Your search keyword '"freshwater mussels"' showing total 3,783 results

1. Bioaccumulation of β-methylamino-L-alanine (BMAA) by mussels exposed to the cyanobacteria Microcystis aeruginosa

Author

Peters, Siobhan J., Mitrovic, Simon M., Rodgers, Kenneth J., and Bishop, David P.

Published

2024

2. Two new genera and three new species of exceptionally rare and endemic freshwater mussels (Bivalvia, Unionidae) from the Mekong Basin

Author

Jeratthitikul, Ekgachai, Čhirasak Sutčharit, Prasankok, Pongpun, and Pensoft Publishers

Subjects

Freshwater mussels, Indochina, Mekong Basin, multi-locus phylogeny, multi-locus phylogeny, new taxa, Thailand

Published

2024

3. Bisphenol a (BPA) aggravate the adverse effect on physiological and biochemical response in freshwater mussel potomida littoralis.

Author

Khazri, Abdelhafidh, Abidi, Oumaima, Touaylia, Samir, Belgacem, Rihab, Mezni, Amine, Mahmoudi, Ezzeddine, Beyrem, Hamouda, and Mohamed, Dellali

Subjects

*GLUTATHIONE, *DETOXIFICATION (Alternative medicine), *FILTERS & filtration, *AQUATIC microbiology, *OXIDATIVE stress, *ECOSYSTEMS, *PHENOLS, *POLLUTANTS, *WATER pollution, *PATHOLOGICAL laboratories, *ANTIOXIDANTS, *MOLLUSKS, *TRANSFERASES, *BIOMARKERS

Abstract

Bisphenol A (BPA) is a chemical compound extensively employed in plastic manufacturing, and this pollutant has been detected in diverse aquatic organisms, notably bivalves. In order to comprehend the ecological and toxicological consequences of BPA Bisphenol A in these organisms, it is essential to examine the physiological and biochemical effects and identify areas where our understanding is lacking. This knowledge is crucial for determining the environn ental threat posed by bisphenol A and assisting decision-makers in establishing the appropriate priorities. This investigation aimed to assess the impact of BPA on the biochemical and physiological parameters of the freshwater mussel Potomida littoralis. In a laboratory setting, mussels were subjected to two different levels of BPA (20 and 100 μg/L) for a duration of 21 days. Filtration rate was calculated from the clearance of neutral red, fed to mussels at different BPA concentrations. The mussel's filtration rate capacity declined as BPA exposure intensified, potentially due to the mussel's attempt to close its valves and minimize BPA absorption, thus preventing cellular damage. In the digestive gland tissue, key antioxidant and detoxification defenses, including catalase (CAT) activity, glutathione-S-transferase (GST) activity, and levels of H2O2 and glutathione (GSH), were activated, particularly at the 100 μg/L BPA concentration. This activation helped protect against lipid damage at higher BPA concentrations. This study underscores the significance of preventing and regulating BPA release into the environment to avert detrimental consequences for aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2025

4. Secondary contact erodes Pleistocene diversification in a wide‐ranging freshwater mussel (Quadrula).

Author

Keogh, Sean M., Johnson, Nathan A., Smith, Chase H., Sietman, Bernard E., Garner, Jeffrey T., Randklev, Charles R., and Simons, Andrew M.

Subjects

*BIOLOGICAL variation, *VICARIANCE, *FRESHWATER mussels, *NUMBERS of species, *CLIMATE change, *PHYLOGEOGRAPHY

Abstract

The isolated river drainages of eastern North America serve as a natural laboratory to investigate the roles of allopatry and secondary contact in the evolutionary trajectories of recently diverged lineages. Drainage divides facilitate allopatric speciation, but due to their sensitivity to climatic and geomorphological changes, neighboring rivers frequently coalesce, creating recurrent opportunities of isolation and contact throughout the history of aquatic lineages. The freshwater mussel Quadrula quadrula is widely distributed across isolated rivers of eastern North America and possesses high phenotypic and molecular variation across its range. We integrate sequence data from three genomes, including female‐ and male‐inherited mitochondrial markers and thousands of nuclear encoded SNPs with morphology and geography to illuminate the group's divergence history. Across contemporary isolated rivers, we found continuums of molecular and morphological variation, following a pattern of isolation by distance. In contact zones, hybridization was frequent with no apparent fitness consequences, as advanced hybrids were common. Accordingly, we recognize Q. quadrula as a single cohesive species with subspecific variation (Q. quadrula rumphiana). Demographic modeling and divergence dating supported a divergence history characterized by allopatric vicariance followed by secondary contact, likely driven by river rearrangements and Pleistocene glacial cycles. Despite clinal range‐wide variation and hybridization in contact zones, the process‐based species delimitation tool delimitR, which considers demographic scenarios like secondary contact, supported the delimitation of the maximum number of species tested. As such, when interpreting species delimitation results, we suggest careful consideration of spatial sampling and subsequent geographic patterns of biological variation, particularly for wide‐ranging taxa. [ABSTRACT FROM AUTHOR]

Published

2025

5. Mollusc Remains from an Archaeological Rock Shelter Site on the Buffalo National River, Arkansas, Southeastern USA.

Author

Mitchell, Joseph, Childress, Mitchell R., and French, Thomas W.

Subjects

CAVES, FRESHWATER mussels, GASTROPODA, MOLLUSKS, ZOOARCHAEOLOGY

Abstract

Zooarchaeological mollusc assemblages can show communities as they existed prior to any extensive modern impacts, representing an ecological baseline against which current populations can be evaluated. Here data are presented from the Pruitt Shelter sites (Late Woodland-Early Mississippian; ca. AD 700–1300), located on the Buffalo National River (Arkansas), where over 1000 freshwater mussels and over 20,000 gastropods (aquatic and terrestrial combined) were recovered. To date, these archaeofaunas represent the most detailed and robust mollusc assemblage from the Ozark Highlands, while also demonstrating biogeographical, paleoenvironmental, and population characteristics that should be valuable to modern conservation efforts in the region. [ABSTRACT FROM AUTHOR]

Published

2025

6. Comparative morphology and mitogenomics of freshwater mussels Koreosolenaia, Parvasolenaia, and Sinosolenaia (Bivalvia: Unionidae: Gonideinae).

Author

Zhang, Liping, Liu, Xiaoyan, Hu, Xinyan, Jia, Junli, Liu, Xiongjun, and Wu, Ruiwen

Subjects

*LIFE sciences, *FRESHWATER mussels, *COMPARATIVE anatomy, *BIODIVERSITY conservation, *ENVIRONMENTAL management

Abstract

Background: Amidst the escalating loss of global biodiversity, freshwater mussels (family Unionidae) have become one of the most imperiled animal groups. Acquiring more biological and phylogenetic information on understudied taxa constitutes a pivotal aspect of conservation biology. Consequently, a comprehensive examination was conducted on Koreosolenaia, Parvasolenaia, and Sinosolenaia from China encompassing morphology, anatomy, distribution, and molecular systematics to provide theoretical support for future species endangerment assessments and biodiversity conservation. Results: The shell characteristics of Koreosolenaia, Parvasolenaia, and Sinosolenaia were clearly distinct, and the soft-body morphology could also be easily distinguished from each other. The papillae of the incurrent aperture of Sinosolenaia iridinea, Sinosolenaia recognita, and Sinosolenaia oleivora, which were previously described as difficult, exhibited significant variations that could be utilized for species diagnosis. Furthermore, both incurrent and excurrent apertures of the Sinosolenaia species had small cysts on their dorsal surfaces which may be unique to this particular group. Comparative analysis of six mitochondrial genomes (Parvasolenaia rivularis, Koreosolenaia sitgyensis, Sinosolenaia iridinea, Sinosolenaia recognita, Sinosolenaia carinata, and Sinosolenaia oleivora) revealed a completely consistent gene arrangement pattern. Additionally, there was a high consistency in nucleotide base content and skewness, amino acid usage, and relative synonymous codon usage among the six complete mitochondrial genomes. Mitochondrial phylogenomics of these genomes with additional taxa within Gonideinae robustly supported the generic relationships as follows: (Inversidens + ((Microcondylaea + Sinosolenaia) + (Parvasolenaia + (Koreosolenaia + (Ptychorhynchus + (Postolata + Cosmopseudodon)))))). Conclusions: The present study provided significant data on the shell morphology and soft-body anatomy of Koreosolenaia, Parvasolenaia, and Sinosolenaia, thereby clarifying the diagnostic characteristics for these challenging taxa. Additionally, we established a robust phylogenetic framework at both the generic and species levels based on mitochondrial genomics. [ABSTRACT FROM AUTHOR]

Published

2024

7. Multispecies genetic structure scales with β-diversity across river hierarchies in a freshwater mussel biodiversity hotspot.

Author

Bucholz, Jamie R., Hopper, Garrett W., Sánchez González, Irene, Jackson, Colin R., Garrick, Ryan C., Atkinson, Carla L., and Lozier, Jeffrey D.

Subjects

*GENETIC drift, *FRESHWATER mussels, *FRESHWATER biodiversity, *GENE flow, *WATERSHEDS

Abstract

Ecological theory predicts that species turnover among communities (e.g. β-diversity) and genetic turnover among populations within species (e.g. FST) should be positively correlated if similar processes influence colonization and occupancy of species and gene flow and genetic drift of populations within a metacommunity. Using recently published population genomic data from multiple populations of 15 freshwater mussel (Unionidae) species across seven rivers in the Mobile and Tennessee River basins of the south-eastern USA, we conducted novel analyses examining the relationship between taxonomic turnover (β-diversity) among communities and genetic differentiation (FST) within these species. FST and β-diversity were both hierarchically structured, and strong basin effects and isolation-by-distance were observed for β-diversity and for FST among populations within most species. Furthermore, β-diversity and FST were directly correlated for the overall community and among sites for individual species, indicating that factors shaping turnover among mussel assemblages are similar at the species and genetic levels. The widespread associations between turnover metrics at the community and population genetic levels of biological organization suggest that parallel processes govern species composition and intraspecific connectivity in freshwater mussel metacommunities. [ABSTRACT FROM AUTHOR]

Published

2024

8. Phenotypic Plasticity, Multiple Paternity, and Shell Shape Divergence Across Lake‐Stream Habitats in a Freshwater Mussel Brood (Pyganodon grandis)

Author

Keogh, Sean M., Minerich, Ben J., Ohlman, Lindsay M., Pletta, Madeline E., Scheunemann, Anna E., Schroeder, Zoe K., Secrist, Zebulin A., Franzen, Alex J., Sietman, Bernard E., and Simons, Andrew M.

