Your search keyword '"freshwater mussels"' showing total 3,930 results

401. Freshwater mussel burrow position and its relation to streambed roughness.

Author

Sansom, Brandon J., Bennett, Sean J., and Atkinson, Joseph F.

Subjects

*FRESHWATER mussels, *ALLEE effect, *RIVER sediments, *SEDIMENT control, *CONSERVATION & restoration, *RIVER channels, *MUSSELS, *FORAMINIFERA

Abstract

Freshwater mussels live partially or fully buried in river sediments, and burrowing by mussels causes bioturbation, increases benthic complexity, provides niche partitioning among other mussel species, and may reduce the chance of mussel dislodgment during high flows. However, there remains a need to better understand what influences the burrow position of mussels and how burrow position modifies physical and hydraulic habitat. In this study, we examined how mussel burrow position varied across species in 2 gravel-bedded rivers in the northeastern USA and how burrow position modified benthic habitat. We quantified the amount of benthic habitat mussels contributed to the riverbed and determined the contribution of burrow position to bed roughness and near-bed flow patterns. We found that burrow position varied by species, which was likely influenced by shell morphology, sculpture type, and river characteristics. We observed that the amount of shell exposed into the water column was similar to the coarse-sized sediment where mussels were found. We also found that mussel shells were exposed at a height greater than the median grain size and could, therefore, influence near-bed flows. Moreover, because larger grain sizes control sediment stability, the similar exposed length of burrowed mussels as coarse sediment could contribute to enhanced bed stability and reduce the risk of dislodgement. Better understanding of how mussel burrow position influences these important biophysical processes may help identify important Allee effects or minimum viable population indices, which may aid conservation and restoration efforts. [ABSTRACT FROM AUTHOR]

Published

2022

402. Safety and efficacy of dietary freshwater clam (Corbicula fluminea) extract in clinical research.

Author

Takao Shimazoe, Daisuke Kobayashi, Takehiro Kawashiri, Takeshi Chijimatsu, Miki Umeki, and Satoshi Mochizuki

Subjects

FRESHWATER mussels, CORBICULA fluminea, MEDICAL research, ASPARTATE aminotransferase, SLEEP quality, RANDOMIZED controlled trials, GAMMA-glutamyltransferase, CHOLESTEROL metabolism

Abstract

Background: The freshwater clam (Corbicula spp.) is a popular edible bivalve mollusk that is commonly eaten in East Asia. Freshwater clam extract (FCE) is known to have various effects. For example, it has anti-inflammatory effects and improves cholesterol metabolism. Often used as a folk remedy, FCE might be effective against liver disease and at ameliorating liver damage. These results indicate that FCE has preventative or ameliorating effects against steatosis and mild chronic liver damage. Additionally, FCE has a documented neuroprotective effect, potentially improving sleep quality. However, no clinical research into these topic areas have been carried out. Objective: No clinical research has been carried out concerning the action of FCE on liver function. In this study, we conducted a clinical trial involving healthy volunteers with relatively high liver test values to determine the influence of FCE on hepatic function. Moreover, no previous studies have described the effects of FCE on sleep. Thus, we also assessed sleep quality after FCE intake using the Oguri-Shirakawa-Azumi (OSA) sleep inventory middle-aged and aged (MA) version and a Likert scale in a randomized controlled clinical trial. Methods: We performed a prospective randomized controlled trial to assess safety and the effects of freshwater clam extract. Thirty-four volunteers were analyzed. The subjects ingested 2 placebo softgels, 2 FCE-containing softgels, or 10 FCE-containing softgels. We tried to clarify 2 issues, safety in the liver and quality of sleep. An assessment of the safety of long-term and excessive FCE intake, especially its actions on hepatic function, was performed by administering 10 FCE-containing softgels (5 times the normal dose) to the subjects in the high FCE dose group for 18 weeks. A sleep evaluation comparing the placebo and normal FCE dose groups was also conducted. We conducted a double-blind parallel clinical trial to evaluate the effects of FCE on sleep quality over 12 weeks. The subjects were assigned to 3 groups (the placebo group, the normal FCE dose group, and the high FCE dose group). Results: Significant reductions in the levels of aspartate aminotransferase (AST), alanine aminotransferase (ALT), and γ-glutamyl transpeptidase (γ-GTP) were observed at 12 and 18 weeks after the consumption of a high dose of FCE capsules. The subjects’ ferritin levels were significantly reduced after 18 weeks’ high-dose FCE intake. Moreover, the consumption of two FCE softgels (normal dose) for 12 weeks resulted in significant better quality in terms of both sleep onset and maintenance compared with that seen after the placebo treatment. FCE intake also resulted in a longer sleep duration than the placebo treatment. The same dose of FCE tended to reduce subjective fatigue. These results suggest that FCE is a safe supplemental food and increases sleep quality. Conclusions: These results suggest that FCE is a safe supplemental food and increases sleep quality. [ABSTRACT FROM AUTHOR]

Published

2022

403. Drivers of ecosystem vulnerability to Corbicula invasions in southeastern North America.

Author

Ferreira-Rodríguez, Noé, Gangloff, Michael, Shafer, Gregory, and Atkinson, Carla L.

Abstract

Invasive species introduction is one of the major ongoing ecological global crises. Identifying factors responsible for the success of invasive species is key for the implementation of effective management actions. The invasive filter-feeding bivalve, Corbicula, is of particular interest because it has become ubiquitous in many river basins across North America and elsewhere. Here we sampled bivalve assemblages, environmental indicators, and land cover parameters in the Ouachita highlands in southeastern Oklahoma and southwestern Arkansas, and in the Gulf Coastal Plain of Alabama to test three working models (using structural equation modeling, SEM) based on a priori scientific knowledge regarding Corbicula invasions. Our models tested three competing hypotheses: (1) Native mussel declines are related to land use changes at the watershed level and subsequent Corbicula colonization is a result of an empty niche; (2) Corbicula abundance is one of the factors responsible for native mussel declines and has an interactive effect with land use change at the watershed level; (3) Native mussel declines and Corbicula success are both related to land use changes at the watershed level. We found no evidence for the first two hypotheses. However, we found that environmental indicators and land cover parameters at the watershed scale were robust predictors of Corbicula abundance. In particular, agricultural land cover was positively related with Corbicula density. These results suggest that further improvement of conventional agricultural practices including the optimization of fertilizer delivery systems may represent an opportunity to manage this species by limiting nutrient inputs to stream ecosystems. Preservation of extensive floodplain habitats may help buffer these inputs by providing key ecosystem services including sediment and nutrient retention. [ABSTRACT FROM AUTHOR]

Published

2022

404. Distribution and potential impacts of non-native Chinese pond mussels Sinanodonta woodiana (Lea, 1834) in Bavaria, Germany.

Author

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

Abstract

The Chinese pond mussel, Sinanodonta woodiana, is non-native to European freshwater systems. Originating from Asia, it was brought to Europe in the 1970s and is now spreading across many countries. Management of the species is currently limited by a lack of information on the actual distribution and population characterisation of S. woodiana as well as on the co-occurrence of native mussels potentially resulting in competition. For this paper, we examined nine water systems in the German federal state of Bavaria with randomly observed and anecdotally reported S. woodiana occurrences. We recorded the density and biomass of S. woodiana and of the co-existing mussel species as well as the habitat characteristics. We found S. woodiana in eight water systems, co-existing with other native and invasive mussel species in seven of them. The distribution of S. woodiana was geographically widespread throughout Bavaria, indicating great invasion potential. In one fish pond, S. woodiana was the only mussel species occurring with the highest mean biomass (1286.0 ± 1067.7 g m−2) and with the biggest specimen (25.0 cm and 1616.0 g). The wide range of habitat variables matched the expectation of a wide ecological niche for the species. This study provides evidence that S. woodiana has already become established in many water systems in Bavaria, with fish ponds and fisheries management practises being a likely vector. To counteract this species and to conserve native mussel species, it is important to implement effective legislation, to take measures to eradicate this invasive mussel transnationally, and to raise public awareness. [ABSTRACT FROM AUTHOR]

Published

2022

405. The distribution and spread of quagga mussels in perialpine lakes north of the Alps.

Author

Haltiner, Linda, Hui Zhang, Anneville, Orlane, De Ventura, Lukas, DeWeber, J. Tyrell, Hesselschwerdt, John, Koss, Michael, Rasconi, Serena, Rothhaupt, Karl-Otto, Schick, Roland, Schmidt, Brigitte, Spaak, Piet, Teiber-Siessegger, Petra, Wessels, Martin, Zeh, Markus, and Dennis, Stuart R.

