Your search keyword '"Freshwater pearl mussel"' showing total 549 results

1. Genotype-environment interactions on growth and inner shell color variation in Hyriopsis cumingii cultured in different iron-level substrates

Author

Lv, Xuefeng, Wang, Zhiyan, Bao, Quanzhi, Li, Changzhi, Lu, Tingting, Wu, Yuyang, Liu, Chuntong, and Bai, Zhiyi

Published

2025

2. The Freshwater Pearl Mussel: A Costly Stowaway or an Important Habitat Engineer?

Author

Höjesjö, J., Wengström, N., Österling, M., Lorenzen, Kai, Series Editor, Lobon-Cervia, Javier, editor, Budy, Phaedra, editor, and Gresswell, Robert, editor

Published

2024

3. Population Reinforcement of the Endangered Freshwater Pearl Mussel (Margaritifera margaritifera): Lessons Learned.

Author

Lavictoire, Louise and West, Christopher

Subjects

*FRESHWATER mussels, *WILDLIFE reintroduction, *MUSSELS

Abstract

Freshwater mussel populations are in sharp decline and are considered to be one of the most imperilled groups globally. Consequently, the number of captive breeding programmes has increased rapidly in recent years, coupled with subsequent reintroductions/population reinforcements to reverse these declines. The outcomes of mussel conservation translocations are seldom reported in the primary literature, hindering opportunities for learning and for population recovery at pace. Here, we describe the methods employed to carry out a successful conservation translocation of the freshwater pearl mussel (Margaritifera margaritifera) in a declining population in northwest England. Following a small-scale pilot release in 2017, four release sites were identified for a population reinforcement of over 1300 tagged mussels in 2021. Monitoring during 2022 showed high levels of retention of juveniles at three out of the four release sites, despite the occurrence of a significant flood event during October 2021. Subsequent releases of 1100 juveniles were carried out across the three successful sites in 2023. Ongoing and regular monitoring is essential in order to provide data on the longer-term fate of propagated juveniles in the wild. This will allow for adaptive management of release activities in this river. These data will be useful to design conservation translocation strategies for other imperilled pearl mussel populations in the UK and throughout Europe. [ABSTRACT FROM AUTHOR]

Published

2024

4. Thermal Tolerance and Vulnerability to Climate Change of a Threatened Freshwater Mussel.

Author

Wagner, Annekatrin, Linke, Daniel, Grunicke, Felix, and Berendonk, Thomas U.

Subjects

*CLIMATE change, *FRESHWATER mussels, *WATER temperature, *WINTER, *HIGH temperatures, *HOT weather conditions

Abstract

Freshwater pearl mussels (FPMs, Margaritifera margaritifera, Linnaeus, 1758) are endangered and particularly vulnerable to climate change. To create effective conservation strategies, we studied their thermal tolerance and the impact of elevated water temperatures on growth and survival. Our experiments included field mesocosm studies in five FPM-streams in the Vogtland region (Germany) (2016 to 2020), as well as laboratory experiments at temperatures ranging from 1 to 26 °C. Growth of juvenile FPMs increased significantly within a temperature gradient from 12 to 21 °C. In the streams, maximum growth was 8.9 µm/d in surface water and 6.5 µm/d in the interstitial. The upper thermal tolerance for the mussels ranged from 22.1 to 22.9 °C, resulting in low survival during hot summer periods in 2018 and 2019. Warming during winter (+5 °C) did not significantly affect growth and survival, but survival during winter increased with the pre-overwintering shell length. Exceeding a shell length of about 1100 µm in December indicating gill development corelated to 50% survival. Shell length in December is primarily controlled by growth depending on water temperatures during summer. These findings define the thermal niche of juvenile FPMs (average summer temperatures of 14.5–21 °C) and have implications for water management, conservation strategies, and site selection for releasing captive-breeding mussels. [ABSTRACT FROM AUTHOR]

Published

2024

5. Zn, Cu, Ni, Cd, and Pb in the foot tissue of freshwater pearl mussels from Green Belt rivers of Fennoscandia.

Author

Ieshko, Evgeny P., Murzina, Svetlana A., Khurtina, Svetlana N., Nikerova, Kseniya M., Efremov, Denis A., Ruch'yov, Mikhail A., Parshukov, Aleksey N., Sokolov, Sergey G., Repkina, Natalia S., Polikarpova, Natalia V., Terentjev, Petr M., Sandimirov, Sergey S., and Bernadskaya, Daria S.