Subjects

*FRESHWATER mussels, *SINGLE nucleotide polymorphisms, *PATERNITY testing, *GENETIC variation, *FRESHWATER habitats, *PHENOTYPIC plasticity, *AQUATIC biodiversity

Abstract

ABSTRACT Hydrodynamic forces and their absence appear to exert differential selection pressure on aquatic biodiversity in lake and stream habitats, creating a tight fit between organismal phenotypes and their environments. Ecophenotypic variants may be the result of genetic differentiation or phenotypic plasticity, where a genotype can produce multiple phenotypes dependent on the environment. Freshwater mussels possess a wide degree of morphological variation that frequently covaries with the environment, making them a good system to understand the mechanisms of ecophenotypic variation across hydrological conditions. We designed a two‐year experiment where individuals from the same Pyganodon grandis maternal brood (half and full siblings) were reared at a controlled site and four natural sites involving one lake and three streams. At the end of the experiment, shell shape was quantified for recaptured (N = 70), wild (N = 206), and zoo‐reared (N = 305) mussels. The maternal individual and 46 recaptured mussels were sequenced for genomic single nucleotide polymorphisms to test for multiple paternity and its effect on offspring morphology. Analysis of covariance found significant differences in shell shape between rearing sites, particularly between stream and lake habitats, but no shape differences were detected across the three stream sites. At two of the four sites, the shell shape of recaptured individuals was not significantly different than that of wild populations. Genomic sequencing and parentage analysis identified 11–27 different fathers among recaptured individuals. Yet no genetic differences were present between stream and lake habitats, and there was no paternal effect on shell shape. Taken together, phenotypic plasticity, over genetic differentiation, is identified as the primary mechanism of ecophenotypic variation. Plasticity is likely ubiquitous across freshwater mussels and may be a key adaptation given their high variance in habitat use. Multiple paternity may also play a role in the evolution of phenotypic plasticity, allowing more males from greater distances opportunities for fertilization, thus increasing genetic connectivity. Lastly, phenotypic plasticity and multiple paternity are convenient properties for freshwater mussel conservation and propagation. Multiple fathers increase the genetic variation of propagated broods, while plasticity may provide resilience to the release of stocked individuals across environmental heterogeneity. [ABSTRACT FROM AUTHOR]

Published

2024

9. Determination of Microbial Changes in Freshwater Mussel Unio stevenianus (Krynicki, 1837) Living in a River Contaminated with Sewage and Livestock Waste by NGS.

Author

Kankaya, E.

Subjects

*FRESHWATER mussels, *ANIMAL waste, *INVERTEBRATE communities, *WATER pollution, *FRESHWATER invertebrates

Abstract

The rise in human population has led to the expansion of settlements and an increase in the types and amounts of wastes released into the aquatic environment. Bivalves have an important place among the invertebrate communities of freshwater environments. Mussels remove suspended substances from the water and contribute significantly to the regulation of the physical properties of water. This study was conducted to determine the microbiome load in the intestinal tissue of the freshwater mussel Unio stevenianus (Bivalvia: Unionidae) living in Karasu River. Amplification of the V3–V4 region of the bacterial 16S rRNA gene fragment was performed in tissue samples. Bacterial species were divided into operational taxonomic units using the Kraken metagenomics program. The percentage bacterial distribution with the highest reading sequence at the phylum level was determined as Bacteroidota > Bacillota > Pseudomonadota > Actinomycetota > Cyanobacteriota > Campylobacterota in Arısu samples; while in Zeve samples, it was determined as Pseudomonadota > Actinomycetota > Bacillota > Bacteroidota > Cyanobacteriota > Campylobacterota. The detection of various bacterial phylum indicates that the water environment in which the mussel samples were collected is exposed to a large number of bacterial sources, especially domestic waste. The continued existence of freshwater mussels is necessary for them to fulfill their important duties in the ecosystem. To achieve this, uncontrolled and untreated waste discharges should be abandoned. Pollutants in the water and mussel populations should also be monitored through a monitoring program. [ABSTRACT FROM AUTHOR]

Published

2024

10. Reappraising the species validity of Cuneopsis szechenyii comb. nov. (Neumayr, 1899) and revising the taxonomy of Middendorffinaia mongolica (Middendorff, 1851).

Author

Hou, Kaiyu, Zhang, Liping, Liu, Lili, Liu, Xiongjun, Jia, Junli, and Wu, Ruiwen

Subjects

*BIOLOGICAL classification, *MITOCHONDRIAL DNA, *ENDANGERED species, *COMPARATIVE anatomy, *FRESHWATER mussels

Abstract

Freshwater bivalves (Bivalvia, Unionida, Unionidae) are among the most threatened groups of animals in the world. Taxonomic uncertainties pose a particular challenge due to significant intraspecific variation and apparent plasticity in shell morphology among these species, impeding efficient conservation planning and management. The species Unio szechenyii that is endemic to China has long been regarded as a synonym for Cuneopsis heudei due to the high convergence in shell morphology. The recently validated species Middendorffinaia mongolica is currently restricted to the Amur Basin and Primorye in eastern Russia. This species is classified under the tribe Middendorffinaiini of the subfamily Unioninae within the family Unionidae based on multilocus phylogeny. However, the lack of comprehensive taxonomic information and sufficient molecular phylogenetic data casts uncertainty on the validity and taxonomic status of these two species. We aim to reassess the validity of Unio szechenyii and confirm the taxonomic status of Middendorffinaia mongolica , a new record for China, by integrating taxonomy with robust mitochondrial phylogenomics. We support the validity of Unio szechenyii and propose a recombination as Cuneopsis szechenyii comb. nov. by integrating shell morphometry, soft-body anatomy and molecular evidence. By determination of the mitochondrial genome of Cuneopsis szechenyii , Cuneopsis kiangsiensis , Middendorffinaia mongolica and Pseudocuneopsis wuana , we elucidate intrageneric relationships within the genera Cuneopsis and Pseudocuneopsis. In addition, based on the updated consensus taxonomic framework including tribes and subtribes in Unioninae, mitochondrial phylogenomics strongly support the transfer of Middendorffinaia mongolica from the tribe Middendorffinaiini to the tribe Unionini and classification under the subtribe Middendorffinaiina stat. rev. ZooBank: The maternal mitochondrial genomes of Unio szechenyii , Cuneopsis kiangsiensis , Middendorffinaia mongolica and Pseudocuneopsis wuana are sequenced. The validity of Unio szechenyii , previously considered a synonym of Cuneopsis heudei , is supported by the integration of conchometry, soft-body anatomy and molecular evidence, and a recombination as Cuneopsis szechenyii comb. nov. is proposed. The intrageneric relationships within the genera Cuneopsis and Pseudocuneopsis are elucidated based on the mitochondrial phylogenomics. Middendorffinaia mongolica , a new record for China, is proposed for transfer from the tribe Middendorffinaiini to the tribe Unionini and classification under the subtribe Middendorffinaiina stat. rev. (Image credit: Ruiwen Wu.) [ABSTRACT FROM AUTHOR]

Published

2024

11. Exploring the acid-insoluble shell organic matrix of freshwater mussels (Unionoida) as a proxy for palaeodietary and paleoenvironmental studies.

Author

García-Vázquez, Ana, Radu, Valentin, Covataru, Cristina, and Lazăr, Cǎtǎlin

Subjects

*FRESHWATER mussels, *PALEOENVIRONMENTAL studies, *STABLE isotopes, *EMYDIDAE, *BODIES of water, *BIVALVE shells, *SEASHELLS

Abstract

The shells of freshwater mussels, commonly found at archaeological sites associated with the Kodjadermen-Gumelnița-Karanovo VI human groups (5th millennium BCE, Romania and Bulgaria), were a significant dietary component for this population. The organic matrix of these ancient shells is often well-preserved and can be analysed using stable isotopes. This study establishes the empirical relationship between the isotopic composition of the acid-insoluble shell organic matrix (AIM) and the soft tissues of modern Unio tumidus. A quality criterion for AIM (C:N ratio 3.6 (3.3–<3.8)) was defined, and isotopic offsets (Δ15NAIM-defatted body = +0.95‰, Δ13CAIM-defatted body = +0.93‰ for soft tissues; Δ15NAIM-muscle = +1.7‰, Δ13CAIM-muscle = +0.3‰ for the adductor muscle) were determined. Our data suggest that the Gumelnița mussels were omnivorous, with a similar trophic level to carp and pond turtles, sourced from diverse water bodies (rivers, lakes ...) based on δ13C values. [ABSTRACT FROM AUTHOR]

Published

2024

12. Freshwater mussels enhance sediment nitrogen-removal potentials and alter bacterial communities via nutrient release and bioturbation.

Author

Kubala, Megan E., Hopper, Garrett W., González, Irene Sánchez, Jackson, Colin R., and Atkinson, Carla L.

Subjects

*BIOGEOCHEMICAL cycles, *FRESHWATER mussels, *BACTERIAL communities, *MICROBIAL communities, *BIOTURBATION

Abstract

The stream benthic substrate is associated with ecosystem functioning and provides important habitat for a multitude of organisms from microbes to larger macrofauna. Microbially mediated biogeochemical transformations are critical ecological processes that occur within benthic sediments. Benthic macrofauna, such as freshwater mussels (Bivalvia: Unionoida), can influence these processes by chemically and physically altering the stream substrate, consequently altering redox conditions and the sediment microbial community. However, few studies have investigated the interactions between burrowing macrofauna, benthic nutrient fluxes, and the associated microbial communities in freshwater substrata. We used a mesocosm experiment to investigate how mussels physically (via bioturbation) and chemically (via excretion and egestion) influence sediment–water nutrient fluxes and sediment bacterial community composition. Because many microbially mediated N-transforming pathways can be stimulated by mussel-derived nutrient inputs (excreted NH4+ or organic matter biodeposits) or altered by bioturbation, we predicted that mussels would enhance sediment N-removal potentials and alter the sediment microbial community structure, but that these effects would be mediated by mussel species identity and functional traits. Overall, the presence of mussels enhanced N-removal and modified sediment bacteria community composition and structure. The differences across mussel treatments in sediment N-removal potentials and alpha diversity of bacterial communities suggest that mussel species identity and assemblage composition play a critical role at the benthic–water-column interface in streams. Given the current declines in mussel species richness and abundance, a better understanding of the functional effects of mussel species and assemblage composition is critical to predicting changes in the functioning of stream ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

13. Molecular phylogeny reveals a new genus and species of freshwater mussel (Bivalvia, Unionidae, Gonideinae) from Jiangxi, China.

Author

Dai, Yu-Ting, Chen, Zhong-Guang, Cheng, Yu-Zhuo, Huang, Xiao-Chen, Ouyang, Shan, Shu, Feng-Yue, and Wu, Xiao-Ping

Subjects

*BIOLOGICAL classification, *FRESHWATER mussels, *KEYSTONE species, *UNIONIDAE, *BIVALVES

Abstract

Freshwater mussels of the tribe Gonideini (Bivalvia: Unionidae: Gonideinae) constitute one of the most taxonomically diverse groups and serve as keystone species in riverine and lacustrine ecosystems across East Asia. A new genus and species of Gonideini (Bivalvia: Unionidae) is described from Jiangxi, China, as Pseudopostolata angula gen. et sp. nov. based on an integrative analysis of shell morphology and molecular data. The validity of the new genus and species is supported by distinct conchological features: a short, rounded anterior; a long, wide posterior; a slightly downward-curved dorsal margin; and a distinctly obtuse angle at the center of the posterior margin. The multi-locus (COI + 16S rRNA + 28S rRNA) phylogeny showed that the species formed a monophyletic group in the tribe Gonideini of the subfamily Gonideinae. Pseudopostolata angula gen. et sp. nov. is identified as the sister group to a clade comprising the genera Postolata, Cosmopseudodon, Obovalis, Ptychorhynchus, Parvasolenaia, and Koreosolenaia. We emphasize the significant morphological convergence in freshwater mussels, particularly within Gonideini, highlighting the necessity of an integrated taxonomic approach for accurate generic classification of this group. [ABSTRACT FROM AUTHOR]

Published

2024

14. Two new genera and three new species of exceptionally rare and endemic freshwater mussels (Bivalvia, Unionidae) from the Mekong Basin.