Subjects

ZEBRA mussel, COLONIZATION (Ecology), LAKES, FRESHWATER mussels, FOOD chains, MUSSELS, ECOSYSTEMS, LITTORAL zone

Abstract

The dreissenids, quagga mussel Dreissena bugensis and zebra mussel D. polymorpha, are invasive freshwater mussels in Europe and North America. These species strongly impact aquatic ecosystems, such as the food web through their high abundance and filtration rate. They spread quickly within and between waterbodies, and have the ability to colonize various substrates and depths. The zebra mussel invaded and established in Swiss lakes in the 1960s, whereas the quagga mussel was not detected until 2014. We collected all available data from cantonal as well as local authorities and other institutions to describe the colonization pattern of quagga mussels in perialpine lakes north of the Alps. We also collected data regarding the distribution of larval stages of the mussels, the so-called veliger larvae. We observed that in lakes colonized by the quagga mussel, veligers are present the whole year round, whereas they are absent in winter in lakes with only zebra mussels. Additionally, we present detailed information about the invasion and colonization pattern of quagga mussels in Lake Constance. Quagga mussels colonized the lakeshore within a few years (~ 2016-2018), outcompeted zebra mussels, and have reached densities > 5000 ind. m-2 in the littoral zone, even at 80 m densities above 1000 ind. m-2 were found at some locations. At the end of the article, we discussed possibilities on how the spread of quagga mussels within and among northern perialpine lakes should be monitored and prevented in the future. [ABSTRACT FROM AUTHOR]

Published

2022

406. 河"汤中纳米颗粒作用于大鼠口腔巨噬细胞的研究.

Author

汪惠勤, 徐天豪, 高观祯, 柯李晶, 丁亚男, 周静茹, 丁 伟, 张溯云, 周建武, and 饶平凡

Subjects

FRESHWATER mussels, ALIMENTARY canal, BIOLOGICAL transport, MEMBRANE potential, HUMAN body, CELL membranes

Abstract

Copyright of Journal of Chinese Institute of Food Science & Technology / Zhongguo Shipin Xuebao is the property of Journal of Chinese Institute of Food Science & Technology Periodical Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

407. Follow the Footsteps of Leonardo Fea: An Example of an Integrative Revision of Freshwater Mussel Taxa Described from the Former British Burma (Myanmar).

Author

Bolotov, Ivan N., Konopleva, Ekaterina S., Vikhrev, Ilya V., Win, Than, Lunn, Zau, Chan, Nyein, Gofarov, Mikhail Yu, Kondakov, Alexander V., Tomilova, Alena A., Pasupuleti, Rajeev, and Subba Rao, Nalluri V.

Subjects

*FRESHWATER mussels, *ZOOLOGICAL surveys, *FOOTSTEPS, *DNA sequencing, *UNIONIDAE

Abstract

Leonardo Fea, an Italian explorer and traveler, sampled a comprehensive collection of continental Mollusca during his travels throughout the former British Burma (currently Myanmar) in 1885-1887. Cesare Maria Tapparone-Canefri, an Italian malacologist, studied this sample and published a paper with a description of numerous terrestrial and freshwater molluscan taxa new to science. This collection was partly deposited in the Museo Civico di Storia Naturale di Genova (MSNG), Italy and the Indian Museum (ZSI: Zoological Survey of India) in Kolkata. Here, we provide a re-analysis of C.M. Tapparone-Canefri's Burmese Unionidae collection. Our study reveals that the type series of only four nominal taxa described by Tapparone-Canefri as new to science in 1889 are still available in the MSNG, i.e. Unio rectangularis, U. pulcher, U. protensus var. obtusatus, and U. marginalis var. subflabellata. The first taxon is a valid species belonging to the genus Yaukthwa, while U. pulcher and U. protensus var. obtusatus are considered here as junior synonyms of the widespread Lamellidens generosus, and the last nominal taxon corresponds to L. savadiensis. The MSNG collection also contains shell lots of Indochinella pugio pugio, I. pugio paradoxa, Indonaia andersoniana, Radiatula chaudhurii, R. mouhoti haungthayawensis, Lamellidens savadiensis, L. generosus, Yaukthwa nesemanni, and Y. zayleymanensis, most of which were listed in Tapparone-Canefri's work under incorrect names. We revise all the freshwater mussel taxa listed by Tapparone-Canefri based on the original descriptions, available DNA sequences, morphological data, and biogeographic evidence. A freshwater mussel from the Haungthayaw River that was identified by Tapparone-Canefri as Unio exolescens is described here as Trapezoideus mitanensis sp. nov., a fourth species in this small Contradentini genus with a restricted range. Finally, new taxonomic opinions are proposed here for Leoparreysia tavoyensis, Trapezidens dolichorhynchus, Lamellidens generosus, and Lamellidens savadiensis. [ABSTRACT FROM AUTHOR]

Published

2022

408. Species richness of mussel assemblages and trait guilds in relation to environment and fish diversity in streams of Illinois, the USA.

Author

Cao, Yong, Hinz, Leon, Taylor, Christopher A., Metzke, Brian, and Cummings, Kevin S.

Subjects

*FISH diversity, *FRESHWATER fishes, *FRESHWATER mussels, *GUILDS, *HOST-parasite relationships, *MUSSELS, *PERNA

Abstract

Fish hosts are critical for freshwater mussels. However, correlation between mussel and fish species richness (SR) is variable. Here, we examine how the environment affects this variability. We calculated mussel–fish SR ratios for 459 stream sites to capture the different responses of mussel and fish SR to environmental variables. We used Random-Forests (RF) to model how the SR ratio varied with environmental gradients. We also modeled the percent SR of mussel guilds with different hosting and life-history strategies. The SR ratio was generally low, but highly variable across sites. The ratio variability strongly affected mussel-fish SR correlations and can be explained by environmental factors. Given that environmental gradients also differ among datasets or regions, mussel-fish SR correlation can be expected to vary. The responses of the SR of mussel guilds agree with the expectations. However, land-use and climate co-vary with other environmental variables, and their effects are difficult to assess. We conclude that mussel and fish respond differently to many environmental variables; the importance of fish SR to mussel SR may vary with the environmental settings of streams but often appears to be low. Thus, environmental data may be generally sufficient for mussel-SR modelling and mussel diversity conservation planning. [ABSTRACT FROM AUTHOR]

Published

2022

409. Sensitivity of newly transformed juveniles of the freshwater pearl mussel: Margaritifera margaritifera to acute toxicity of a wide range of contaminants.

Author

Belamy, Tiare, Baudrimont, Magalie, Cordier, Marie-Ange, Dassie, Émilie, Gourves, Pierre-Yves, and Legeay, Alexia

Subjects

*FRESHWATER mussels, *ACUTE toxicity testing, *POLLUTANTS, *WILDLIFE conservation, *TOXICITY testing, *ARSENIC compounds

Abstract

The freshwater pearl mussel (FWPM) Margaritifera margaritifera is a bivalve mollusk critically endangered in Europe. There is a special concern about the conservation of this species, but little is known about its sensitivity to environmental pollution. Here, acute toxicity tests were conducted at 16°C according to a standard guide for conducting toxicity tests on freshwater mussels (ASTM international E2455), in order to assess toxicity thresholds for arsenic (As), aluminum (Al), cadmium (Cd), copper (Cu), nickel (Ni), nitrates (NO3−), and orthophosphates (PO43−) on newly transformed juveniles of M. margaritifera. The comparison with toxicity data for other newly transformed freshwater mussel juveniles from the same family and superfamily, Margaritiferidae and Unionidae, showed that FWPM juveniles were the most sensitive species to NO3−, among the most sensitive species to Ni, the least sensitive species to Cd, and showed an intermediate sensitivity to Cu compared to other freshwater mussels. This study is the first to provide toxicity thresholds for several pollutants on newly transformed juveniles of the FWPM. This brings new knowledge on its sensitivity to environmental pollution that could be helpful data for conservation strategies and these findings represent the first window for further complex studies. [ABSTRACT FROM AUTHOR]

Published

2022

410. Riparian land-use and in-stream habitat predict the distribution of a critically endangered freshwater mussel.

Author

Pandolfi, Gary S., Mays, Jason W., and Gangloff, Michael M.

Subjects

*FRESHWATER mussels, *RIPARIAN areas, *RIPARIAN restoration, *HUMAN growth, *HABITATS, *BIOTIC communities, *URBAN growth

Abstract

Recent human population growth in North America's southern Appalachian Mountains has raised concerns about the effects of ex-urban development on its streams and their at-risk biota. The few studies to examine effects of land-use change in this region found that many headwater species require well-forested watersheds. Alasmidonta raveneliana is endemic to montane streams in North Carolina and Tennessee and during the past 20 years populations have declined alarmingly in several former strongholds. In 2015, we conducted surveys for A. raveneliana and quantified in-stream habitat and land-use at 25 current or historically occupied sites in the Nolichucky Drainage. We found that A. raveneliana populations were only detected at sites with well-forested watersheds and low proportions of fine substrates. Thin-sections revealed that A. raveneliana is fast-growing and short-lived (max age ~ 12 years) which may be an adaptation to unpredictable headwater streams. However, like many headwater specialists, A. raveneliana appears sensitive to changes in forest cover. Our results suggest that subtle changes in stream habitats linked to land-use change are a significant threat to the long-term survival of this species. Protection of forested headwaters and restoration of riparian zones appear to be the best strategies for conserving populations of this critically endangered freshwater mussel. [ABSTRACT FROM AUTHOR]

Published

2022

411. Predicting climatic threats to an endangered freshwater mussel in Europe: The need to account for fish hosts.

Author

da Silva, Janine P., Gonçalves, Duarte Vasconcelos, Lopes‐Lima, Manuel, Anastácio, Pedro M., Banha, Filipe, Frimpong, Emmanuel, Gama, Mafalda, Miranda, Rafael, Reis, Joaquim, Filipe, Ana Filipa, and Sousa, Ronaldo

Subjects

*FRESHWATER mussels, *BROWN trout, *ENDANGERED species, *SPECIES distribution, *FISH declines, *MUSSELS, *SALMONIDAE