Subjects

*FRESHWATER mussels, *COPPER, *GREENBELTS, *ENDANGERED species, *AQUATIC organisms, *TRACE elements

Abstract

Margaritifera margaritifera is a critically threatened species in Europe. Metal pollution may be one of the reasons for its decline, but the influence of this factor remains insufficiently studied. Zn, Cu, Ni, Cd, and Pb were determined in the foot tissue of the freshwater pearl mussel Margaritifera margaritifera (bivalvia, margaritiferidae) from Green Belt rivers of Fennoscandia [the Murmansk region (Kola Peninsula) and Karelia (northern part)] and the accumulation of the metals was shown to be variable; however, their levels in the molluscs, being quite long-lived aquatic organisms, do not exceed the established standards of the Russian Federation. The recorded levels of the metals in the foot tissue of the Margaritifera margaritifera can be considered indicators of the background levels of geologic and anthropogenic metal concentrations in the environment influencing the distribution and development of this protected species in the lake-river systems of the Green Belt of Fennoscandia. [ABSTRACT FROM AUTHOR]

Published

2023

6. Lipid Profile of the Freshwater Pearl Mussel Margaritifera margaritifera Inhabiting Different Biotopes of the Lake-River System of the Kem River, White Sea Basin.

Author

Pekkoeva, Svetlana N., Voronin, Viktor P., Ieshko, Evgeny P., Fokina, Natalia N., Efremov, Denis A., and Murzina, Svetlana A.

Subjects

*FRESHWATER mussels, *HIGH performance liquid chromatography, *WATERSHEDS, *ENVIRONMENTAL monitoring, *ENDANGERED species, *DOMOIC acid

Abstract

The freshwater pearl mussel Margaritifera margaritifera is considered to be the most rapidly declining species of freshwater bivalve, whereas its colonies in rivers of the White Sea Basin remain the most numerous in the world. The lipid profiles of mantle, muscle (foot), and digestive gland tissues of the freshwater pearl mussel from the Kem, Ukhta, and Vozhma Rivers in autumn (end of September, early October) were studied using high performance thin-layer chromatography. The highest total lipid [TL] content was found in the digestive gland. Cholesterol esters, non-esterified fatty acids, phospholipids, and cholesterol were the dominant lipids in all studied tissues. The reduced triacylglycerol content in the mussels was associated with its utilization during the spawning period. The colony of the freshwater pearl mussel inhabiting the Vozhma River was distinguished by higher TL content in the mantle and digestive gland. Data on the size-age characteristics of mollusks from the Kem, Ukhta, and Vozhma Rivers and the relationship between the structural and storage lipid content and size-age parameters are discussed. The results are important for different conservation strategies of endangered species, such as the freshwater pearl mussel, especially in ecological monitoring based on evaluation of the physiological and biochemical state of mollusks and rare natural colonies. [ABSTRACT FROM AUTHOR]

Published

2023

7. Neue Ansätze für naturbasierte Lösungen in Perlmuschelgewässern – eigendynamische Entsandung in einem physikalischen Modellversuch.

Author

Stelzer, Sophie, Worf, Dominik, Flödl, Peter, Sindelar, Christine, Höfler, Sarah, and Hauer, Christoph

Abstract

Copyright of Österreichische Wasser- und Abfallwirtschaft is the property of Springer Nature 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

2023

8. Genome-wide association analysis reveals genetic architecture of growth and inner shell color traits in freshwater pearl mussel Hyriopsis cumingii (Lea 1852).