Author

Jeratthitikul, Ekgachai, Sutcharit, Chirasak, and Prasankok, Pongpun

Subjects

*FRESHWATER mussels, *UNIONIDAE, *ENDANGERED species, *BIVALVES, *PHYLOGENY

Abstract

Two new genera and three new species of freshwater mussels in the tribe Pseudodontini (Bivalvia, Unionidae) are described from the Mekong Basin in Thailand based on an integrative taxonomic study involving morphology and multi-locus phylogenetic analyses (mitochondrial COI and 16S, and nuclear 28S genes). The monotypic genus, Lannanaia kokensis gen. et sp. nov., presents unique features of being rather compressed, sub-trigonal in outline with short and high shell, and with a distinct posterior wing. Another new genus, Isannaia gen. nov., is characterized by having a thin and moderately inflated shell, with rhomboidal to ovate outline. It includes two lineages that are genetically separated by 3.54% uncorrected COI p-distance, and are herein described as I. fortunata sp. nov. and I. occultata sp. nov. Phylogenetic analyses further revealed that these two new genera were nested within a clade of subtribe Pseudodontina, and with pairwise uncorrected COI p-distance to other genera ranging from 11.42 to 15.66%. Based on the present data, Lannanaia gen. nov. is known only from the Kok River in the north of Thailand, whereas the two species of Isannaia gen. nov. are restricted to tributaries of the Mekong River in the northeast of Thailand. The discovery of rare and probably endemic freshwater mussels in the Mekong Basin thus again highlights the importance of this region among freshwater biodiversity hotspots of the world. [ABSTRACT FROM AUTHOR]

Published

2024

15. Description of a new freshwater mussel species of Pletholophus, Simpson, 1900 (Bivalvia, Unionidae) from Guangdong, China.

Author

Dai, Yu-Ting, Chen, Zhong-Guang, Hu, Cheng-Lin, Ouyang, Shan, Huang, Xiao-Chen, and Wu, Xiao-Ping

Subjects

*BIOLOGICAL classification, *FRESHWATER mussels, *FRESHWATER animals, *MOLECULAR phylogeny, *SPECIES diversity

Abstract

The Pearl River Basin, China's second-largest freshwater basin, hosts a significant diversity of species and a highly endemic freshwater mussel fauna. In this study, a new species from the Liuxi River in Guangzhou, Guangdong, China, Pletholophus guangzhouensis sp. nov., is described based on morphological diagnostic features and molecular phylogenetics. The glochidia shells of the new species are subtriangular, medium-sized, and have a styliform hook on the ventral angle of each valve. Phylogenetic analyses based on the COI and 28S rRNA gene fragments indicated that Pletholophus guangzhouensis sp. nov. is the sister to Pletholophus tenuis + Pletholophus reinianus. The pairwise uncorrected COI p-distance analysis demonstrated genetic distances ranging from 5.27% (between P. guangzhouensis sp. nov. and P. tenuis) to 11.06% (between P. guangzhouensis sp. nov. and P. honglinhensis). Our findings suggest a significant underestimation of the diversity of freshwater mussel species in Guangdong. Further field collections and systematic studies are necessary to fully explore the biodiversity of this region. Furthermore, integrative classification methods and genetic research are essential for informing the development of effective conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

16. Quantifying Effects and Ingestion of Several Pristine Microplastics in Two Early Life Stages of Freshwater Mussels.

Author

Kudla, Yaryna M., Ijzerman, Moira M., Bennett, C. James, Gillis, Patricia L., Kidd, Karen A., and Prosser, Ryan S.

Subjects

*FRESHWATER mussels, *POLYETHYLENE terephthalate, *POLYETHYLENE fibers, *CELLULOSE acetate, *MICROPLASTICS, *PLASTIC marine debris

Abstract

Microplastics have been found in freshwater systems, and in turn have been detected in freshwater bivalves. However, there is limited research that defines the toxicity of bicroplastics to native freshwater bivalves that have long been imperiled in North America. Our objective was to determine whether a suite of pristine microplastics has an adverse effect on two early life stages of unionid freshwater mussels. Glochidia of Lampsilis fasciola (a Canadian species at risk) and Lampsilis siliquoidea (widespread across Canada) were individually exposed to spheres of polystyrene (6 and 90 μm), polyethylene (28, 90, and 1000 μm), and cellulose acetate (1000 μm), as well as fibers of polyethylene terephthalate (60 μm). After 24 h, there was no significant decrease in glochidia viability in either species. Juvenile L. siliquoidea mussels were also exposed to spheres of polystyrene (6 and 90 μm) and polyethylene (28 μm), and fibers of polyethylene terephthalate (60 μm) in individual 28‐day subchronic tests followed by a 7‐day depuration period. Burial was assessed weekly, and ingestion of each microplastic was compared in nondepurated and depurated mussels. There was no sustained effect on juvenile burial with any microplastic tested. Ingestion of microplastics was concentration dependent, and depuration occurred for all particles and size ranges tested. The results suggest that pristine microplastics were not acutely toxic to the early life stages of these freshwater mussels, but that the energetic costs associated with particle uptake and depuration, which were not measured in our study, may have an impact on fitness that warrants further investigation. In addition, testing with other shapes and polymers of microplastics typically detected in the environment is recommended. Environ Toxicol Chem 2024;43:2557–2568. © 2024 The Author(s). Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC. [ABSTRACT FROM AUTHOR]

Published

2024

17. Bacteriological analysis of unionid hemolymph collected from freshwater mussel populations in the Pacific northwestern United States.

Author

Leis, Eric M., Dziki, Sara, Blevins, Emilie, Waller, Diane L., Richard, Jordan C., Knowles, Susan, and Goldberg, Tony L.

Subjects

*FRESHWATER mussels, *MUSSELS, *ACINETOBACTER, *UNIONIDAE, *HEMOLYMPH

Abstract

Native freshwater mussel (Unionidae) mortality events have been occurring with increased frequency in recent decades, with few investigations into potential etiological agents. In the western United States, no surveys have been published regarding the bacteria associated with unionid mussels. Herein, we examine locations of known mussel mortality events in the Chehalis River (Washington), in the Crooked River (Oregon), and Owyhee River (Oregon). Mussel populations considered healthy were sampled in the Skookumchuck River (Washington) for comparison. A variety of bacteria were isolated from these populations, and most notably, Acinetobacter spp. were identified from 82% of moribund individuals of Gonidea angulata in the Owyhee River. Future work evaluating whether Acinetobacter spp. are pathogenic to freshwater mussels could be valuable in unraveling the factors associated with these enigmatic mortality events. [ABSTRACT FROM AUTHOR]

Published

2024

18. Biologically driven isotope fractionation in ultrastructurally different shell portions of freshwater pearl mussels (Margaritifera margaritifera): Implications for stream water δ18O reconstructions.

Author

Gey, Christoph J., Pfister, Laurent, Türk, Guilhem, Thielen, Frankie, Leonard, Loic, Schmitt, Katharina E., and Schöne, Bernd R.

Subjects

*FRESHWATER mussels, *SEASHELLS, *MUSSEL culture, *CARBONIC anhydrase, *ISOTOPIC fractionation, *OXYGEN isotopes

Abstract

Oxygen isotopes in stream water can serve as natural tracers of watershed dynamics. Freshwater pearl mussels provide δ18Owater estimates that overcome temporal and spatial limitations of instrumental records. The reliability of shell‐based δ18Owater reconstructions depends on understanding which shell layer biomineralizes closer to oxygen isotopic equilibrium with ambient water. To determine this, both the (outer) prismatic and (inner) nacreous sublayers of the outer shell layer were sampled. Over 2500 isotope values were obtained from shells collected from the Our River (Luxembourg) and from mussels cultured in tanks at constant temperature and monitored δ18Owater. Calculated δ18Owater from the prismatic portion was in excellent agreement with monitored δ18Owater, while δ18Oshell of the nacreous portion was systematically offset by +0.43‰, overestimating δ18Owater by +0.53‰. Although shell portions were formed simultaneously from the same extrapallial fluid, they underwent different fractionation mechanisms, presumably due to differences in carbonic anhydrase activity catalyzing mineralization processes. [ABSTRACT FROM AUTHOR]

Published

2024

19. Amelioration of water quality and physiological performance of GIFT fish through the incorporation of Lemna minor and Lamellidens marginalis for ecological bioremediation in freshwater integrated multi-trophic aquaculture system.

Author

Shinde, Sagar Vitthal, Sukhdhane, Kapil S., Sawant, Shamika Shantaram, Krishnani, Kishore Kumar, Munilkumar, Sukham, Majeedkutty, Babitha Rani Asanaru, Chanu, Thongam Ibemcha, and Pathak, Madhuri S.

Subjects

*PELLETED feed, *SUSPENDED solids, *LACTATE dehydrogenase, *LEMNA minor, *FRESHWATER mussels

Abstract

The study extended over 60 days to assess the impact of extractive species on improving water quality and enhancing GIFT fish production performance within the FIMTA system. Prior to initiating the experiment, the extraction capacities of both organic and inorganic extractives were assessed. Subsequently, based on these evaluations, GIFT fish were co-cultured with freshwater mussels and aquatic macrophytes as organic and inorganic extractive agents, respectively, within 1000 L FRP tanks. Three treatment combinations were established: GIFT fish with Lemna minor (T1), GIFT fish with Lamellidens marginalis (T2), and GIFT fish with both L. minor and L. marginalis (T3). The control treatment (C) consisted solely of GIFT fish. GIFT fish were stocked at a density of 40 m−2, while L. marginalis at 250 g per tank and L. minor covering 25% of the tank surface. GIFT fish were fed with floating commercial pelleted feed at 4% of body weight (30% CP). The results indicated that among the water quality parameters, chlorophyll a, dissolved solids, and suspended solids showed a reduction in T3. The control group exhibited elevated levels of BOD and COD, whereas the treatment groups showed significantly lower levels. Furthermore, the control group demonstrated increased conductivity levels, while T3 exhibited the lowest levels. In T3, a significant reduction was observed in both POM and POC. Growth variables like SGR and PWG were found to be highest in T3. Regarding enzyme activity, the control group exhibited lower levels of protease, lipase, and amylase, while the highest levels were observed in T3. Physiological enzyme activities such as LDH, MDH, ALP, and ACP were significantly increased (p < 0.05) in the control system, indicating elevated water pollution levels. Meanwhile, bacterial load was found to be very low in the FIMTA system (T3). These findings suggest that the integration of GIFT with L. minor and L. marginalis in the FIMTA system has the potential to enhance water quality and physiological responses, ultimately contributing to higher yields. [ABSTRACT FROM AUTHOR]