Abstract

The freshwater pearl mussel Margaritifera margaritifera has been suffering major population declines in Europe. This endangered species is a host specialist and exclusively requires salmonid species (Salmo trutta and Salmo salar) to complete its life cycle. In theory, obligatory biotic interactions should deserve special conservation attention, because the loss or massive decline of fish hosts may elicit the extirpation of their affiliated species. While many threats disturbing M. margaritifera are similarly affecting salmonids, climate change is particularly alarming, with the potential to significantly change the fish‐mussel dynamics.To evaluate the importance of including the occurrence of fish hosts for predicting the distribution of M. margaritifera in Europe, three datasets were used to build species distribution models (SDMs) with a maximum entropy (MaxEnt) approach: (1) environmental variables (ENV); (2) probability of fish hosts occurrence (FH); and (3) environmental variables and probability of fish hosts occurrence (ENV + FH). We identified the environmental variables that better explain M. margaritifera distribution and modelled its current and future distribution under a suite of climate change scenarios. Furthermore, projections were used to evaluate the adequacy of current networks of European protected areas in covering the suitable habitats for M. margaritifera.Results showed that incorporating data about fish hosts into M. margaritifera SDMs avoided the overprediction of geographical projections and, to a minor extent, improved model performance (area under the curve: ENV = 0.851; FH = 0.848; ENV + FH = 0.867). The distribution range of M. margaritifera in Europe is expected to contract in all future timeframes and emission scenarios considered. Forecasts point to large contractions particularly in central and southern Europe and lowland regions. The European network of protected areas fails to protect 69% of the current and 66%–67% of the future predicted M. margaritifera distribution.This study clearly illustrates the importance of including mussel–fish hosts interactions for accurately predicting M. margaritifera's distribution. The response of M. margaritifera to environmental variables highlights its vulnerability to the higher temperatures, particularly in southern Europe. While predictions indicate large contractions in M. margaritifera's distribution as a result of future climate change, the current European network of protected areas fails to safeguard M. margaritifera.This work provides strong evidence for proposing the generalised use of biotic information about hosts in addition to purely environmental variables to model the distribution of freshwater mussels, as well as for other species with obligatory biotic interactions. Building SDMs such as those discussed here can inform political decision‐making about the likely scenarios for species occurrence in future decades, the requirements needed for an effective conservation strategy, and the regions where conservation should be a priority. [ABSTRACT FROM AUTHOR]

Published

2022

412. The endangered freshwater pearl mussel Margaritifera margaritifera shows adaptation to a local salmonid host in Finland.

Author

Taskinen, Jouni and Salonen, Jouni K.

Subjects

*FRESHWATER mussels, *FISH larvae, *ATLANTIC salmon, *FISH populations, *BROWN trout, *FISH breeding, *SALMON, *MUSSELS

Abstract

The freshwater pearl mussel Margaritifera margaritifera (FPM) is an endangered unionid which has a glochidium larva that attaches to the gills of Atlantic salmon Salmo salar or brown trout S. trutta, although some FPM populations have been shown to exclusively attach to only one of these species. The origin of host fish populations may be crucial for conservation actions for this mussel species, but the relative suitability of local (sympatric) and non‐local (allopatric) salmonid populations as the hosts for FPM has been studied only rarely. We hypothesised that FPM glochidia would show adaptation to local salmonid strains and, therefore, that they would be more successful (abundant, larger) attached to sympatric than to allopatric fish.Here, we investigated the infection success (abundance and growth of encysted larvae in fish) of FPM in local versus non‐local fish by caging different strains of brown trout and Atlantic salmon in rivers where FPM populations are present.Higher abundances of glochidia in local fish were observed in three brown trout streams, and larger glochidia were found in sympatric hosts in one brown trout stream and in one salmon river. Furthermore, non‐local allopatric fish were not better hosts than local fish in any of the FPM populations tested, neither in brown trout or salmon rivers and neither in abundance nor size of larvae. Therefore, the results supported the hypothesis that glochidia show local adaptation by being more successful when attached to local fish strains.Thus, the local, sympatric fish strain should be preferred in FPM conservation programmes that involve captive breeding of juvenile mussels and introduction of host fish, but the regional assessment of local host dependency of FPM also would be important outside the current study area.The results also indicate the importance of restoration of original salmonid populations in FPM rivers to enable the natural, effective reproduction cycle of FPM in their original, sympatric hosts, and thus to promote the recovery of endangered FPM populations. [ABSTRACT FROM AUTHOR]

Published

2022

413. Evaluation of Heat Inactivation of Human Norovirus in Freshwater Clams Using Human Intestinal Enteroids.

Author

Hayashi, Tsuyoshi, Yamaoka, Yoko, Ito, Atsushi, Kamaishi, Takashi, Sugiyama, Ryuichi, Estes, Mary K., Muramatsu, Masamichi, and Murakami, Kosuke

Subjects

*FRESHWATER mussels, *NOROVIRUSES, *FOODBORNE diseases, *INTESTINES, *HEAT treatment, *SHELLFISH

Abstract

Foodborne disease attributed to the consumption of shellfish contaminated with human norovirus (HuNoV) is one of many global health concerns. Our study aimed to determine the conditions of the heat-inactivation of HuNoV in freshwater clams (Corbicula japonica) using a recently developed HuNoV cultivation system employing stem-cell derived human intestinal enteroids (HIEs). We first measured the internal temperature of the clam tissue in a water bath during boiling at 90 °C and found that approximately 2 min are required for the tissue to reach 90 °C. Next, GII.4 HuNoV was spiked into the center of the clam tissue, followed by boiling at 90 °C for 1, 2, 3, or 4 min. The infectivity of HuNoV in the clam tissue homogenates was evaluated using HIEs. We demonstrated that HuNoV in unboiled clam tissue homogenates replicated in HIEs, whereas infectivity was lost in all boiled samples, indicating that heat treatment at 90 °C for 1 min inactivates HuNoV in freshwater clams in our current HIE culture system. To our knowledge, this is the first study to determine the thermal tolerability of HuNoV in shellfish using HIEs, and our results could be informative for developing strategies to inactivate HuNoV in shellfish. [ABSTRACT FROM AUTHOR]

Published

2022

414. Using a multi‐model ensemble approach to determine biodiversity hotspots with limited occurrence data in understudied areas: An example using freshwater mussels in México.

Author

Kiser, Alexander H., Cummings, Kevin S., Tiemann, Jeremy S., Smith, Chase H., Johnson, Nathan A., Lopez, Roel R., and Randklev, Charles R.

Subjects

*FRESHWATER mussels, *SPECIES distribution, *FRESHWATER biodiversity, *BIODIVERSITY, *WATERSHEDS

Abstract

Species distribution models (SDMs) are an increasingly important tool for conservation particularly for difficult‐to‐study locations and with understudied fauna. Our aims were to (1) use SDMs and ensemble SDMs to predict the distribution of freshwater mussels in the Pánuco River Basin in Central México; (2) determine habitat factors shaping freshwater mussel occurrence; and (3) use predicted occupancy across a range of taxa to identify freshwater mussel biodiversity hotspots to guide conservation and management. In the Pánuco River Basin, we modeled the distributions of 11 freshwater mussel species using an ensemble approach, wherein multiple SDM methodologies were combined to create a single ensemble map of predicted occupancy. A total of 621 species‐specific observations at 87 sites were used to create species‐specific ensembles. These predictive species ensembles were then combined to create local diversity hotspot maps. Precipitation during the warmest quarter, elevation, and mean temperature were consistently the most important discriminatory environmental variables among species, whereas land use had limited influence across all taxa. To the best of our knowledge, our study is the first freshwater mussel‐focused research to use an ensemble approach to determine species distribution and predict biodiversity hotspots. Our study can be used to guide not only current conservation efforts but also prioritize areas for future conservation and study. [ABSTRACT FROM AUTHOR]

Published

2022

415. 背角无齿蚌幼蚌不同组织的铜积累特征.

Author

刘凯, 陈修报, 刘洪波, 姜涛, and 杨健

Subjects

INDUCTIVELY coupled plasma mass spectrometry, TOXICITY testing, HEAVY metal toxicology, WATER pollution, FRESHWATER mussels, FOOT

Abstract

Copyright of Journal of Agro-Environment Science is the property of Journal of Agro-Environment Science Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

416. Systematics, distribution, biology, and conservation of freshwater mussels (Bivalvia: Unionida) in China.

Author

Liu, Xiongjun, Liu, Yueying, Wu, Ruiwen, Zanatta, David T., Lopes‐Lima, Manuel, Gonçalves, Duarte V., Bogan, Arthur E., Ouyang, Shan, and Wu, Xiaoping

Subjects

FRESHWATER mussels, BIVALVES, LIFE history theory, IDENTIFICATION of fishes, FRESHWATER habitats, MUSSELS, GEOLOGIC hot spots, MOLLUSKS

