. Jolaosho, and Appolinaire Goussanou

Subjects
Circular economy, Mollusk, Sustainable fisheries, Minerals, Seafood, Exoskeletons, Science, Technology
Abstract

Highlights Bivalve’s exoskeletons from Anadara senilis, Crassostrea gasar, and Mytilus edulis are highly utilizable for a circular economy to reduce seafood waste. These shellfishes are high in minerals and chemical compounds and can be highly valorized in various industries.

Published
2022
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