Published

2024

20. Description and potential sources of a shell deformity in North American freshwater mussels (Unionoida).

Author

Hazelton, Peter D., Landis, Andrew Gascho, McElwain, Andrew, Olivencia, Kyle, and Carmignani, Jason

Subjects

FRESHWATER mussels, POLLUTANTS, PATHOLOGY, AGE distribution, CHIRONOMIDAE

Abstract

Objective: Freshwater mussels of the order Unionoida are among the most imperiled taxa in North America, and many species are undergoing enigmatic decline without fully understood causation. Disease pathology and parasitology have been identified as areas with significant knowledge gaps in relation to these declines. We investigated a shell deformity of unknown cause that is widespread in northeastern North America by adding to the clinical description from a mussel assemblage in Massachusetts with a deformity prevalence exceeding 50%. We build upon previous qualitative descriptions of this deformity with investigations of shell morphology and mussel age. Methods: We conducted a qualitative survey of the mussel community to evaluate the prevalence of deformity. Mussels were classified as deformed based on the presence of a distinct truncation of the posterior margin of the shell. For the eastern elliptio Elliptio complanata, we evaluated the shell height, shell length, and height : length ratio of animals classified as deformed versus normal and we conducted a comparison to a reference population. We also incorporated shell thin sectioning and aging to qualitatively describe the deformity in cross section and to compare age distributions between deformed and normal eastern elliptio. Result: We observed the presence of this deformity in four species, including the eastern elliptio, eastern lampmussel Lampsilis radiata, eastern pearlshell Margaritifera margaritifera, and creeper Strophitus undulatus. In cross section, the deformity appeared to be caused by repeated disturbance in growth in the posterior portion of the shell. Deformed eastern elliptio had markedly shorter shells for a given shell height when compared to normal and reference mussels, and they tended to be older at shorter shell lengths than normal mussels from the same site. Conclusion: The cause of the shell deformity in the United States remains unknown, although it appears similar in description to the deformity caused by a commensal midge, Xenochironomus canterburyensis, which infects a distantly related freshwater mussel in New Zealand. We highlight potential causes and the need for further investigation. Impact StatementFreshwater mussels in the order Unionoida are among the most imperiled taxa in North America; pathogens, parasites, and environmental contaminants are among several potential causes of endangerment. Our work adds to the description of a deformity observed in mussels from northeastern North America and outlines a potential parasitic cause evidenced from across the globe. [ABSTRACT FROM AUTHOR]

Published

2024

21. Transition from sexuality to androgenesis through a meiotic modification during spermatogenesis in freshwater Corbicula clams.

Author

Etoundi, Emilie, Vastrade, Martin, Berthelin, Clothilde, Kellner, Kristell, Fafin-Lefèvre, Mélanie, and Van Doninck, Karine

Subjects

*FRESHWATER mussels, *GERM cells, *ASEXUAL reproduction, *GENETIC variation, *SYMPATRIC speciation

Abstract

Asexual taxa are often considered as rare and vowed to long-term extinction, notably because of their reduced ability for rapid genetic changes and potential adaptation. The rate at which they derive from sexual ancestors and their developmental mode however influence genetic variation in asexual populations. Understanding the transition from sexuality to asexuality is therefore important to infer the evolutionary outcome of asexual taxa. The present work explored the transition from sexuality to androgenesis, a reproductive mode in which the males use female resources to clone themselves, in the freshwater Corbicula clams. Since androgenetic lineages are distinguishable from sexual clams by the production of unreduced sperm, this study investigated the cytological mechanisms underlying spermatogenesis in Corbicula by following the DNA content variation of male germ cells. The widespread androgenetic C. sp. form A/R lineage was compared to the sexual species C. japonica and C. sandai. While in C. japonica, the last stages of spermatogenesis are reduced through a canonical meiosis process, no reduced or duplicated stages were observed in C. sp. form A/R, suggesting a meiosis modification in this lineage. However, 45% of C. sandai spermatozoa were unreduced. The production of unreduced sperm may condition or provide the potential for the emergence of androgenesis in this sexual species. Being closely related to androgenetic lineages and found in sympatry with them in Lake Biwa (Japan), C. sandai might be an origin of androgenetic lineage emergence, or even an origin of the androgenetic reproductive mode in Corbicula. [ABSTRACT FROM AUTHOR]

Published

2024

22. Seasonally stable wetted width elucidates freshwater mussel species richness and endangered species presence: implications for T&E management programs and stream restoration design.

Author

Hawley, Robert J., Cooper, Kurt, McGregor, Monte, Acosta, Shelby, Mulhall, Bethany, Raetz, Abi, and Korth, Nora L.

Subjects

*ECOLOGICAL disturbances, *ANTHROPOGENIC effects on nature, *FRESHWATER mussels, *FLOODPLAINS, *AQUATIC habitats

Abstract

Centuries of beaver extirpation, deforestation, and other anthropogenic impacts have disconnected North American rivers from their floodplains and concentrated more hydraulic energy within their channels, degrading aquatic habitat and making the streambed more prone to erosion. Rivers naturally adjust via systematic downcutting, bank erosion, channel widening, bar building, and the gradual recovery of geomorphic equilibrium with well‐connected benches that dissipate hydraulic energy and restore a more natural streambed disturbance regime. The life histories of two endangered freshwater mussels, the fanshell (Cyprogenia stegaria) and snuffbox (Epioblasma triquetra), suggest they have evolved to and depend on the natural disturbance regime. Young juveniles excyst from their host fish in early summer, burrow into the top few millimeters of the streambed, and then need ca. 3 months of streambed stability prior to growing large enough to be less vulnerable to streambed mobilization. We propose a conceptual model that suggests a potential prerequisite to supporting fanshell and snuffbox populations is a geomorphically recovering (i.e. at least one stable bank and a wide enough channel corridor for at least partially vegetated bars/benches) or recovered (i.e. stable banks and vegetated benches) channel and floodplain corridor that sufficiently dissipates its hydraulic energy to maintain seasonal streambed stability during typical (non‐hurricane) summer/autumns. To explore this conceptual model, we conducted mussel and geomorphic surveys in a reach of the Rolling Fork River that spanned a range of channel conditions from chronically failing streambanks to a geomorphically recovered channel with wide, vegetated benches. Our analyses documented increasing mussel species richness, including the presence of the endangered fanshell or snuffbox, with increasing width of seasonally stable streambed habitat. [ABSTRACT FROM AUTHOR]

Published

2024

23. Linking Phylogeny and Morphology to Resource Assimilation Within Aquatic Assemblages.

Author

Lodato, Matthew B., van Ee, Brian C., and Atkinson, Carla L.

Subjects

*COEXISTENCE of species, *FRESHWATER mussels, *STABLE isotopes, *UNIONIDAE, *PHYLOGENY

Abstract

Niche partitioning promotes species coexistence. Yet, it remains unclear how phylogeny and morphology influence the trophic niches of closely related aquatic species with shared feeding modes. Freshwater mussels (Family: Unionidae) are a group of filter‐feeding bivalves that are ideal for investigating mechanisms of niche partitioning. Particle size selection and patterns of ingestion are controlled by gill latero‐frontal cirri density (CD) and the number of cilia per cirrus (CC). We investigated trophic assimilation and niche area using stable isotope signatures (훿13C and 훿15N) and gill morphology with scanning‐electron microscopy for a diverse mussel assemblage from the Sipsey River, Alabama, USA. We predicted that (1) trophic niches and gill morphology would differ within and among species across sites; (2) co‐occurring species would partition food resources; (3) greater phylogenetic distances among species would result in increased trophic dissimilarity; (4) more CC and higher CD would result in a narrower trophic niche area, or more constrained range of food items assimilated. We found that (1) species identity and site influenced gill morphology and stable isotope signatures but that the trophic niche area of a species was only affected by species identity; (2) the average proportion of niche area overlap between co‐occurring species was low across sites (0.04 to 0.18); (3) trophic dissimilarity among species increased with phylogenetic distance; (4) CD but not the number of CC negatively related to trophic niche area. Our results indicate that gill morphology and evolutionary history are likely key factors governing the trophic niches of mussels. In addition, intraspecific variation in gill morphology across sites may either reflect a phenotypic response to differences in local resource availability or suggest that other mechanisms shape particle selection. Examining the interplay among the trophic niche, phylogeny, and morphology among functionally similar species further informs our understanding of the mechanisms facilitating their coexistence. [ABSTRACT FROM AUTHOR]

Published

2024

24. Reciprocal transplant experiments demonstrate a dynamic coevolutionary relationship between parasitic mussel larvae and bitterling fishes.

Author

Anil, Abhishek Nair, Mehdi, Imane, Douda, Karel, Smith, Carl, and Reichard, Martin

Subjects

*FISH larvae, *DISEASE resistance of plants, *FRESHWATER mussels, *BITTERLING, *IMMUNE response

Abstract

The coevolutionary dynamic of host–parasite associations varies from strictly local adaptations to diffuse guild coevolution. How innate and acquired immune responses modulate host resistance to parasitism and how host specificity and geographic scaling affect the efficacy of host response have consequences for range dynamics and biological invasions.Using reciprocal transplant experiments, we tested whether local or diffuse coevolution shapes host response to parasitism in the host–parasite association between bitterling fishes and larval stages (glochidia) of freshwater mussels from Europe and East Asia.We found that glochidia initially indiscriminately attached to all study host species, but immune responses elicited significant differences in host responses within 24 h of infection, which intensified during glochidial development. European bitterlings were more resistant to European glochidia and Asian bitterlings to Asian glochidia, with the strongest geographic bias in resistance in the Asian bitterling hosts.This finding suggests a strong effect of local adaptation but also indicates the non‐negligible role of coevolutionary hotspots. Low natural glochidia load on bitterling species overall hence arise from competent immune response rather than glochidia avoidance behaviour. Bitterling immune response is primarily innate and not acquired.Overall, our data demonstrate the complex outcome of parasite pressure on the evolution of host resistance, and important role of geographically structured coevolution in shaping host response. [ABSTRACT FROM AUTHOR]

Published

2024

25. Sulfate sensitivity of early life stages of freshwater mussels Unio crassus and Margaritifera margaritifera.

Author

Hu, Xiaoxuan, Mäkinen, Mikko, Taskinen, Jouni, and Karjalainen, Juha

Subjects

FRESHWATER mussels, FRESHWATER invertebrates, WATER hardness, FOOT movements, TOXICITY testing, FRESHWATER organisms

Abstract

Sulfate is increasingly found in elevated concentrations in freshwater ecosystems due to anthropogenic activities. Chronic exposure to sulfate has been reported to cause sublethal effects on freshwater invertebrates. Previous sulfate toxicity tests have mostly been conducted in hard or moderately hard waters, and research on species inhabiting soft water is needed, given that freshwater organisms face heightened sensitivity to toxicants in water of lower hardness. In the present study, we examined sulfate sensitivity of two endangered freshwater mussel species, Unio crassus, and Margaritifera margaritifera. Glochidia and juveniles of both species were subjected to acute and/or chronic sulfate exposures in soft water to compare sulfate sensitivity across age groups, and effective concentrations (EC)/lethal concentrations (LC) values were estimated. Mussels were individually exposed to allow relatively larger numbers of replicates per treatment. Chronic sulfate exposure significantly reduced growth, foot movement, and relative water content (RWC) in juvenile mussels of M. margaritifera. Mussels at younger stages were not necessarily more sensitive to sulfate. In the acute tests, LC50 of glochidia of M. margaritifera and U. crassus was 1301 and 857 mg/L, respectively. Chronic LC10 was 843 mg/L for 3-week-old U. crassus juveniles, 1051 mg/L for 7-week-old M. margaritifera juveniles, and 683 mg/L for 2-year-old M. margaritifera juveniles. True chronic Lowest Effective Concentration for 7-week-old M. margaritifera may be within the 95% interval of EC10 based on RWC (EC10 = 446 mg/L, 95%CI = 265–626 mg/L). Our study contributed to the understanding of sulfate toxicity to endangered freshwater mussel species in soft water. [ABSTRACT FROM AUTHOR]

Published

2024

26. Toxicological and Biomarker Assessment of Freshwater Zebra Mussels (Dreissena polymorpha) Exposed to Nano-Polystyrene.