Abstract

Freshwater mussels (Mollusca: Bivalvia: Unionida) have a broad global distribution on every continent except Antarctica. However, owing to human activities, the diversity of freshwater mussels is seriously globally threatened. China is an important global biodiversity hotspot for this fauna.This article comprehensively reviews the 99 currently recognized species in China, collating for the first time their systematics, distribution, life‐history traits, habitat preferences, conservation status, and main threats to suggest future management actions.The review showed that the taxonomic status and species validity of many freshwater mussels are still not well resolved. The freshwater mussel diversity in the Yangtze River Basin is higher than that in other freshwater habitats in China. Life history characteristics and habitat preferences are poorly known for most species.Only half of the total number of species in China have been assessed for their conservation status. Among those assessed, around half of them are threatened with extinction with more than 10% being considered as Data Deficient.The key threats identified as potentially related to species declines are pollution, habitat loss and fragmentation, loss of access to host fishes and overharvesting of mussels or their host fishes.The review shows that there is a strong geographical bias in the amount of knowledge available for freshwater mussels, with most of the available data being concentrated in the middle and lower reaches of the Yangtze basin. Almost no data are available for these taxa north of the Yellow River basin and in the west and south‐west regions of China.To make future conservation and management more effective we suggest that efforts should be concentrated on: (i) increasing the amount of research on basic ecological and life‐history features, including growth, life‐span, reproductive cycle, host fish identification and habitat requirements of each species; (ii) establishing the interspecific and intraspecific genetic diversity patterns of Chinese freshwater mussels, to clarify their taxonomy, systematics and phylogeny, and to understand the phylogeography and population structure of each species; and (iii) urgently establishing protected areas for fish and mussels in locations of high species richness, such as Poyang Lake and Dongting Lake, and also in regions with high levels of endemism or genetic uniqueness, such as Guangxi Province, Yunnan Province and Heilongjiang Province. In addition, the need for habitat restoration and the conservation of freshwater mussels has become urgent in China, and an integrated systematic conservation and management plan should be developed and effectively implemented. [ABSTRACT FROM AUTHOR]

Published

2022

417. Environment and Co-occurring Native Mussel Species, but Not Host Genetics, Impact the Microbiome of a Freshwater Invasive Species (Corbicula fluminea).

Author

Chiarello, Marlène, Bucholz, Jamie R., McCauley, Mark, Vaughn, Stephanie N., Hopper, Garrett W., Sánchez González, Irene, Atkinson, Carla L., Lozier, Jeffrey D., and Jackson, Colin R.

Subjects

CORBICULA fluminea, INTRODUCED species, GENETICS, SPECIES, FRESHWATER mussels, MUSSELS, CLAMS, BIOLOGICAL invasions

Abstract

The Asian clam Corbicula fluminea (Family: Cyneridae) has aggressively invaded freshwater habitats worldwide, resulting in dramatic ecological changes and declines of native bivalves such as freshwater mussels (Family: Unionidae), one of the most imperiled faunal groups. Despite increases in our knowledge of invasive C. fluminea biology, little is known of how intrinsic and extrinsic factors, including co-occurring native species, influence its microbiome. We investigated the gut bacterial microbiome across genetically differentiated populations of C. fluminea in the Tennessee and Mobile River Basins in the Southeastern United States and compared them to those of six co-occurring species of native freshwater mussels. The gut microbiome of C. fluminea was diverse, differed with environmental conditions and varied spatially among rivers, but was unrelated to host genetic variation. Microbial source tracking suggested that the gut microbiome of C. fluminea may be influenced by the presence of co-occurring native mussels. Inferred functions from 16S rRNA gene data using PICRUST2 predicted a high prevalence and diversity of degradation functions in the C. fluminea microbiome, especially the degradation of carbohydrates and aromatic compounds. Such modularity and functional diversity of the microbiome of C. fluminea may be an asset, allowing to acclimate to an extensive range of nutritional sources in invaded habitats, which could play a vital role in its invasive success. [ABSTRACT FROM AUTHOR]

Published

2022

418. Impact of zebra mussels on physiological conditions of unionid mussels in Texas.

Author

Beason, Ericah and Schwalb, Astrid N.

Abstract

Zebra mussels (Dreissena polymorpha) are an invasive species known to detrimentally affect native unionid mussels, a highly imperiled group of organisms. Yet, no study has compared the impact of infestation (direct attachment to unionid mussel shells) and presence of zebra mussels on glycogen storage under controlled conditions, nor examined the impact of zebra mussels at the southern edge of their North American distribution. Hence, the objectives of this study were to (1) examine the impact of infestation versus presence of zebra mussels with experiments in the laboratory and (2) collect data on glycogen concentrations of unionid mussels at field sites with and without zebra mussels. In the experiment, tissue samples were collected after 30 days from treatment tanks where (1) Threeridge (Amblema plicata) were artificially infested with zebra mussels, (2) zebra mussels were present with similar biomass, but shells of A. plicata were not infested, and (3) control tanks where zebra mussels were absent. Results from the experiments showed zebra mussel presence and infestation reduced glycogen by 38% and 66%, respectively. Results from the field were consistent with these findings. Variation in glycogen concentrations of mussels collected in the field was best explained by chlorophyll-a concentrations (coarse measure of food resource) and zebra mussel densities. Zebra mussels showed similar detrimental effects as in other studies despite their lower densities, which could be due to the additional metabolic costs associated with higher water temperatures. Our study suggests that the combined impact of invasive species and rising temperatures due to global warming needs to be considered for conservation and management plans. [ABSTRACT FROM AUTHOR]

Published

2022

419. Replacement of dried freshwater alga Arthrospira maxima with marine diatom Schizochytrium limacinum in a diet of freshwater mussel Unio crassus (Philipsson, 1788).

Author

Bahrioğlu, Ergi and Ercan, Ertan

Subjects

*FRESHWATER mussels, *DIATOMS, *FRESHWATER algae, *DOCOSAHEXAENOIC acid, *FISH nutrition, *GREEN algae, *WEIGHT gain

Abstract

The present study was conducted to determine the possible usage of dried Schizochytrium limacinum as a replacement of Arthrospira maxima in a ration of the adult freshwater mussel (Unio crassus). The experimental diets were prepared with the different concentrations of protein-rich green freshwater algae A. maxima and docosahexaenoic acid (DHA)-rich diatom S. limacinum. Combinations were done by replacing A. maxima with 0%, 30%, 70%, and 100% of dried S. limacinum then named AM100, AM70, AM30, and AM0, respectively. These diets were used to feed 180 individuals (15 mussels/tank) of U. crassus in 12 independent glass (4 groups and 3 replicates) tanks. Live weight gain, shell dimensions, biochemical compositions, and fatty acid contents of U. crassus from whole tissue were examined before and after 30 days of feeding trial. The live weight gain was significantly higher in the AM100 (1.66 ± 1.32 g, 5.00 ± 3.95%) and AM70 (1.32 ± 0.83 g, 4.05 ± 2.56%) groups than in the (0.06 ± 1.91 g, 0.31 ± 5.73%) and AM0 (− 0.17 ± 0.61 g, − 0.52 ± 1.84%) groups. We were able to detect increasing levels of DHA in the U. crassus tissues, while the given ratios of S. limacinum were increased in the diet. The results showed that S. limacinum was digested by adult U. crassus to some extent and DHA was retained in the mussel tissue. These results showed that the dependence on live algae can be decreased in the conservation effort of U. crassus by using S. limacinum in a ration. [ABSTRACT FROM AUTHOR]

Published

2022

420. Aboriginal serrated and perforated shell artefacts from the Murray River, South Australia.

Author

ROBERTS, AMY, WESTELL, CRAIG, WILSON, CHRISTOPHER, LANGLEY, MICHELLE C., MALLEE ABORIGINAL CORPORATION, RIVER MURRAY AND, and CORPORATION, NGARRINDJERI ABORIGINAL

Subjects

*FRESHWATER mussels, *SEASHELLS, *EXCAVATION (Civil engineering), *DRILL core analysis, *MATERIAL culture

Abstract

This article describes three freshwater mussel shell artefacts recently documented for the Murray River in South Australia. These finds more than double the known examples of such artefacts from this region. Two of the modified shells are perforated, with the other serrated. The finely serrated item is a rare artefact and we have not located any similar published examples in Australia, although international correlates exist. The function/s and cultural significance of the objects are also considered in this paper. Hypotheses for the perforated finds include ornamentation, tool stringing and fibre scraping. Ornamentation, idle tinkering and food utensil use are considered as possible intended functions for the serrated artefact. Given the age range of the objects reported here (c. 6181–517 cal BP), together with other finds in the Murray Darling Basin, we tentatively suggest that shells have been a material resource used continually in this region for a range of purposes. However, as argued by other researchers, we concur that there has probably been infrequent identification and reporting of such shell artefacts. This is considered particularly likely given that our finds were recovered from relatively small scale excavation/coring and surface sampling efforts. As such, this paper attempts to raise awareness of this form of material culture in archaeological sequences. [ABSTRACT FROM AUTHOR]

Published

2022

421. Increasing taxonomic diversity and spatial resolution clarifies opportunities for protecting US imperiled species.

Author

Hamilton, Healy, Smyth, Regan L., Young, Bruce E., Howard, Timothy G., Tracey, Christopher, Breyer, Sean, Cameron, D. Richard, Chazal, Anne, Conley, Amy K., Frye, Charlie, and Schloss, Carrie

Subjects

SPATIAL resolution, FRESHWATER animals, SPECIES, BUMBLEBEES, FRESHWATER mussels, CRAYFISH