Author

Wang, Zhiyan, Hu, Honghui, Wang, He, Yan, Ling, Zhang, Yao, Wang, Hao, Lv, Xuefeng, Li, Jiale, and Bai, Zhiyi

Subjects

*GENOME-wide association studies, *PHYSIOLOGY, *FRESHWATER mussels, *EPITHELIUM, *REGULATION of growth

Abstract

Triangle sail mussel (Hyriopsis cumingii , Lea 1852) is the most important freshwater pearl mussel in China. Growth traits of host mussels and inner shell color traits of donor mussels are critical determinants for pearl size and color. In this study, we performed GWAS analysis to explore the genetic architecture of growth and inner shell color traits. Using genotype by sequencing (GBS) technique, we obtained 80,562 SNPs from a total dataset of 463 mussels, based on these data, we found weak genetic relationship (−0.1–0.4) and rapid LD decay rate among the population. Moreover, GWAS analysis identified 12 growth-related significant SNPs and 29 inner shell color related significant SNPs. Five of the 12 SNPs linked to growth traits were validated to be credible SNPs in a new population. Cyclin , SNF , PMP22 , CPED1 , F-box and APC/C genes were found to be significantly associated with growth traits, which may influence the growth and development of H. cumingii by regulating cell mitosis, mantle epithelial tissue activity, and Ca2+ absorption and transport capacity. Notably, redness a* showed an obvious aggregation peak in chromosome 17, indicating that this region may be closely related to the inner shell color. Furthermore, three causal genes in chromosome 17, HSP78 , MAS and PKS are inferred to be the key genes on color formation of purple inner shell. These results provide some new insights into the genetic basis and physiological regulation mechanism of growth and inner shell color traits in H. cumingii. However, detailed functional identification and regulation mechanism analysis merits more investigation. • The first genome-wide association study (GWAS) for growth and inner shell color traits in freshwater pearl mussel. • 12 growth-related significant SNPs and 29 inner shell color related significant SNPs were detected. • Five SNPs were validated to be credible SNPs for growth traits. • Candidate genes PKS and MAS are closely related to purple inner shell color. [ABSTRACT FROM AUTHOR]

Published

2025

9. The parasitic travel of Margaritifera margaritifera in Atlantic salmon gills: from glochidium to post-larva

Author

P.A. Castrillo, R. Bermúdez, C. Varela-Dopico, M.I. Quiroga, and P. Ondina

Subjects

Freshwater Pearl Mussel, Larval development, Glochidium, Mushroom body, Byssal gland, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The larval development of the endangered freshwater mussel Margaritifera margaritifera (L.) represents one of the most unique parasitism among naiads, in which larva parasite the fish gills for several months. Despite the importance of this parasitic phase to successfully culture the freshwater mussel, the larval morphogenesis remains understudied. To describe the parasitic larval development and metamorphosis, Atlantic salmon (Salmo salar L.) were exposed to glochidia, sampled periodically to visualize the gills by stereomicroscopy and light microscopy and results were summarized throughout three developmental stages. Once attached to the fish gills, glochidia changed their morphology within the first days and acquired an intermediate stage termed mushroom larva due to the presence of the mushroom body and the zip membrane, both structures are transitory and distinctive of this long-lasting parasitism. The zip membrane, located at the valve cleft, may play a unique role in the isolation and acquisition of non-particulate nutrients from the fish, while the mushroom body of the mantle accumulates abundant intracytoplasmic lipid droplets. After 200 days, a successful metamorphosis was evidenced by the formation of a complete set of post-larval organs, pointing to the acquisition of different functionality, which will be essential for the settlement and deposit-feeding into the riverbed. Among the post-larval organs, the byssal complex of the post-larval foot was described for the first time at the end of the parasitic stage of naiads. In conclusion, this study provides an overview of the larval morphogenesis of M. margaritifera, from glochidium to post-larva, essential for understanding the parasitic interaction between the freshwater mussel larva and the fish host. Moreover, the morphological techniques and the hallmarks described might be applicable to optimize and monitor the larval developmental status during one of the most critical stages of the captive breeding programmes of endangered freshwater mussels.

Published

2022

10. A StAR‐like gene involved in carotenoid metabolism and inner shell color in the freshwater pearl mussel, Hyriopsis cumingii.

Author

Zhang, Jinpan, Guo, Baiying, Zhang, Mengying, Li, Jiale, and Bai, Zhiyi

Subjects

FRESHWATER mussels, SEASHELLS, CAROTENOIDS, AMINO acid residues, IN situ hybridization, METABOLISM