Author

Reynolds, Andrew, Cody, Enya, Giltrap, Michelle, and Chambers, Gordon

Subjects

ZEBRA mussel, TOXICITY testing, FRESHWATER mussels, STRAINS & stresses (Mechanics), MUSSELS

Abstract

The presence of sub-micron-sized plastics in the environment has been increasing, with the possible risks of these particles remaining relatively unknown. In order to assess the toxicity of these particles, 100 nm diameter green fluorescent nano-polystyrene spheres (NPS) (20–60 mg/L) were exposed to zebra mussels (Dreissena polymorpha) to investigate the mortality, clearance rate and stress-related biomarker responses. D. polymorpha were collected and analysed with standard OECD toxicological tests and biomarker analysis to detect both physical and biochemical responses after exposure to NPS. The toxicity of the NPS to D. polymorpha was low, with 60 mg/L NPS causing a mortality rate of 11.1% at 96 h which was statistically significant compared to the 4.2% control. No statistical change could be found for the condition factor (kc) of D. polymorpha after NPS exposure. Clearance rates in D. polymorpha using R. subcapitata algae showed NPS-exposed mussels had a reduction of filtering efficiency of up to 30.5%. Bioassay testing shows a mixed but undeniably negative response from the D. polymorpha to the NPS, notably a significant rise in DNA Strand Breaks (DSB) and Metallothionein (MT) responses for high NPS concentrations. Additionally, Lipid Peroxidation (LPO) and Ferric Reducing Antioxidant Power (FRAP) assay tests showed a significant increase in response from the higher (>40 mg/L) concentrations of NPS exposure. Although Glutathione S-Transferase (GST) assay showed no statistical change from the control for all NPS-exposed samples, an increase of 20% had occurred for 60 mg/L NPS. Overall, a minimal toxic response from D. polymorpha to the NPS exposure below 40 mg/L was seen. After 40 mg/L NPS, mussels presented more acute toxicity in terms of mortality, along with reduced algal clearance rates and anincrease in biomarker response. This study revealed a clear induction of oxidative stress and DSB in the digestive gland of zebra mussels following exposure to nano-polystyrene. While these findings provide valuable insights into the potential harmful effects of nanoplastics in freshwater bivalves, further studies are necessary to help understand the level of threat plastic pollution may pose to the health of freshwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

27. Declines in Freshwater Mussels and Loss of Mussel–Invertebrate Interactions in the Subtropical Waterbodies of Dhaka, Bangladesh.

Author

Ollard, Isobel, Aldridge, David C., Jannat, Fatima, and Chowdhury, Gawsia W.

Subjects

INVERTEBRATE populations, FRESHWATER mussels, ENVIRONMENTAL degradation, MUSSELS, BODIES of water

Abstract

Freshwater mussels are a globally threatened taxon, but little is known about population trajectories for species outside Europe and North America. To contribute to understanding of mussel conservation status outside these regions, we surveyed mussel and other invertebrate populations in waterbodies across Dhaka, Bangladesh, to assess population trends and the role of mussels in structuring benthic communities.We found that mussel populations in Dhanmondi Lake, our focal waterbody, have declined in density by approximately 90% between 2010 and 2023. Lamellidens marginalis declined by 90.8% from an average density of 47.9 ± SE 7.1 mussels 0.25 m−2 in 2010 to 4.4 ± SE 0.7 mussels 0.25 m−2 in 2023, while Indonaia caerulea declined by 89.4% from an average density of 6.6 ± SE 1.0 mussels 0.25 m−2 in 2010 to 0.7 ± SE 0.1 mussels 0.25 m−2 in 2023.Previously detected associations between mussels and other invertebrate taxa, and between mussels and community composition, have been lost. Non‐mussel invertebrates have also declined significantly, with an average decrease in abundance of 27%, alongside decreases in family richness and Shannon‐Wiener diversity. These declines occurred despite apparent improvements in water quality.Findings from other waterbodies across Dhaka also suggest the loss of mussel species including L. marginalis, I. caerulea and Parreysia corrugata from some locations, as well as the presence of the non‐native mussel Pilsbryoconcha exilis at river sites.Our results reflect a wider, global pattern of enigmatic declines in freshwater mussels and the possible loss of associated ecosystem functioning, which may be going unnoticed in less‐studied areas including the subtropics. [ABSTRACT FROM AUTHOR]

Published

2024

28. Addition to the known diversity of Chinese freshwater mussels: integrative description of a new species of Postolata Dai et al., 2023 (Bivalvia, Unionidae, Gonideinae)

Author

Liu, Lili, Zhang, Liping, Hou, Kaiyu, Ning, Liyang, Wu, Rui-Wen, and Pensoft Publishers

Subjects

China, cryptic species, Freshwater mussels, integrative taxonomy, multi-locus phylogeny, Postolata

Published

2024

29. Comparative morphology and mitogenomics of freshwater mussels Koreosolenaia, Parvasolenaia, and Sinosolenaia (Bivalvia: Unionidae: Gonideinae)

Author

Liping Zhang, Xiaoyan Liu, Xinyan Hu, Junli Jia, Xiongjun Liu, and Ruiwen Wu

Subjects

Shell morphology, Soft-body anatomy, Freshwater mussels, Unionidae, Gonideinae, Mitochondrial phylogenetics, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Amidst the escalating loss of global biodiversity, freshwater mussels (family Unionidae) have become one of the most imperiled animal groups. Acquiring more biological and phylogenetic information on understudied taxa constitutes a pivotal aspect of conservation biology. Consequently, a comprehensive examination was conducted on Koreosolenaia, Parvasolenaia, and Sinosolenaia from China encompassing morphology, anatomy, distribution, and molecular systematics to provide theoretical support for future species endangerment assessments and biodiversity conservation. Results The shell characteristics of Koreosolenaia, Parvasolenaia, and Sinosolenaia were clearly distinct, and the soft-body morphology could also be easily distinguished from each other. The papillae of the incurrent aperture of Sinosolenaia iridinea, Sinosolenaia recognita, and Sinosolenaia oleivora, which were previously described as difficult, exhibited significant variations that could be utilized for species diagnosis. Furthermore, both incurrent and excurrent apertures of the Sinosolenaia species had small cysts on their dorsal surfaces which may be unique to this particular group. Comparative analysis of six mitochondrial genomes (Parvasolenaia rivularis, Koreosolenaia sitgyensis, Sinosolenaia iridinea, Sinosolenaia recognita, Sinosolenaia carinata, and Sinosolenaia oleivora) revealed a completely consistent gene arrangement pattern. Additionally, there was a high consistency in nucleotide base content and skewness, amino acid usage, and relative synonymous codon usage among the six complete mitochondrial genomes. Mitochondrial phylogenomics of these genomes with additional taxa within Gonideinae robustly supported the generic relationships as follows: (Inversidens + ((Microcondylaea + Sinosolenaia) + (Parvasolenaia + (Koreosolenaia + (Ptychorhynchus + (Postolata + Cosmopseudodon)))))). Conclusions The present study provided significant data on the shell morphology and soft-body anatomy of Koreosolenaia, Parvasolenaia, and Sinosolenaia, thereby clarifying the diagnostic characteristics for these challenging taxa. Additionally, we established a robust phylogenetic framework at both the generic and species levels based on mitochondrial genomics.

Published

2024

30. Mussels with luggage: the influence of artificially attached 'backpack' devices on mussel movement behavior

Author

Konstantina Drainas, Sebastian Beggel, and Juergen Geist

Subjects

Freshwater mussels, Ecological indicators, Biological early warning systems, Backpacks, Sensors, Behavior, Environmental sciences, GE1-350, Environmental law, K3581-3598

Abstract

Abstract Background Freshwater mussels are important keystone and indicator species of aquatic ecosystems. Recent advances in sensor technology facilitate applications to individually track mussels and to record and monitor their behavior and physiology. These approaches require the attachment of sensor devices as “backpacks” to the outer shell surface. The interpretation of such data makes it necessary to understand the influence of these attachments on the horizontal and vertical movement behaviors of freshwater mussels. Over a series of mesocosm experiments, this study systematically investigated the effects of three size- and wiring-specific variants of artificially attached backpacks on the horizontal and vertical movement behavior of Anodonta anatina. Results Across all experiments, equipping mussels with backpacks did not result in a significant influence on horizontal movement for any of the backpack variants. In contrast to this finding, the big backpacks with a high ratio between backpack volume and mussel length resulted in a significantly negative effect on vertical movement, indicating a potential for adverse effects of such devices on mussels, especially in natural settings. Conclusions The findings of this study show that assessing the effects of attached devices on mussels requires a species-specific evaluation of potential impacts on the endpoints of interest. Especially for vertical movement patterns, selection of the smallest available devices appears mandatory.

Published

2024

31. Behaviour, biochemical and histological responses of the freshwater mussels <italic>Unio ravoisieri</italic> exposed to wastewater from Wadi Guenniche (Northeastern Tunisia)

Author

Bousselmi, Asma, Khalloufi, Noureddine, Bacha, Ons, Ghayth Alzwawy, Ateeqah, Nhili, Ahmed, Mahmoudi, Ezzeddine, and Bejaoui, Mustapha

Subjects

*FRESHWATER mussels, *SEWAGE, *OXIDATIVE stress, *ACETYLCHOLINESTERASE, *DATABASES

Abstract

Wastewater effluents increase contaminant levels in the aquatic environment, leading to various disruptive effects. In this study, responses of Unio ravoisieri transplanted into wastewater from Wadi Guenniche were monitored using filtration rate, oxidative stress, lipo-peroxidation, neurotoxicity and histopathological markers. The filtration rate was significantly increased by exposure to diluted wastewater, rising from 35.13 mg indiv−1 h−1 in the control to 63.49 mg indiv−1 h−1 in the mussels after 96 h of exposure. In contrast, this exposure significantly reduces catalase, glutathione-S-transferase and acetylcholinesterase activities in both organs. This decrease is dependent on the effluent concentration and time exposure. The malondihaldehyde content showed an increasing profile in both organs. It is only in the gills that this increase is significant for mussels transplanted in situ for 48 h. Contamination by wastewater causes histopathological changes in both organs, marked by infiltration, vacuolisation, secretion of lipofuscins and cell necrosis. The intensity of these lesions depends on the duration of exposure and the degree of pollution. The mean incidence of lesions increases depending on effluent concentration and exposure time in both organs. Our study contributes to the database on behavioural, biochemical and histopathological effects in mussels following the discharge of wastewater effluent into a freshwater ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

32. The relationship between stream size and life-history traits in freshwater mussels: an examination of the Host-Habitat Continuum Concept.