Abstract

Continental‐ and regional‐scale assessments of gaps in protected area networks typically use relatively coarse range maps for well documented species groups, creating uncertainty about the fate of unexamined biodiversity and providing insufficient guidance for land managers. By building habitat suitability models for a taxonomically diverse group of 2216 imperiled plants and animals, we revealed comprehensive and detailed protection opportunities in the conterminous United States. Summing protection‐weighted range‐size rarity (PWRSR, the product of the percent of modeled habitat outside of protected areas and the inverse of modeled habitat extent) uncovered novel patterns of biodiversity importance. Concentrations of unprotected imperiled species in places such as the northern Sierra Nevada, central and northern Arizona, the Rocky Mountains of Utah and Colorado, southeastern Texas, southwestern Arkansas, and Florida's Lake Wales Ridge have rarely if ever been featured in continental‐ and regional‐scale analyses. Inclusion of diverse taxa (vertebrates, freshwater mussels, crayfishes, bumble bees, butterflies, skippers, and vascular plants) partially drove these new patterns. When analyses were restricted to groups typically included in previous studies (birds, mammals, and amphibians), up to 53% of imperiled species in other groups were left out. The finer resolution of modeled inputs (990 m) also resulted in a more geographically dispersed pattern. For example, 90% of the human population of the conterminous United States lives within 50 km of modeled habitat for one or more species with high PWRSR scores. Over one‐half of the habitat for 818 species occurs within federally lands managed for biodiversity protection; an additional 360 species have over one‐half of their modeled habitat on federal multiple use land. Freshwater animals occur in places with poorer landscape condition but with less exposure to climate change than other groups, suggesting that habitat restoration is an important conservation strategy for these species. The results provide fine‐scale, taxonomically diverse inputs for local and regional priority‐setting and show that although protection efforts are still widely needed on private lands, notable gains can be achieved by increasing protection status on selected federal lands. [ABSTRACT FROM AUTHOR]

Published

2022

422. The effect of riparian pool‐riffles on the hydrochemistry of hyporheic habitats: The River Esk, Yorkshire, UK.

Author

Norbury, Michael T., Bracken, Louise J., and Burt, Timothy P.

Subjects

WATER chemistry, WATER management, BRAIDED rivers, HABITATS, DISSOLVED oxygen in water, FRESHWATER mussels, GROUNDWATER monitoring

Abstract

European Union Water Framework Directive (WFD) (2000/60/EC) waterbody statuses are often derived from the assemblage of mixed‐taxon organisms found within bed sediments. Yet no routine water chemistry samples are taken from riverbed substrate, despite many interstitial species being dependant on specific physicochemical conditions. This paper examines water and nutrient exchanges between stream and substrate, the hyporheic zone, and the consequent alteration to the chemistry of interstitial and in‐stream waters, which in turn leads to small‐scale but significant changes in habitat. Bed topography, principally a pool‐riffle sequence, was surveyed and hydraulically sampled to examine the hyporheic flow pathways generated between the stream, substrate, and groundwater—creating an ecotone. Hyporheic zone, in‐stream and groundwater hydrochemistry, and hydraulic measures were assessed at a braided woodland river reach using a dense monitoring approach. The findings demonstrate that through a 23‐m pool‐riffle sequence, where water infiltrates at the riffle‐head and subsequently exfiltrates at the riffle‐tail, there is a 5% reduction in mean in‐stream nitrate‐N and a 73% reduction in hyporheic zone concentration. When calcium‐enriched riffle‐tail exfiltrate meets riffle‐runoff water that is turbulently oxygenated from riffle‐flow, an interstitial redoxcline is created. Dissolved oxygen nocturnally drops, with photosynthetic rate reduction, which causes hyporheic nitrate‐N to double its daytime concentration. The results are related to the Yorkshire River Esk freshwater pearl mussels, Margaritifera margaritifera Linnaeus (1758), a declining endangered species. At present, scant monitoring of interstitial hydrochemistry and diurnal change across stream and substrate occurs. [ABSTRACT FROM AUTHOR]

Published

2022

423. Vitamins A, E, C, β -carotene contents and MDA level of freshwater mussel, (Unio elongatulus eucirrus Bourguignat 1860) in the Karakaya Dam Lake.

Author

Şahin, Ayşe Gül and Karatepe, Mustafa

Subjects

VITAMIN A, CAROTENES, FRESHWATER mussels, HIGH performance liquid chromatography, DAMS

Abstract

Copyright of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Ürünleri Dergisi is the property of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Urunleri Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

424. Oxidative stress response as biomarker of exposure of a freshwater invertebrate model organism (Unio mancus Lamarck, 1819) to antifouling copper pyrithione.

Author

Paçal, Elif, Gümüş, Burçin Aşkım, Günal, A. Çağlan, Erkmen, Belda, Arslan, Pınar, Yıldırım, Zuhal, and Erkoç, Figen

Subjects

FRESHWATER invertebrates, FRESHWATER mussels, COPPER, FRESHWATER organisms, OXIDATIVE stress, BIOMARKERS, HISTOPATHOLOGY

Abstract

Copyright of Pesticides & Phytomedicine / Pesticidi i Fitomedicina is the property of Institute of Pesticides & Environmental Protection and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

425. Accumulation and Distribution of Nanoparticles (Al2O3, CuO, and TiO2) in Tissues of Freshwater Mussel (Uniotigridis).

Author

Canli, Esin G., Celenk, Alper, and Canli, Mustafa

Subjects

FRESHWATER mussels, COPPER oxide, ALUMINUM oxide, TRANSMISSION electron microscopes, TRANSMISSION electron microscopy

Abstract

Freshwater mussels are used as an effective bioindicator of metal pollution. There is no data on the accumulation of any metal-oxide nanoparticles (NPs) in tissues of Uniotigridis. Thus, this study was undertaken to investigate accumulation of Al2O3, CuO, and TiO2 NPs following exposure to different concentrations (0, 1, 3, and 9 mg/L) of NPs for 14 days. Metal concentrations in tissues were determined by ICP-MS, while NP presence was demonstrated by transmission electron microscope (TEM) images. During the experiments, mussels were fed with cultured algae (Chlorellavulgaris). TEM images demonstrated the presence of NPs in digestive gland and muscle. TEM images also suggested that NPs were taken via the lysosomes or endosomes. Highest mean concentrations (µg/g d.w.) of aluminium (76.51), copper (111.63) and titanium (113.83) occurred in the gills and followed by the digestive glands and muscles. Algae consumption of mussels did not significantly differ among controls and NP-exposed groups. [ABSTRACT FROM AUTHOR]

Published

2022

426. Evidence for multiple refugia and hotspots of genetic diversity for Westralunio carteri, a threatened freshwater mussel in south‐western Australia.

Author

Benson, Justin, Stewart, Barbara, Close, Paul, and Lymbery, Alan

Subjects

FRESHWATER mussels, GENETIC variation, FRESHWATER animals, MITOCHONDRIAL DNA, SPECIES distribution

Abstract

Intraspecific genetic diversity provides the evolutionary potential to adapt to changing environments and 'hotspots' of high intraspecific diversity are recognized as key targets for conservation.In south‐western Australia, intraspecific genetic diversity for mesic taxa is not uniformly distributed. Many species comprise highly divergent lineages with unique haplotypes resulting from contraction to refugia during historical arid cycles. Sampling strategies in studies of the region's unique and ancient freshwater fauna have often focused on broad distributional range, making it difficult to determine boundaries between lineages and the location of genetic hotspots.This study explored the spatial distribution of intraspecific genetic diversity in the threatened freshwater mussel, Westralunio carteri. Mitochondrial DNA sequences for 164 specimens, sampled from all basins within the distribution of the species, were used to describe lineage boundaries and the location of hotspots, and to reconstruct historical demographics.There was strong evidence for three subregions of genetic diversity based on the largely non‐overlapping distributions of three evolutionarily significant units. Spatial and demographic analyses suggest that these evolutionarily significant units persisted through past arid cycles in separate refugia. The majority of haplotypes were unique to a single location, indicating limited connectivity among populations in recent times. Hotspots were identified throughout the region. Most notably, a significant hotspot in the south‐western corner probably arose through the overlap of lineages in historical refugia.Conservation assessments often focus on the species as a whole, even though sublineages, hotspots and the threats faced are not evenly distributed across the species range. This paper highlights that effective conservation of spatially structured taxa requires targeted management of multiple genetic units. Given the importance of formal taxonomic description for conservation listings, further investigation of the potential for species delimitation within W. carteri is required. [ABSTRACT FROM AUTHOR]

Published

2022

427. Cadmium-induced ultrastructural changes and apoptosis in the gill of freshwater mussel Anodonta woodiana.

Author

Li, Yong Quan, Chen, Chien M., Liu, Na, and Wang, Lan

Subjects

FRESHWATER mussels, GOLGI apparatus, CELL death, CELL nuclei, NUCLEAR membranes, ACUTE toxicity testing, CADMIUM poisoning, APOPTOTIC bodies