Abstract

Carotenoids play key roles in organism coloration and have been found to have an effect on shell color. Steroidogenic acute regulatory protein‐like (StAR‐like) is a key gene involved in the accumulation of carotenoids. In this study, the full‐length cDNA sequence of HcStAR‐like, containing 994 nucleotides with an open reading frame encoding 307 amino acid residues, was isolated from the freshwater pearl mussel, Hyriopsis cumingii. HcStAR‐like expression levels were significantly higher in all tissues examined in golden (G‐) mussels compared with white (W‐) and purple (P‐) mussels (p <.05). Moreover, although HcStAR‐like expression levels were higher in P‐mussels than W‐mussels, this difference was only significant in the hepatopancreas (p <.05). Our in situ hybridization assay indicated that StAR‐like was localized to the outer fold of the mantle and the joint of the outer and middle folds of the mantle. The dsRNA interference of HcStAR‐like expression in G‐mussels was effective with an interference rate of 79.89% (p <.05). The total carotenoid content (TCC) in the mantle of the RNAi group decreased by 48.63% (p <.05). Our findings suggested that HcStAR‐like was involved in the accumulation of carotenoids and inner shell pigmentation in H. cumingii. [ABSTRACT FROM AUTHOR]

Published

2022

11. Effect of low dissolved oxygen on the viability of juvenile Margaritifera margaritifera: Hypoxia tolerance ex situ.

Author

Hyvärinen, Heini S.H., Sjönberg, Tuomo, Marjomäki, Timo J., and Taskinen, Jouni

Subjects

DISSOLVED oxygen in water, HYPOXIA (Water), FRESHWATER mussels, OXYGEN, WILDLIFE conservation, HYPOXEMIA, OPTICAL measurements

Abstract

The decline of endangered freshwater pearl mussel (FPM, Margaritifera margaritifera) has been attributed to juvenile mortality caused by low concentrations of dissolved oxygen in the stream substrate resulting from fine sediments (siltation) that impede water exchange in the interstitial microhabitat of juveniles.If low oxygen concentration causes recruitment failure of FPMs, knowledge on the oxygen tolerance of juvenile FPMs is essential for the conservation of the species, as it will justify conservation efforts improving water exchange in the bottom gravel. However, the tolerance of low oxygen of FPM juveniles has not been directly studied.Juvenile FPMs (9–11 months old) were exposed in individual chambers equipped with optical oxygen measurement spots to different levels of dissolved oxygen at 19 °C and their viability was monitored for 10 days to assess the acute oxygen tolerance of juvenile FPMs. Oxygen concentration ranged between 8.8 and 6.2 mg L−1 in the high oxygen treatment (control), 5.0–0.4 mg L−1 in the medium treatment, and 1.3–0.04 mg L−1 in the low oxygen treatment (near‐anoxic conditions).Viability of juvenile FPMs depended on the concentration of available dissolved oxygen, such that all juveniles exposed to near‐anoxic conditions were classified as non‐viable, whereas all mussels exposed to high and medium concentrations were viable at the end of the 10 day experiment. Juveniles differed in their ability to tolerate near‐anoxic conditions, so that some individuals survived only 1 day and others survived up to 9 days.This study provides the first direct experimental evidence on the oxygen sensitivity of FPM juveniles and suggests that >10‐day events of very low dissolved oxygen at summer temperatures are fatal to juvenile FPMs, supporting the view that actions preventing low oxygen episodes in the substrate are essential for recruitment, and conservation, of FPMs. [ABSTRACT FROM AUTHOR]