Author

Hornbach, Daniel J., Sietman, Bernard E., and William Bouchard Jr., R.

Subjects

*LIFE history theory, *ANTHROPOGENIC effects on nature, *FRESHWATER mussels, *SPECIES diversity, *BIOGEOGRAPHY

Abstract

The Host-Habitat Continuum Concept (HHCC) predicts changes in the proportions of freshwater mussels with different life-history strategies (i.e., equilibrium, periodic, opportunistic) along stream gradients and between habitat types. We analyzed mussel assemblages from a large, diverse geographic area to test predictions of the HHCC and to assess if species richness, abundance, and host strategy patterns change predictably among different habitats (lakes, reservoirs, and streams) and stream sizes. Species richness and abundance were low in lakes, reservoirs, and small streams and increased with stream size. Mussels use various strategies to attract fish hosts and the proportion of mussels that release conglutinates (i.e., packets of glochida) increased with stream size and the proportion that use lures decreased. Our results supported predictions of the HHCC: greater proportions of opportunistic or periodic strategists in lakes, reservoirs, and small streams and a shift to equilibrium strategists in larger streams. Patterns differed slightly in lakes and reservoirs with a higher proportion of periodic strategists than expected. Not all watersheds followed predictions of the HHCC likely due to the effects of biogeography and anthropogenic impacts. These life history strategy patterns can be used to test the expected composition of mussel communities and to detect possible anthropogenic impacts. [ABSTRACT FROM AUTHOR]

Published

2024

33. Uptake, Efflux, and Sequestration of Mercury in the Asian Clam, Corbicula fluminea , at Environmentally Relevant Concentrations, and the Implications for Mercury Remediation.

Author

Geeza, Thomas Jeremy, Stevenson, Louise Mote, and Mathews, Teresa Joan

Subjects

CORBICULA fluminea, FRESHWATER mussels, ENVIRONMENTAL health, DRINKING water, BIOCONCENTRATION, MERCURY

Abstract

(1) Mercury (Hg) is a persistent, ubiquitous contaminant that readily biomagnifies into higher trophic level species in aquatic environments across the globe. It is crucial to understand the movement of environmentally relevant concentrations of Hg in impacted freshwater streams to minimize risks to ecological and human health. (2) The bioconcentration kinetics of aqueous Hg exposure (20, 100, and 200 ng/L) in the invasive Asian Clam, Corbicula fluminea, were measured. A toxicokinetic model, the first parameterized for Hg accumulation in freshwater clams, was developed to estimate uptake and efflux parameters and compared to previous parameter values estimated for other mollusk species. (3) Results demonstrated that even at low Hg concentrations, Corbicula record signals of contamination through bioconcentration, and both direct measurement and toxicokinetic models demonstrate large Hg bioconcentration factors (as high as 1.34 × 105 mL/g dry tissue), similar to partitioning coefficients seen in engineered Hg sorbents. (4) Our study found that Corbicula accumulated Hg at aqueous concentrations relevant to impacted streams, but well below regulatory drinking water limits, demonstrating their utility as a sensitive sentinel species and potential bioremediator. [ABSTRACT FROM AUTHOR]

Published

2024

34. Resilience of Juvenile Freshwater Pearl Mussels to Thermal Stress.

Author

Wacker, Sebastian, Sundt, Katrine Åmdal, Mageroy, Jon Hamner, Larsen, Bjørn Mejdell, Hagen, Chavindi Sophie, Horvli, Torill, and Robertsen, Grethe

Subjects

*FRESHWATER mussels, *WATER temperature, *THERMAL stresses, *HIGH temperatures, *CLIMATE change

Abstract

Climate change poses a significant threat to freshwater ecosystems by causing increases of average water temperatures, and more frequent and extreme heating events. Freshwater mussels are declining globally, and the distribution of the freshwater pearl mussel (Margeritifera margeritifera) has decreased dramatically over the past century. Even though it is likely that climate change is contributing to the decline of the species, little is known about the specific mechanisms involved. Here, we test how short episodes of water temperatures above the known thermotolerance range affect the survival and growth of the early post parasitic juvenile phase of freshwater pearl mussels. We also test if previous experience with elevated water temperatures can modify survival and growth responses to subsequent high‐temperatures exposure. Mortality was very low in all treatments (< 5%) and not affected by the temperature treatments, while growth rate was positively affected by temperature. Our results suggest that juvenile mussels can survive short periods of heat stress when other environmental conditions are favourable. Future studies should therefore address how heat stress affects survival in combination with other stressors, such as reduced availability of dissolved oxygen. [ABSTRACT FROM AUTHOR]

Published

2024

35. Freshwater Mussel (Unio pictorum) Shells Reveal Hydrological and Environmental Change From 1300 BC to the Present Day.

Author

Ollard, Isobel, Ballantyne, Rachel, and Aldridge, David C.

Subjects

*BIOTIC communities, *SEASHELLS, *FRESHWATER mussels, *STABLE isotopes, *PALEOECOLOGY

Abstract

Preserved biological communities can provide baseline data about the historical ecosystems and environmental conditions that preceded recent anthropogenic alteration. Freshwater mussel shells show particularly good preservation, and the shell assemblages commonly found during archaeological excavations can offer insights into past ecosystems. We studied assemblages of Unio pictorum mussel shells from palaeochannel silts associated with the Late Bronze Age site of Must Farm in eastern England (c. 850 BC), on an ancient tributary of the modern‐day River Nene. We compared archaeological shells from two sediment horizons (broadly 1300–700 BC) to live individuals collected from two analogous sites on the present‐day Nene. Size and growth rate, interannual growth variability and stable isotope (δ18O and δ13C) composition were compared between the populations. Size and the von Bertalanffy growth parameter L∞ differed among all four populations. Mean lengths and L∞ were higher in the two modern populations (mean lengths 77.3 ± SE 0.8 and 73.8 ± SE 1.1 mm, L∞ 91.8 ± 5.4 and 79.0 ± 8.1 mm) than the ancient populations (mean lengths 58.1 ± SE 1.6 mm and 68.4 ± SE 0.9 mm; L∞ 71.5 ± 16.9 and 76.8 ± 6.2 mm). Modern individuals also showed greater variation in age‐corrected year‐to‐year growth. δ13C was lower in modern shells (−11.8‰ for modern shells, −9.03‰ and −9.02‰ for ancient shell populations), potentially reflecting altered hydrological and nutrient regimes. δ18O and δ13C were positively correlated for all but one sampled ancient shell, but not modern shells. These results reflect changes in local environmental conditions, particularly the transition from a shallow, slow‐flowing tributary to a deeper, canalised river with faster flow, as well as effects of anthropogenic nutrient enrichment. The findings demonstrate the importance of long‐term data in studying anthropogenic ecosystem alteration and avoiding shifting baseline syndrome in conservation planning. [ABSTRACT FROM AUTHOR]

Published

2024

36. Riverscape genomics of the endangered freshwater mussel Lampsilis rafinesqueana.

Author

Hein, Steven R., Farleigh, Keaka, and Berg, David J.

Subjects

*GENETIC variation, *CONSERVATION genetics, *FRESHWATER mussels, *MITOCHONDRIAL DNA, *DNA sequencing, *GENE flow, *PHYLOGEOGRAPHY, *AQUATIC biodiversity

Abstract

Historical periods of rapid climate change and associated direct and indirect impacts such as glaciation and restructuring of drainage systems are important in shaping biodiversity, lineage divergence, and contemporary genetic variation amongst many aquatic taxa. Through an understanding of the impacts of these ancient changes in land‐ and waterscapes on current diversity, practitioners can account for a species' unique evolutionary history when developing conservation strategies.We investigated intraspecific genetic diversity of the critically endangered freshwater mussel, Lampsilis rafinesqueana, endemic to the interior region of the U.S.A. Our study (1) characterises genetic variation within and amongst populations to infer biogeographic history and (2) applies genetic information to potential conservation strategies. We applied restriction‐site associated DNA sequencing and mitochondrial DNA sequencing to investigate genetic diversity within and amongst populations of L. rafinesqueana from across the species' distribution. We then considered this information in the context of historical riverscape processes and applicability to conservation.Variation within rivers was similar, but we found different genetic populations associated with two major ecoregions, the Central Interior Highlands and Osage Plains. The plains population displayed an Ne value approximately 10‐fold lower than the highlands population. Historical demographic modelling suggests the two populations diverged approximately 1.2 million years ago and then both populations underwent a substantial decrease in population size around 19,700 years ago. These two major events are each correlated with known periods of historic rapid climate change.We identified two distinct populations of a federally endangered mussel, L. rafinesqueana. Contemporary genetic diversity of this species was strongly influenced by direct and indirect impacts of rapid historic shifts in climate. The highlands population has undergone a recent expansion, typical of post‐Pleistocene climate change, while also having a much larger Ne value than the plains population. Our results suggest low levels of gene flow amongst the two distinct populations across generations. We recommend that conservation managers for this species take into account relative difference in diversity between populations when developing management strategies. In many species, assisted gene flow amongst genetically unique populations should only be considered in extreme circumstances; however, in L. rafinesqueana, low levels of assisted migration amongst populations may be a valuable tactic to maintain natural levels of genetic variation.Our study shows that biogeographical frameworks can be useful for developing conservation strategies that serve to retain important genomic variation that represents the evolutionary potential of target freshwater species. [ABSTRACT FROM AUTHOR]

Published

2024

37. Age structure and growth patterns of the endangered freshwater mussel Unio crassus Philipsson, 1788 under different environmental conditions.

Author

Bujas, Niko, Lajtner, Jasna, Ivanković, Dušica, Kiralj, Zoran, Trgovčić, Krešimira, Dragun, Zrinka, Uvanović, Hana, and Peharda, Melita

Subjects

*FRESHWATER mussels, *HUMAN growth, *SCLEROCHRONOLOGY, *UNIONIDAE, *MUSSELS

Abstract

Understanding the age structure and growth patterns of freshwater bivalve species is crucial for their conservation, and these data are still lacking for many species and locations. The main objective of this study was to gain insight into the age structure and growth patterns of the endangered mussel Unio crassus at the unpolluted and polluted sites on the Mrežnica River (Croatia), as well as construct the first-ever chronology for this species. Bivalve sampling was carried out in July 2020. The age and growth dynamics were determined by analysing internal growth lines in acetate peel replicas of shell cross sections. The length range of shells from the unpolluted station was 4.5–5.6 cm, with an estimated age range of 10 to 29 years, whereas shell length at the polluted site was 5.2–6.1 cm, with an estimated age range of 10 to 22 years. Our results indicate that industrial pollution may influence life strategies in U. crassus populations, with mussels growing faster and living shorter at polluted site. Compared to other parts of Europe, the estimated ages obtained in our study were the most similar to those in central Europe. According to growth curves, mussels grow the fastest during their first 10 years, after which their growth significantly slows down. Growth chronologies were constructed by measuring growth increments in acetate peels of shell cross-section, and some correlations between shell growth and environmental parameters have been observed, indicating the potential for further sclerochronology research on this species. [ABSTRACT FROM AUTHOR]

Published

2024

38. Differences in desiccation tolerance of two Australian freshwater mussel species with different life history characteristics is temperature dependent.