Abstract

This study investigated the acute toxicity of cadmium (Cd) to the freshwater mussel Anodonta woodiana. The freshwater mussels were exposed to five concentrations of Cd (0 mg/L, 8.43 mg/L, 16.86 mg/L, 33.72 mg/L, and 67.45 mg/L) for up to 96 h. The 24-h, 48-h, 72-h, and 96-h LC50 values for Cd were estimated as 562.3 mg/L, 331.1 mg/L, 182.0 mg/L, and 134.9 mg/L, respectively. Caspase-3, caspase-8, caspase-9, and Ca-ATPase activities; protein and H2O2 levels; DNA fragmentation; and ultrastructure of the gill were also investigated. The activities of caspase-3 and caspase-9 in mussels were increased by Cd in a dose-dependent manner, where higher doses of Cd (33.72 mg/L and 67.45 mg/L) significantly increased the enzyme activities compared to the controls (P < 0.05). The caspase-8 activity was significantly depressed by a low dose of Cd (8.43 mg/L) but was clearly induced by higher doses of Cd (16.86 mg/L, 33.72 mg/L, and 67.45 mg/L) (P < 0.05). The Ca-ATPase activity and H2O2 levels were elevated and reached maximum values under the medium dose of Cd (16.86 mg/L). However, protein levels were decreased by Cd in an inverse dose–dependent manner. In the gills of the mussels, Cd treatment induced DNA fragmentation as demonstrated by DNA ladders observed via agarose gel electrophoresis. Moreover, ultrastructural alterations in gill cells of mussels treated with Cd (16.86 mg/L and 67.45 mg/L) for 96 h were observed by electronic microscopy. The ultrastructure abnormalities were characterized by the following features: (1) a disordered arrangement and breaking off of microvilli of epithelial cells; (2) chromatin condensed near the nuclear membrane and the appearances of extremely irregular nuclei, some with a fingerlike shape and an unclear, swollen, invaginated, or ruptured nuclear membrane and apoptotic bodies; (3) swollen and vacuolating mitochondria, some with disintegrated or missing cristae; (4) a disintegrated rough endoplasmic reticulum containing different sizes of vesicles; and (5) shrinking and deformation of Golgi bodies with decreased vesicle numbers. Our results demonstrated that Cd could activate caspase-3, caspase-8, caspase-9, and Ca-ATPase; cause ultrastructural changes; and produce DNA fragmentation in the mussels investigated. Based on the information obtained through this study, it is reasonable to conclude that Cd can induce apoptosis in the gills of the mussels, eventually leading to tissue damage. [ABSTRACT FROM AUTHOR]

Published

2022

428. BOT shelves plans for hemp, marijuana businesses.

Author

AADLAND, CHRIS

Subjects

MARIJUANA industry, BUSINESS success, MARIJUANA growing, ORGANIC farming, FRESHWATER mussels

Abstract

The Confederated Umatilla Journal reports that the Confederated Tribes of the Umatilla Indian Reservation (CTUIR) have decided not to pursue hemp cultivation or a marijuana retail business due to studies showing that neither venture would be profitable for the tribe. The CTUIR Board of Trustees voted against pursuing cannabis-related businesses and rescinded the tribe's hemp code. A feasibility study showed that a hemp production business would generate minimal profits, while a marijuana retail business would face challenges due to state tax policies. Despite this decision, marijuana possession and purchase by individuals aged 21 and older remains legal on the reservation. [Extracted from the article]

Published

2024

429. CTUIR propagating rare mussel species.

Author

SNELL, TRAVIS

Subjects

FRESHWATER mussels, MARIJUANA industry, FISH larvae, ORGANIC farming, MARIJUANA growing

Abstract

The article discusses two separate topics. The first topic is about the loan application processing delays at Nixyáawii Community Financial Services (NCFS), which prompted tribal leaders to provide $2 million to address the backlog. The second topic is about the Confederated Tribes of the Umatilla Indian Reservation's (CTUIR) efforts to propagate a rare species of mussel called the Western Ridged Mussel in order to prevent its population decline. The CTUIR's Department of Natural Resources is working on growing the mussels in a lab in Walla Walla. [Extracted from the article]

Published

2024

430. Comparative analysis of gut microbiota diversity in endangered, economical, and common freshwater mussels using 16S rRNA gene sequencing

Author

Xiongjun Liu, Yanling Cao, Shan Ouyang, and Xiaoping Wu

Subjects

conservation, diversity, freshwater mussels, gut microbiota, Ecology, QH540-549.5

Abstract

Abstract Freshwater mussels are both among the most diverse and endangered faunas worldwide. The gut microbiota of species plays a key role in nutrition and immunity, such as preventing it from pathogen invasion, synthesizing beneficial secondary metabolites, and contributing to the digestion of complex nutrients. Information on the gut microbiota could have significant implications for conservation biology, especially for threatened or endangered species. However, there is relatively little study into the gut microbiota of freshwater mussels. Here, the gut microbiota diversity was analyzed in endangered (Solenaia carinata), economical (Sinohyriopsis cumingii), and common (Sinanodonta woodiana) freshwater mussels using 16S rRNA gene sequencing. This study represents the first to compare the gut microbiota diversity of endangered, economical, and common Chinese freshwater mussels. The results showed that 13,535 OTUs were found in S. carinata, 12,985 OTUs in S. cumingii, and 9,365 OTUs in S. woodiana. The dominant phylum in S. carinata and S. cumingii was Fusobacteria, and was Firmicutes in S. woodiana. Alpha diversity indices indicated that S. carinata and S. cumingii had a higher abundance and diversity of gut microbiota than S. woodiana. The composition of gut microbiota was different among three freshwater mussels, but their composition variation was not significant. This study provides insight for the conservation of freshwater mussel biodiversity, which will not only help conserve these vulnerable groups but also, will offer wider benefits to freshwater ecosystems.

Published

2020

431. Proximate Composition of Freshwater Mussels (Unio Pictorum, Linnaeus 1758) in Karasustream, Sinop

Author

M. Anıl Keskinbalta and M. Yeşim Çelik

Subjects

freshwater mussels, proximate composition, unio pictorum, chemical, turkey, Agriculture, Agriculture (General), S1-972

Abstract

The effects of environmental factors and reproductive activities on proximate composition of freshwater mussels, Unio pictorum, was investigated from February 2013 to February 2014 in Sinop, Turkey. Environmental parameters including total particulate matter, inorganic matter and organic matter, chlorophyll-a and temperature were determined monthly during the experimental period. Mean protein, lipid, moisture and meat yield were 56.03±0.79%, 4.42±0.31%, 82.19±0.21% and 21.75±0.91%, respectively. The obtained data indicate that the proximate composition of mussels is highly correlated with environmental factors and reproduction cycle. In conclusion, freshwater mussel based protein should be evaluated an alternative source of protein for the feed industry.

Published

2020

432. Antimicrobial Susceptibility of Bacteria Isolated from Freshwater Mussels in the Wildcat Creek Watershed, Indiana, United States

Author

John E. Ekakoro, Lynn F. Guptill, G. Kenitra Hendrix, Lauren Dorsey, and Audrey Ruple

Subjects

antimicrobial resistance, bacterial culture, antimicrobial susceptibility testing, freshwater mussels, Therapeutics. Pharmacology, RM1-950

Abstract

Antimicrobial resistance (AMR) is a global health crisis that threatens the health of humans and animals. The spread of resistance among species may occur through our shared environment. Prevention of AMR requires integrated monitoring systems, and these systems must account for the presence of AMR in the environment in order to be effective. The purpose of this study was to establish and pilot a set of procedures for utilizing freshwater mussels as a means of surveillance for microbes with AMR in Indiana waterways. One hundred and eighty freshwater mussels were sampled from three sites along the Wildcat Creek watershed in north-central Indiana. Specimens were evaluated for the presence of ESKAPE pathogens (Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, Enterobacter species), Escherichia coli, Campylobacter, and Salmonella species, and the isolates were tested for antimicrobial resistance. A total of 24 bacterial isolates were obtained from tissue homogenates of freshwater mussels collected at a site directly downstream from Kokomo, Indiana. Of these, 17 were Enterobacter spp., five were Escherichia coli, one was Pseudomonas aeruginosa, and one was Klebsiella pneumoniae. All isolates were resistant to three or more antimicrobial drug classes. Further work is necessary to determine the source of the bacterial species found in the mussels.

Published

2023

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

Author

Zhang L, Liu X, Hu X, Jia J, Liu X, and Wu R

Subjects

Animals, Bivalvia genetics, Bivalvia anatomy & histology, Bivalvia classification, Unionidae genetics, Unionidae classification, Genomics methods, Phylogeny, Genome, Mitochondrial, Fresh Water

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., Competing Interests: Declarations. Ethics approval and consent to participate: Not applicable. Consent for publication: Not applicable. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

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

Author

Lodato MB, van Ee BC, and Atkinson CL

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 (𝛿 13 C and 𝛿 15 N) 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., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

435. Introduction into natural environments shifts the gut microbiome of captivity-raised filter-feeding bivalves.

Author

Vaughn SN, Hopper GW, González IS, Bucholz JR, Garrick RC, Lozier JD, Johnson PD, Atkinson CL, and Jackson CR

Abstract

The gut microbiome is influenced by host species and the environment, but how the environment influences the microbiome of animals introduced into a new ecosystem has rarely been investigated. Freshwater mussels are aquatic fauna, with some threatened or endangered species propagated in hatcheries and introduced into natural systems as part of conservation efforts. The effects of the environment on the freshwater mussel gut microbiome were assessed for two hatchery-propagated species ( Lampsilis ovata , Lampsilis ornata ) introduced into rivers within their natural range. Mussels were placed in rivers for 8 weeks, after which one subset was collected, another subset remained in that river, and a third subset was reciprocally transplanted to another river in the same river basin for a further 8 weeks. Gut microbiome composition and diversity were characterized for all mussels. After the initial 8 weeks, mussels showed increased gut bacterial species richness and distinct community composition compared to hatchery mussels, but gut microbiome diversity then decreased for mussels that remained in the same river for all 16 weeks. The gut bacterial community of mussels transplanted between rivers shifted to resemble that of mussels placed initially into the recipient river and that remained there for the whole study. All mussels showed high proportions of Firmicutes in their gut microbiome after 8 weeks, suggesting an essential role of this phylum in the gut of Lampsilis species. These findings show that the mussel gut microbiome shifts in response to new environments and provide insights into conservation strategies that involve species reintroductions., Competing Interests: The authors report that they have no conflicts of interest., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