Published

2022

12. Changing flood frequency in Scotland : implications for channel geomorphology, ecology and management

Author

Thompson, Fiona Hilary

Subjects

551.48, climate change, freshwater pearl mussel, channel stability, stream power

Abstract

The effect of climate on the fluvial system has long been investigated due the significant impact it can have on a river’s hydrological regime and fluvial processes. In recent years this interest has increased as global changes in climate are expected to bring more frequent high magnitude flood events globally and to North West Europe in particular. Despite the knowledge that the frequency and magnitude of floods is to increase, less is known about the geomorphological implications of this for river channels and where channel instability is likely to occur at both the river network and national scale. This is certainly the case in Scotland where increased flooding is expected and large floods have been abundant over the last two decades. To manage Scottish river catchments effectively in the future, in terms of hazard mitigation and nature conservation, river managers need to be able to predict not only how climate will impact flood magnitude and frequency in Scotland but the effect these changes will have on the internal dynamics of river channels in terms of erosion, sediment transport and deposition, and morphological dynamics. Such knowledge will ensure adequate measures are implemented to reduce fluvial risks to humans and to maintain and preserve valuable river habitats and linked species. In this thesis, several novel methods incorporating field, laboratory and GIS-based analysis, have been investigated as a means of predicting how climate change will affect channel stability in Scottish rivers and the implications of this for river management and river ecology. This includes (i) analysing the potential change in the frequency of geomorphologically-active flood flows with climate change; (ii) the use of stream power thresholds to predict changes in channel stability on a national scale with climate change; and (iii) using a Digital River Network developed using geospatial data to predict changes in the rate of bedload transfer and channel stability with climate change. Studies were undertaken on 13 different rivers across Scotland from north to south and east to west. vii As a case study of ecological implications, the thesis also examines how changes in habitat and stability of freshwater pearl mussels (Margaritifera margaritifera) may be altered by increased flooding. Predictions of the frequency of geomorphic activity, channel stability, rate of bedload transfer, and the stability of freshwater pearl mussel habitat with climate change are discussed along with the methods used to obtain these outcomes. The results all suggest an increase in the frequency and rate at which bedload is transferred through the river system and an increased frequency of flood flows resulting in greater channel instability. Morphological responses vary spatially with some river reaches experiencing greater increased erosion and transport potential than others. Climate change effects on the freshwater pearl mussel are: increased occasions of disturbance and transport downstream and the importance of specific populations in more stable environments for ensuring population recovery post flooding is highlighted. It is hoped that the methodologies developed for predicting changes in channel stability with climate change will provide useful screening tools to regulatory agencies which can be developed further to assist management decisions in the future which aim to reduce fluvial hazards and maintain good quality river environments for the species that inhabit it. The approaches used in this study allow for the identification of areas at high risk of morphological and ecological change, and the pro-active planning and management of sediment-related river management issues and nature conservation.

Published

2017

13. 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

14. Ecology of Margaritifera margaritifera (Bivalvia, Margaritiferidae) in the River Kamennaya, White Sea Basin, Russia

Author

Alexey A. Zotin, Svetlana A. Murzina, Denis A. Efremov, Panu Oulasvirta, and Evgeny P. Ieshko

Subjects

atlantic salmon, endangered species conservation, freshwater pearl mussel, glochidia, growth, infection, salmo salar, Geography. Anthropology. Recreation

Abstract

The conditions for cohabitation of juvenile Salmo salar and Margaritifera margaritifera in the River Kamennaya (River Kem catchment, White Sea drainage basin, Russia) were studied. The M. margaritifera population in the River Kamennaya contains about 1000 specimens. The only intermediate host capable of sustaining the existence of this rare North European mussel is the juvenile S. salar. In this study, we investigated a set of parameters and processes to get a more comprehensive insight into the ecology of the M. margaritifera. One of such parameters is the individual linear growth, which was investigated in freshwater mussels from the River Kamennaya. Growth deceleration coefficients varied widely and differed significantly among specimens. The population-averaged coefficient of growth deceleration was 0.076. The growth of mussels in the River Kamennaya involves three regular biorhythms with the following periods: 11.5, 6.4 and 4.0 years. The biorhythm periods were roughly constant both through an individual's ontogeny and among different individuals. A comparison of our results with data on other M. margaritifera populations in the Republic of Karelia and the Murmansk Region reveals a reliable (p < 0.01) negative correlation between growth deceleration coefficients and mean annual temperature in the M. margaritifera habitat. The abundance, spatial distribution and age structure of juvenile S. salar and M. margaritifera are presented. The rates of glochidial infection in S. salar juveniles at different ages were estimated. The developmental stages and the status of glochidia encysted on juvenile S. salar gills were observed and described using histological methods. The results of this study will be used to suggest activities and measures aimed to preserve populations of M. margaritifera and S. salar in the River Kamennaya, primarily to promote juvenile S. salar numbers and M. margaritifera settlement in rapids with a high density of young individuals.