Author

Wright, Daniel W., Thiem, Jason D., Blackman, Elka, Beatty, Stephen J., Lymbery, Alan J., and Davis, Sam

Subjects

*FRESHWATER mussels, *LIFE history theory, *SPECIES diversity, *HIGH temperatures, *DEBYE temperatures, *RIPARIAN plants

Abstract

Mass die-offs, reduced species richness and local extinctions of freshwater mussels have resulted from river drying events, which often co-occur with high ambient temperatures. These events are predicted to increase in frequency and severity under the influence of climate change. We aimed to identify the desiccation tolerance of two freshwater mussel species (the river mussel Alathyria jacksoni and the floodplain mussel Velesunio ambiguus) across a range of temperatures by simulating river drying events in laboratory conditions. Freshwater mussels were buried in sediment heated to 29, 32, 35, 38 and 41°C. Lethal times and lethal temperatures at which 50% mortality occurred were used to infer species-specific tolerances. The lethal time for 50% of mussels to reach mortality at 29°C was shorter for A. jacksoni (14 days) than V. ambiguus (58 days) but did not differ markedly at higher temperatures. Lethal temperatures were also similar between species over short durations (e.g. 39–40°C at 1 day). Our results suggest that the difference in desiccation tolerance between species diminishes toward their upper thermal limit. Management interventions aimed at reducing sediment temperatures, such as providing shade via riparian vegetation and wetting from environmental flows, could help alleviate the impact of drying events and climate change on both freshwater mussel species. [ABSTRACT FROM AUTHOR]

Published

2024

39. Integrated Biomarker Response of Oxidative Stress Parameters in the Digestive Glands and Gills of Autochthonous and Invasive Freshwater Mussels from the Sava River, Serbia.

Author

Borković-Mitić, Slavica, Mitić, Bojan, Vranković, Jelena S., Jovičić, Katarina, and Pavlović, Slađan

Subjects

GLUTATHIONE reductase, FRESHWATER mussels, PRINCIPAL components analysis, OXIDATIVE stress, SUPEROXIDE dismutase, GLUTATHIONE transferase, GLUTATHIONE peroxidase, VITAMIN E

Abstract

In this study, the activity of oxidative stress parameters superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GSH-Px), glutathione reductase (GR), and glutathione S-transferase (GST), as well as the concentrations of vitamin E (Vit E) and SH groups in the digestive glands and gills of freshwater mussels Unio pictorum and Sinanodonta woodiana from the Sava River in Serbia were investigated. These parameters were determined in native and invasive mussels under the same environmental conditions. The activities of GSH-Px and GR and the concentration of Vit E were significantly higher in the digestive glands of the autochthonous species U. pictorum than in the invasive species S. woodiana, while the CAT activity and the concentration of SH groups were lower. In the gills of U. pictorum, GSH-Px activity and Vit E concentration were significantly higher, while CAT, GST, and SH groups were lower. Principal component analysis (PCA) showed that oxidative stress parameters were strictly tissue- and species-specific. In addition, integrated biomarker response (IBR) showed a combined response of enzymatic and non-enzymatic oxidative stress parameters depending on the tissue or species studied, indicating different metabolic activities and behaviors of an autochthonous versus an introduced bivalve species. [ABSTRACT FROM AUTHOR]

Published

2024

40. Impact of κ-Carrageenan on the Freshwater Mussel (Solenaia oleivora) Protein Emulsion Gels: Gel Formation, Stability, and Curcumin Delivery.

Author

Chen, Wanwen, Jin, Wu, Ma, Xueyan, Wen, Haibo, Xu, Gangchun, Xu, Pao, and Cheng, Hao

Subjects

FRESHWATER mussels, NUTRITIONAL value, EMULSIONS, FUNCTIONAL foods, POLYPHENOLS

Abstract

Protein-based emulsion gels are an ideal delivery system due to their unique structure, remarkable encapsulation efficiency, and tunable digestive behavior. Freshwater mussel (Solenaia oleivora) protein isolate (SoPI), an emerging sustainable protein with high nutritional value, possesses unique value in the development of functional foods. Herein, composite emulsion gels were fabricated with SoPI and κ-carrageenan (κ-CG) for the delivery of curcumin. SoPI/κ-CG stabilized emulsions possessed a high encapsulation efficiency of curcumin with a value of around 95%. The addition of κ-CG above 0.50% facilitated the emulsion gel formation and significantly improved the gel strength with 1326 g. Furthermore, the storage and digestive stability of curcumin were significantly improved as the κ-CG concentration increased. At 1.50% κ-CG, around 80% and 90% curcumin remained after 21-day storage at 45 °C and the 6 h in vitro gastrointestinal digestion, respectively. The addition of 0.50% κ-CG obtained the highest bioaccessibility of curcumin (~60%). This study illustrated the potential of SoPI emulsion gels as a carrier for stabilizing and delivering hydrophobic polyphenols. [ABSTRACT FROM AUTHOR]

Published

2024

41. Gut evacuation rate as a tool for revealing feeding patterns in the invasive round goby (Neogobius melanostomus) under different feeding modes, food types and temperatures.

Author

Szydłowska, Natalia Z., Let, Marek, Franta, Pavel, Buřič, Miloš, Worischka, Susanne, Richter, Luise, and Drozd, Bořek

Subjects

NEOGOBIUS, INTRODUCED species, PREY availability, FRESHWATER mussels, GOBIIDAE, AMPHIPODA

Abstract

The round goby (Neogobius melanostomus) is a well-known invasive fish. Knowledge of its feeding habits and means of food processing is key in understanding its impact on aquatic food webs. The present study assessed the gut evacuation rate of round gobies feeding on three different types of prey occurring naturally in the diet of this species (small native freshwater clams, an invasive amphipod and chironomid larvae), at two different temperatures (14 and 20 °C) and under different food availability scenarios (continuous and non-continuous feeding). Gut evacuation rates varied significantly between the prey availability scenarios and, specifically, round gobies processed prey significantly faster in the continuous feeding mode when food was regularly available than when fed only once. The highest evacuation rates were detected for individuals fed with clams, in which complete gut clearance was observed within 16 h, compared to within 24 h and 36 h for chironomid larvae and amphipods, respectively. Our study shows that round gobies evacuate chironomid and mollusc prey most rapidly, which suggests that potentially the highest predatory pressure will be exerted on these prey types, assuming that all three prey species are locally present. The slower processing and digestion of amphipods may be due to their bulkier shape, which makes them more difficult to swallow. The relatively high evacuation efficiency of the round goby observed in the continuous feeding mode suggests overall increased pressure on food resources, thereby potentially reducing availability for other consumers and accelerating resource depletion, mainly driven by the high local densities of the round goby populations. [ABSTRACT FROM AUTHOR]

Published

2024

42. An Update on the Conservation Status Assessment of two Endangered Freshwater Mussel Species in Bavaria, Germany.

Author

Dobler, Andreas H., Hoos, Philipp, and Geist, Juergen

Subjects

WILDLIFE conservation, RIVER channels, FISHERY management, FRESHWATER mussels, FISHING tackle

Abstract

The two highly endangered European mussel species Margaritifera margaritifera and Unio crassus are target species of conservation. Based on a recently completed systematic state‐wide monitoring of each 22 M. margaritifera and 22 U. crassus streams in Bavaria, Germany, we present an update on population trends, conservation status, habitat quality and threats for both species. Populations status and habitat quality varied strongly between M. margaritifera and U. crassus streams, but there was also great variability within each of those groups. The population decline of M. margaritifera has continued, albeit higher proportions of juveniles originating from artificial breeding programmes have been established in some streams. Habitat quality often did not match known requirements as evident from poor stream bed quality, lack of hosts and elevated nutrient levels. In contrast, U. crassus populations showed a better status, with an increase in population size over all sampled streams. Successful recruitment was indicated by high proportions of juveniles. However, no mussels older than 16 years were found, probably due to predation and structural stream maintenance measures. Climate change effects, such as extreme droughts, affected both species. This study demonstrates different needs in conservation management for both species. Although mitigation of drought effects is commonly needed for both species, tackling host fish management and direct threats such as predation should be prioritized in U. crassus, whereas restoration of prime habitat quality and intact catchments is key to enable natural recruitment and sustainable populations of M. margaritifera. [ABSTRACT FROM AUTHOR]

Published

2024

43. Habitat engineering effects of freshwater mussels in rivers vary across spatial scales.

Author

DuBose, Traci P., Vaughn, Caryn C., Hopper, Garrett W., Gido, Keith B., and Parr, Thomas B.

Subjects

*FRESHWATER mussels, *FIELD research, *MUSSELS, *ENGINEERS, *HABITATS, *ECOSYSTEMS

Abstract

Ecosystem engineers alter habitat and resource availability within ecosystems, but the magnitude of these effects depends on abiotic context and spatial scale. We examined how the effects of freshwater mussels, an ecosystem engineer, changed with spatial scale. We combined a field enclosure experiment and comparative field study to evaluate associations among mussels and macroinvertebrate communities across three spatial scales: mussel individuals (~ 0.01 m2), patches of mussels (0.25 m2), and large aggregations of many mussel patches (mussel beds, ~ 1000 m2). We used canonical correspondence analysis and variation partitioning to evaluate how mussel abundance, food availability, substrate heterogeneity, and flow influenced macroinvertebrate communities. We found that mussels' influence on macroinvertebrate communities differed among spatial scales. At the smallest scale, macroinvertebrate density increased on the shells of live mussels, likely due to mussel influences on food availability to grazers. At the patch scale, we found no mussel effects, likely because they were overridden by a flood event. At the mussel bed scale, macroinvertebrate communities were primarily controlled by flow and secondarily by food availability. As such, the continued loss of freshwater mussels means the loss of habitat creation and food provisioning for other aquatic groups, and alteration of facilitation landscapes within streams. [ABSTRACT FROM AUTHOR]

Published

2024

44. Comparison of three unionid mussel species in removing green microalgae grown in recirculating aquaculture system effluent.

Author

Julkunen, Ville, Stevčić, Čedomir, Pirhonen, Juhani, and Pulkkinen, Katja

Subjects

*MUSSELS, *MICROALGAE, *AQUACULTURE, *FRESHWATER mussels, *SPECIES

Abstract

Global increase in aquaculture production has created a need to reduce its environmental impacts. Nutrients could be recycled especially at land-based recirculating aquaculture systems (RAS) by cultivating green microalgae in aquaculture effluent. However, microalgae are difficult to harvest. As a multi-trophic solution, mussels could be used in harvesting microalgae. We tested three European freshwater mussels (duck mussel Anodonta anatina, swan mussel A. cygnea, and swollen river mussel Unio tumidus) for filtering two common green microalgae (Monoraphidium griffithii and Selenastrum sp.) grown in RAS effluent. Mussels decreased microalgal concentrations in the tanks 42–83% over three consecutive trials. Algal concentrations at the end of each trial were lowest for both microalgae in tanks containing Anodonta mussels. Clearance rates were higher for Anodonta mussels than for U. tumidus. Mussels biodeposited more microalgae to tank bottoms when M. griffithii was filtered. Ammonium concentration decreased or did not change in tanks with M. griffithii, but increased in tanks containing Selenastrum sp. These results suggest that of the tested species Anodonta mussels and M. griffithii show best potential for RAS effluent bioremediation application. We conclude that a co-culture of microalgae and unionid mussels could be used for recycling nutrients in aquaculture. [ABSTRACT FROM AUTHOR]

Published

2024

45. Surviving global change: a review of the impacts of drought and dewatering on freshwater mussels.

Author

Cushway, Kiara C., Geist, Juergen, and Schwalb, Astrid N.