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

Author

Wacker S, Sundt KÅ, Mageroy JH, Larsen BM, Hagen CS, Horvli T, and Robertsen G

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., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

437. Shell shock: Saving America's freshwater mussels requires some oddball interventions, finds Jason Bittel.

Author

Bittel, Jason

Subjects

*FRESHWATER mussels, *ENDANGERED species, *WILDLIFE conservation, *BIOLOGICAL extinction, *FRESH water, *PREVENTION

Abstract

The article focuses on aspects of the state of freshwater mussels to become extinct in the U.S. It explores the effort of researchers from Ohio State University in raising a number of mussel larvae in dishes at the Freshwater Mussel Convention and Research Center at Columbus Zoo and Aquarium in Ohio. It also mentions that the mussels are growing old and dying without producing offspring and some of the most endangered lifeforms on Earth.

Published

2018

438. Alterations to unionid transformation during agricultural and urban contaminants of emerging concern exposures

Author

Rzodkiewicz, Lacey D., Annis, Mandy L., and Woolnough, Daelyn A.

Published

2023

439. In vitro assessment of the genotoxicity and immunotoxicity of treated and untreated municipal effluents and receiving waters in freshwater organisms

Author

Gilroy, Ève A. M., Kleinert, Christine, Lacaze, Émilie, Campbell, Sheena D., Verbaan, Sara, André, Chantale, Chan, Kara, Gillis, Patricia L., Klinck, Joel S., Gagné, François, Fournier, Michel, and de Solla, Shane R.

Published

2023

440. Western range expansion of the black sandshell mussel in Montana /

Author

Stagliano, David M., Unknown, and Stagliano, David M.

Subjects

Freshwater mussels, Home range, Montana, Statistics, Unionidae

Published

2014

441. RAD‐tag and mitochondrial DNA sequencing reveal the genetic structure of a widespread and regionally imperiled freshwater mussel, Obovaria olivaria (Bivalvia: Unionidae)

Author

Jamie R. Bucholz, Nicholas M. Sard, Nichelle M. VanTassel, Jeffrey D. Lozier, Todd J. Morris, Annie Paquet, and David T. Zanatta

Subjects

freshwater mussels, genetic structure, Laurentian Great Lakes, population genetics, postglacial colonization, RAD‐seq, Ecology, QH540-549.5

Abstract

Abstract Obovaria olivaria is a species of freshwater mussel native to the Mississippi River and Laurentian Great Lakes‐St. Lawrence River drainages of North America. This mussel has experienced population declines across large parts of its distribution and is imperiled in many jurisdictions. Obovaria olivaria uses the similarly imperiled Acipenser fulvescens (Lake Sturgeon) as a host for its glochidia. We employed mitochondrial DNA sequencing and restriction site‐associated DNA sequencing (RAD‐seq) to assess patterns of genetic diversity and population structure of O. olivaria from 19 collection locations including the St. Lawrence River drainage, the Great Lakes drainage, the Upper Mississippi River drainage, the Ohioan River drainage, and the Mississippi Embayment. Heterozygosity was highest in Upper Mississippi and Great Lakes populations, followed by a reduction in diversity and relative effective population size in the St. Lawrence populations. Pairwise FST ranged from 0.00 to 0.20, and analyses of genetic structure revealed two major ancestral populations, one including all St. Lawrence River/Ottawa River sites and the other including remaining sites; however, significant admixture and isolation by river distance across the range were evident. The genetic diversity and structure of O. olivaria is consistent with the existing literature on Acipenser fulvescens and suggests that, although northern and southern O. olivaria populations are genetically distinct, genetic structure in O. olivaria is largely clinal rather than discrete across its range. Conservation and restoration efforts of O. olivaria should prioritize the maintenance and restoration of locations where O. olivaria remain, especially in northern rivers, and to ensure connectivity that will facilitate dispersal of Acipenser fulvescens and movement of encysted glochidia.

Published

2022

442. Full-Length Transcriptome Sequences Provide Insight Into Hermaphroditism of Freshwater Pearl Mussel Hyriopsis schlegelii.

Author

Zeng, Qi, Hu, Beijuan, Blanco, Andres Hortas, Zhang, Wanchang, Zhao, Daxian, Martínez, Paulino, and Hong, Yijiang

Subjects

FRESHWATER mussels, SEX determination, INTERSEXUALITY, SEX reversal, TRANSCRIPTOMES

Abstract

The freshwater mussel Hyriopsis schlegelii is a cultured bivalve in China, and the quality of the pearls produced is affected by the type of gonads. However, because of the lack of a published genome and the complexity of sex determination, research on sex reversal and development of this species is limited. In this study, Illumina RNA-seq and PacBio Isoform Sequencing (Iso-Seq) were combined to analyze the gonads of H. schlegelii. A total of 201,481 high-quality transcripts were generated. The study identified 7,922 differentially expressed genes in three comparison group (females versus males, hermaphrodites versus females, and hermaphrodites versus males). Twenty-four genes were identified as potential sex-related genes, including sox9 and wnt4 involved in sex determination, and vtg , cyp17a1 and 17β-hsd2 involved in gonadal development. We also speculated a possible pathways for the formation of hermaphroditism in H. schlegelii. The data provide a clear view of the transcriptome for H. schlegelii gonads and will be valuable in elucidating the mechanisms of gonad development. [ABSTRACT FROM AUTHOR]

Published

2022

443. Sublethal responses of the indicator Unio species (mussel) to selected phthalate esters.

Author

Kuzukiran, Ozgur, Yurdakok-Dikmen, Begum, Erkmen, Belda, Gunal, Aysel Caglan, Arslan, Pinar, Pacal, Elif, Totan, Fatma Esra, Filazi, Ayhan, Yildirim, Zuhal, and Erkoç, Figen

Subjects

*FRESHWATER mussels, *PHTHALATE esters, *MUSSELS, *SUPEROXIDE dismutase, *MOLECULAR weights, *MALONDIALDEHYDE, *SPECIES

Abstract

Sublethal effects of low and high molecular weight phthalates were assessed in Unio with a biomarker approach using gills and digestive gland as the main targets of xenobiotic uptake. Diisononyl phthalate, diisodecyl phthalate and dimethyl phthalate were studied for aquatic toxicity to nontarget freshwater mussels. Adult Unio sp. were exposed to sublethal concentrations. After 96 h exposure, total hemocyte counts in hemolymph and malondialdehyde, glutathione, superoxide dismutase, advanced oxidation protein product and protein yields in gill and digestive gland were determined. Total hemocyte counts increased significantly in the dimethyl phthalate and diisodecyl phthalate exposure groups, but decreased in diisononyl phthalate group. Malondialdehyde levels were higher in dimethyl phthalate in both tissues; whereas diisodecyl phthalate caused increase only in gills. Gill glutathione levels were lower in the diisodecyl phthalate while higher in the dimethyl phthalate in both tissues. Superoxide dismutase activities of both tissues decreased in test groups. Advanced oxidation protein product levels were higher in digestive gland than gill and in test groups compared to control. Differences in xenobiotic bioavailability may cause dissimilar responses even though these phthalates have low solubility. Changes in the biomarkers of lipid peroxidation indicate possible initial physical absorption by the mussel. [ABSTRACT FROM AUTHOR]

Published

2022

444. Marking the shells of juvenile and adult eastern oysters, Crassostrea virginica, with the fluorochrome dye calcein and measuring growth and mortality after marking.

Author

Spires, Jason E and North, Elizabeth W

Subjects

*AMERICAN oyster, *FRESHWATER mussels, *VITAL statistics, *BLUE light, *MORTALITY

Abstract

Techniques for positive re-identification of finfish are well developed and are used to estimate vital rates, migration patterns and stock structure. Fluorochrome dyes, like nontoxic calcein, have been used with success to mark hard parts of fish and the shells of some molluscs. Yet, despite the commercial and ecological importance of the eastern oyster Crassostrea virginica , a systematic evaluation of the effectiveness of calcein for marking this species does not exist. In this study, methods that have been used for marking freshwater mussels with calcein were tested on 2-week- and 2-month-old juvenile C. virginica and on 3-year-old adult C. virginica. Individuals were immersed in 250 mg l−1 of calcein for 24 h either once (single treatment) or three times (triple treatment), and then observed to determine whether marks were visible, how long they remained visible and whether calcein influenced growth and mortality of the different age classes. Results indicated that all marked individuals were recognizable under blue light, that multiple distinct marks were possible on juveniles and that marks on juveniles could remain visible for 3.75 years. Growth of juveniles and adults treated with calcein was not significantly different from controls after 11 months. Survivorship did not differ between treated and control individuals for all treatments and ages, except the 2-month-old juvenile oysters that were immersed three times. Results indicate that calcein is an effective and safe marking technique for juvenile oysters from robust cohorts, and could be used to enhance studies of growth, mortality, larval transport and settlement in situ. [ABSTRACT FROM AUTHOR]

Published

2022

445. Integrating morphological and genetic data at different climate and geographic scales in an endangered freshwater mussel Unio durieui (Bivalvia: Unionidae) endemic to northern Tunisia.

Author

Fassatoui, Chiheb, Chenuil, Anne, and Romdhane, Mohamed Salah

Subjects

*FRESHWATER mussels, *FISHER discriminant analysis, *WILDLIFE recovery, *UNIONIDAE, *PRINCIPAL components analysis

Abstract

The freshwater mussel Unio durieui is a rare bivalve endemic to North African watersheds. Although this is an important species from an ecological and conservation perspective, information on its genetic diversity and population structure is lacking. Here, we combine geometric morphometric and molecular genetic analyses to characterize and evaluate the status of populations of this endangered species from four Tunisian watershed basins (Cap Bon, Ichkeul, northwest and Mejerda River basins). By using a multiparameter approach, we sought to test the hypothesis that populations from these geographic regions could be considered as distinct management units. Shell outline shapes were assessed using elliptic Fourier analysis followed by linear discriminant analysis of principal components. Multivariate analysis applied on normalized Fourier coefficients showed highly significant differences in shell shape among the populations. Population genetic analysis based on inter-simple sequence repeats revealed low levels of diversity and high differentiation between the populations studied. Two groups of populations are clearly evident, thus separating samples from the Northwest from those from the other watersheds. Although there is no evidence for isolation by distance patterns, genetic and phenotypic diversity appeared significantly correlated with climatic variables. These findings suggest isolation by environment and the nominal species U. durieui may constitute two biological species. Conservation programme actions should consider this substructure in establishing effective recovery strategies for this endangered species. [ABSTRACT FROM AUTHOR]

Published

2022

446. Mitogenomic phylogeny resolves Cuneopsis (Bivalvia: Unionidae) as polyphyletic: The description of two new genera and a new species.

Author

Wu, Xiao‐Ping, Dai, Yu‐Ting, Yin, Nan, Shu, Feng‐Yue, Chen, Zhong‐Guang, Guo, Liang, Zhou, Chun‐Hua, Ouyang, Shan, and Huang, Xiao‐Chen

Subjects

*UNIONIDAE, *FRESHWATER mussels, *BIVALVES, *MITOCHONDRIAL DNA, *SPECIES

Abstract

Freshwater mussels are known to have two types of mitochondrial DNA (mtDNA) transmitted separately through oocytes and sperms, namely, maternal (F‐type) and paternal (M‐type) mtDNA. The additional suite of mitochondrial genes provides a great opportunity to resolve phylogenetically problematic relationships. East Asian freshwater mussels of the genus Cuneopsis were considered a compact group of taxa having wedge‐shaped shells. However, preliminary results from previous studies challenged the monophyly of Cuneopsis, and the exact phylogenetic relationships among Cuneopsis and its allied genera are yet to be determined with comprehensive species sampling. Here, we evaluated species boundaries in Cuneopsis based on COI barcoding and obtained 11 new F‐ and M‐type mitogenomes via genome skimming to elucidate the evolutionary history of Cuneopsis. COI barcode data supported the validity of all sampled six Cuneopsis species (missing C. kiangsiensis). Our mitochondrial phylogenomic analyses confirmed that the currently recognized genus Cuneopsis sensu lato was polyphyletic, recovering three well‐supported clades. Molecular dating analysis suggested Cuneopsis s.l. diversified at ~58.06 million years ago in the Paleogene. Hereby, we propose two new genera, that is, Arcuneopsis gen. nov. and Pseudocuneopsis gen. nov. Additionally, we report a new species, Pseudocuneopsis sichuanensis sp. nov., from Chengdu, Sichuan, China, and a newly recorded species from China, Cuneopsis demangei. [ABSTRACT FROM AUTHOR]

Published

2022

447. The first evidence of microplastic uptake in natural freshwater mussel, Unio stevenianus from Karasu River, Turkey.

Author

Atici, Ataman Altug

Subjects

*FRESHWATER mussels, *MYTILIDAE, *MICROPLASTICS, *BIVALVES, *MUSSELS

Abstract

Microplastic pollution is a major problem that threatens freshwater mussels as well as marine bivalves, since these filter-feeding organisms are directly exposed to microplastics in the water column. There is no study on the microplastic contamination of Unio stevenianus as a bioindicator organism. The aim of this study is to determine the microplastic contamination in U. stevenianus. In total, 32 U. stevenianus were obtained from three different sites from Karasu River, in October 2020. The soft tissue of each mussel was digested and filtered. The filters with microplastics were observed under a stereomicroscope. A total of 1,253 microplastics, ranging from 0.81 to 6.69 items/gram (mean 2.85 ± 1.27 items/g) and 13.00 to 84.73 items/individual (mean 39.15 ± 16.95 items/individual), were extracted from soft tissues of mussel for all stations. The dominant of the detected microplastics consisted of fragment (48.8%) followed by fiber (47.5%) types, and ˂0.1 mm size (44.8%), irregular shape (48.7%) and black coloured (48.8%) items were the most uptaked microplastics. This study indicated that U. stevenianus has a lot of pollution where there are a lot of microplastics in the river. [ABSTRACT FROM AUTHOR]

Published

2022

448. Comparison of bathyscope and snorkelling methods for iwi monitoring of kākahi (Echyridella menziesi) populations in the shallow littorals of Lake Rotorua and Rotoiti.

Author

Nuri, Siobhan H., Kusabs, Ian A., and Duggan, Ian C.

Subjects

*SKIN diving, *KEYSTONE species, *LAKES, *POPULATION density, *FRESH water, *LITTORAL zone

Abstract

Kākahi (Echyridella spp.) are freshwater cultural keystone species in New Zealand; they represent a valuable mahinga kai (species used as a food) resource and have high cultural significance to Māori, particularly to the Te Arawa and Ngāti Tūwharetoa iwi (tribal groups). Population densities of kākahi are thought to have declined in many locations in New Zealand, and accurate assessment methods are thus required to monitor changes in populations. A bathyscope method is currently used by iwi to monitor kākahi populations in lakes Rotorua and Rotoiti. It is unclear, however, how accurate this method is for determining kākahi abundance changes compared to underwater methods such as snorkelling. Comparisons at seven sites in Lake Rotorua and three sites in Lake Rotoiti show that significantly fewer kākahi are observed using a bathyscope relative to snorkelling (p < 0.0001). On average, snorkelling estimated 2.1 times more kākahi than the bathyscope method in Lake Rotorua, and 2.5 times more in Lake Rotoiti. We conclude that under suitable conditions, snorkelling is generally more effective than surface visual assessments using a bathyscope. Nevertheless, the bathyscope method is inexpensive, safe and simple, ideal for use by iwi and community groups for long-term monitoring of kākahi populations. [ABSTRACT FROM AUTHOR]

Published

2022

449. Congruence in stable isotope values among two sympatric freshwater mussel species in northern New Zealand streams.

Author

Collier, Kevin J. and Melchior, Michele

Subjects

*FRESHWATER mussels, *STABLE isotopes, *SPECIES, *GONADS, *MUSSELS

Abstract

We measured δ15N, δ13C, and percent carbon (C) and nitrogen (N) on foot and remaining soft tissue of the two native freshwater mussel species Echyridella aucklandica and E. menziesii (Hyriidae: Unionida) from three Waikato, northern New Zealand, streams to investigate differences among sites, sexes and species. Mean differences in δ15N and δ13C between foot and remaining soft tissue (mainly guts, gills and gonads) were <0.5‰, whereas %C and %N were higher in foot tissue and C:N values were lower. No differences were detected between mussel species, but δ15N and δ13C displayed marked differences among sites for both species, with δ15N variations consistent with the level of catchment land-use intensification. Variation in δ13C and δ15N among replicate mussels was low indicating few individuals are required to precisely characterise isotope signatures of local populations. The lack of evidence of trophic resource partitioning among species, and consistent differences in isotope ratios between sites, suggests that the more widespread and abundant E. menziesii may provide an effective baseline integrator of catchment activities that alter carbon supplies and nitrogen sources. [ABSTRACT FROM AUTHOR]

Published

2022

450. Range extension and review of the conservation status of the freshwater mussel Alasmidonta mccordi Athearn, 1964 (Bivalvia, Unionidae) in the Coosa River drainage of Alabama and Georgia.

Author

Williams, James D., Wisniewski, Jason M., and Dinkins, Gerald R.

Subjects

*FRESHWATER mussels, *ALASMIDONTA

Abstract

The Coosa Elktoe, Alasmidonta mccordi Athearn, 1964, was previously known only from the type specimen collected in the Coosa River, St. Clair County, Alabama. Based on the discovery of five previously misidentified specimens in three museum lots, we extend the distribution of A. mccordi into the Etowah and Conasauga Rivers, tributaries of the Coosa River in northwest Georgia. Shell morphology of these museum specimens compare favorably with the only known specimen of the species. The conservation status of A. mccordi is examined in light of its wider historical distribution in the Coosa River drainage. We include recommendations for future research to detect extant populations of this presumed extinct freshwater mussel. [ABSTRACT FROM AUTHOR]

Published

2022