Subjects

*PHYSIOLOGICAL effects of temperature, *FRESHWATER mussels, *GLOBAL temperature changes, *FRESHWATER biodiversity, *HEAT waves (Meteorology)

Abstract

ABSTRACT The increase in the frequency and intensity of droughts and heatwaves caused by climate change poses a major threat to biodiversity. In aquatic systems, sedentary species such as freshwater mussels are generally considered more vulnerable to changes in habitat conditions than mobile species such as fish. As mussels provide important ecosystem services, understanding the impacts of drought on freshwater mussels is of particular importance for the management of overall functioning of aquatic ecosystems. We used a comprehensive literature search to provide a systematic overview of direct and indirect effects of drought on freshwater mussels (Bivalvia: Unionida) and an evaluation of mitigation strategies. We found that drought studies were concentrated mostly in the USA, with a focus on the Unionidae family. Topics ranged from the physiological effects of high temperatures, emersion, and hypoxia/anoxia to behavioural and reproductive consequences of drought and the implications for biotic interactions and ecosystem services. Studies spanned all levels of biological organization, from individual responses to population‐ and community‐level impacts and ecosystem‐wide effects. We identified several knowledge gaps, including a paucity of trait‐based evaluation of drought consequences, limited understanding of thermal and desiccation tolerance at the species level, and the synergistic effects of multiple drought stressors on mussels. Although we found many studies provided suggestions concerning management of populations, habitat conditions, and anthropogenic water use, a systematic approach and testing of recommended mitigation strategies is largely lacking, creating challenges for managers aiming to conserve freshwater mussel communities and populations in light of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

46. Evaluation of survivorship and annulus validation in calcein-stained freshwater unionid mussels.

Author

Eismont, Anna L., deMoulpied, Michael, Robertson, Clinton R., Lopez, Roel R., and Randklev, Charles R.

Subjects

*FRESHWATER mussels, *ULTRAVIOLET radiation, *MUSSELS, *CHELATES

Abstract

Unionid mussels deposit growth rings (annuli) within the shell, which can be used to estimate age and growth. Thin-sectioning is a common technique for counting annuli, wherein a cross-section of a shell valve is taken and evaluated by multiple readers. Correctly identifying annuli can be challenging because ambiguous annuli can bias growth estimates. Staining with calcein, a fluorescent chemical, is a technique that has been used with marine and freshwater species to improve accuracy of growth estimates. This method chelates calcium, causing a permanent mark that fluoresces under ultraviolet light. Calcein has seen limited testing on unionid mussels so it remains unclear if this method has adverse effects on survival and growth. We evaluated calcein against 2 concentrations (125 mg L−1 and 250 mg L−1) at 2 exposure times (12 and 24 h) on Cyclonaias pustulosa, a common North American unionid. Survivorship remained above 80% 6 months post-immersion. Mark quality and retention for 250 mg L−1 were high for both 12- and 24-h immersions, although historical annuli were not highlighted. These findings corroborate studies indicating calcein immersion is generally safe and effective in juveniles and adults and suggest it may be useful in validating new growth. [ABSTRACT FROM AUTHOR]

Published

2024

47. Optimizing nutrient utilization, hydraulic loading rate, and feed conversion ratios through freshwater IMTA-aquaponic and hydroponic systems as an environmentally sustainable aquaculture concept.

Author

Goda, Ashraf M. A.-S., Aboseif, Ahmed M., Taha, Mostafa K. S., Mohammady, Eman Y., Aboushabana, Nevine M., Nazmi, Hani M., Zaher, Marwa M., Aly, Hadir A., El-Okaby, Mohamed A. S., Otazua, Nora Ibáñez, and Ashour, Mohamed

Subjects

*AQUAPONICS, *SUSTAINABLE aquaculture, *HYDROPONICS, *GRAY mullets, *FISH farming, *NILE tilapia, *AQUATIC animals, *PONDS

Abstract

Water quality in land-based fish production can be controlled through either instantaneous water exchange or costly wastewater treatment followed by recirculation. Agricultural-aquaculture integration is an excellent alternative technique for reducing nutrient discharge levels, boosting profitability, and converting fish culture wastewater into valuable products. The current study employed a solar energy system to power two separate IMTA-aquaponics systems (Nutrient Film Technique, NFT, and Floating Raft Systems, FRS) for the cultivation of Nile tilapia, African catfish, thin-lipped grey mullet, freshwater crayfish, freshwater mussels, and a variety of vegetables. Tilapia and catfish were fed exclusively on diets under the IMTA system. All wastewater from tilapia and catfish ponds, both dissolved and solid, flows sequentially to ponds containing other cultivated species. The water then flows through the IMTA system's terminal point to the NFT and FRS systems before returning to the tilapia and catfish ponds, allowing complete control of the nutrient flow throughout this entire circular system. Two 147-day production cycles were concluded. The results from the second production cycle are reported. Total biomass gain for aquatic species in the IMTA system was 736.46 kg, compared to 145.49 kg in the tilapia and 271.01 kg in the catfish monoculture systems. The current IMTA system had a cumulative feed conversion ratio (FCR) of 0.90, while the FCRs for tilapia and catfish were 1.28 and 1.42, respectively. Nile tilapia and catfish consumed 571.90 kg of feed containing 25.70 kg of nitrogen (N) and 9.70 kg of phosphorus (P), reflecting, and gaining 11.41 and 3.93 kg of dietary N and P, representing 44.40 and 40.46% dietary N and P retention, respectively. In the IMTA system, the addition of mullet and prawn as detrivores aquatic animals improves dietary N and P utilization efficiency to 59.06 and 51.19%, respectively, while the addition of mussels as herbivore animals improves dietary N and P utilization efficiency to 65.61 and 54.67%, respectively. Finally, using FRS and NFT as hydroponic systems increased dietary N and P efficiency to 83.51% N and 96.82% P, respectively. This study shows that the IMTA-Aquaponic system, as a bio-integrated food production system, can convert the majority of fish-fed residues into valuable products suitable for desert, rural, and urban areas in impoverished and developing countries. [ABSTRACT FROM AUTHOR]

Published

2024

48. Addition to the known diversity of Chinese freshwater mussels: integrative description of a new species of Postolata Dai et al., 2023 (Bivalvia, Unionidae, Gonideinae).

Author

Liu, Lili, Zhang, Liping, Hou, Kaiyu, Ning, Liyang, and Wu, Ruiwen

Subjects

*BIOLOGICAL classification, *FRESHWATER mussels, *UNIONIDAE, *PHYLOGENY, *MOTHER-of-pearl

Abstract

In this study, we present a new species of freshwater mussel in the genus PostolataDai et al., 2023, from Guangxi Province, China, by integrating morphological, anatomical, and molecular data. Postolata longjiangensis Liu & Wu, sp. nov. is distinguished from its congener (i.e., Postolata guangxiensis) by its shell shape, beak position, surface sculpture, nacre color, and hinge structure. Molecular species delimitation results based on the mitochondrial COI gene support the separation of Postolata longjiangensis Liu & Wu, sp. nov. from its congener. The multi-locus (COI + 16S rRNA + 28S rRNA) phylogeny reveals that this species forms the sister lineage to Postolata guangxiensis in the tribe Gonideini. [ABSTRACT FROM AUTHOR]

Published

2024

49. Updated Distribution for Two Freshwater Mussel Species of Conservation Concern in Oklahoma.

Author

Torolski, Hunter M., Long, James M., Lonsinger, Robert C., and Bruckerhoff, Lindsey A.

Subjects

*WILDLIFE conservation, *FRESHWATER mussels, *DEMOGRAPHIC change, *MUSSELS, *SPECIES

Abstract

Qualitative and quantitative sampling efforts in the Verdigris River, OK (upstream of Lake Oologah), yielded new distributional records of 2 freshwater mussel species of conservation need: Cyprogenia aberti (Western Fanshell) and Ptychobranchus occidentalis (Ouachita Kidneyshell). The Ouachita Kidneyshell has not been documented alive during a scientific survey in the Oklahoma portion of the Verdigris River in nearly 100 years. Our observations extend the known distribution for the Western Fanshell further downstream into Oklahoma by ∼36 river km. These findings indicate an expansion in the known range and potential improvement in the populations of 2 imperiled mussel species, contrary to the prevailing global trend of mussel population decline. [ABSTRACT FROM AUTHOR]

Published

2024

50. Population genomics of the endangered freshwater mussel, Arcidens wheeleri (Unionoidea: Unionidae: Anodontini), in the Little River, Arkansas, USA.

Author

Adcock, Mia C, Moles, Kendall R, Garrison, Nicole L, Donohoo, Samantha A, and Whelan, Nathan V

Subjects

*FRESHWATER mussels, *POPULATION genetics, *GENETIC variation, *HABITAT conservation, *ENDANGERED species

Abstract

North America is a hotspot of freshwater mussel diversity. However, over the last century, many anthropogenic stressors have led to substantial declines in freshwater mussels of the families Unionidae and Margaritiferidae in North America. Conserving the remaining mussel fauna is a priority, as they play an integral role in freshwater ecosystems. The Little River in Arkansas is home to one of the last remaining populations of the federally endangered freshwater mussel, Arcidens wheeleri (Unionidae: Anodontini). Population dynamics information is lacking for A. wheeleri , and no population genetics study has been conducted on this species. A greater understanding of the genetic diversity within a population can serve as a benchmark for developing an effective management plan. We sampled A. wheeleri from three locations in the Little River. Genomic data were generated with a single-enzyme restriction-site-associated DNA sequencing approach to assess genetic diversity and structure of A. wheeleri in the Little River. Genetic structure analyses indicated one genetic population among the three locations, with limited, fine-scale subpopulation structure. Observed heterozygosity values were considerably lower than expected heterozygosity values, with H o = 0.14 and H e = 0.22, likely indicating a genetic bottleneck. Demographic analysis of the Little River population of A. wheeleri also suggests a historical bottleneck. Furthermore, a high inbreeding coefficient (F IS = 0.33) indicates A. wheeleri in the Little River is losing genetic diversity. Data generated indicate considerable risk of extirpation for A. wheeleri from the Little River and should serve as a baseline for future monitoring. Given its high risk of extinction, we recommend increased study of A. wheeleri across its range and on-the-ground conservation actions that include habitat protection and restoration, which are the only options until a successful host fish and protocols are identified for propagation. [ABSTRACT FROM AUTHOR]

Published

2024