Published

2021

15. Collective space : revitalization of the Senne river through collective intelligences

Author

Rieder, Julian René and Rieder, Julian René

Abstract

Wasser, eine lebenswichtige Ressource, steht aufgrund der jahrhundertelangen, weltweiten Verschmutzung durch den Menschen vor noch nie dagewesenen Herausforderungen. Diese weit verbreitete Verschmutzung hat zur Zerstörung der biologischen Vielfalt, zur Verarmung der aquatischen Ökosysteme und zur Kontaminierung der Nahrungskette für Tiere und Menschen geführt. Die Senne, die durch Brüssel, Belgien, fließt, hat unter der jahrhundertelangen, vom Menschen verursachten Wasserverschmutzung gelitten, was zu ihrem biologischen Tod und ihrer Eingeschlossenheit in unterirdischen Tunneln aufgrund von historischen Überschwemmungen und Krankheitsausbrüchen führte. Dieses spekulative Projekt zielt darauf ab, dem Fluss Senne neues Leben einzuhauchen, indem es ihn wieder an die Oberfläche bringt und ein synthetisches, urbanes Ökosystem schafft. Um das Wiederaufleben des Lebens zu erleichtern, muss das Wasser des Flusses von anthropogenen Verunreinigungen und Toxinen gereinigt werden. Im Rahmen dieses Projekts wird die Einführung der Süßwasserperlmuschel, einer Muschelart mit Filterfunktion, als hydrologischer Biofilter vorgeschlagen. Diese Muscheln filtern als "Schirmspezies" verschmutztes Wasser und reichern Schadstoffe in ihren Schalen und Ausscheidungen an. Diese Ökosystemleistung bildet die Grundlage für eine hochwertige Umwelt für Wasserlebewesen und wasserbezogene Arten. Ein umfassendes Verständnis des Verhaltens von Süßwassermuscheln wird durch eine Langzeitstudie gewonnen, bei der drei Exemplare gefilmt und ihre Schalen mikroskopisch untersucht werden. Das "generative adversarial network" StyleGAN wird zum Training auf Muschelschalenstrukturen eingesetzt, um eine morphologische Oberfläche für das Flussbett zu erstellen. Diese künstliche Intelligenz interpretiert Bildeingaben und erzeugt digitale Oberflächen, die die Grundlage für die neue Umgebung der Muschel bilden. Diese neu entstehende synthetische Stadtlandschaft bietet nicht nur optimale Bedingungen für Muscheln, sond, Water, an essential resource for all life, faces unprecedented challenges due to centuries of human-induced pollution on a global scale. This widespread pollution has led to the destruction of biodiversity, depletion of aquatic ecosystems, and contamination of the food chain for both animals and humans. The Senne River, flowing through Brussels, Belgium, has suffered from centuries of human-driven water pollution, resulting in its biological death and confinement to subterranean tunnels due to historical flooding and disease outbreaks. This speculative project aims to breathe new life into the Senne River by bringing it back to the surface and creating a synthetic, urban ecosystem. To facilitate life's resurgence, the river's water must be cleansed of anthropogenic contaminants and toxins. This project proposes the introduction of the Freshwater Pearl Mussel, a bivalve filter-feeding species, as a hydrological biofilter. Acting as an "umbrella species," these mussels filter polluted water, accumulating contaminants in their shells and feces. This ecosystem service lays the groundwork for a high-quality environment for aquatic life and water-related species. A comprehensive understanding of Freshwater Mussel behavior is obtained through a long-term study, including the filming of three specimens, alongside microscopic examinations of their shells. The generative adversarial network, StyleGAN, is employed to train on mussel shell structures, establishing a morphological surface for the riverbed. This artificial intelligence interprets image inputs, generating digital surfaces that form the foundation for the mussel's new environment. This emerging synthetic urban landscape not only provides optimal conditions for mussels but also holds significance for various water-related entities, including the human population of Brussels. The project aims to redefine the river's ecological, social, and cultural importance, altering its ecosystematic significance and fostering rec, Julian Rieder, Masterarbeit Universität Innsbruck 2024

Published

2024

16. Prediction of potential freshwater pearl mussel habitat aids in discovery of a large population of Margaritifera laevis in Iturup Island, Russia.

Subjects

FRESHWATER mussels, FRESHWATER habitats, ISLANDS, MUSSELS, STREAMFLOW, HABITATS, PERNA, SALMON fishing

Abstract

Freshwater pearl mussels (family Margaritiferidae) are sensitive to human impact and environmental changes. Large declines in their abundance have prompted studies of distribution and estimations of population densities.Iturup Island, a part of Kuril Islands, Russia, is considered to be within the distribution area of freshwater pearl mussels, but this information is based on only two specimens collected several decades ago. Detailed survey of the island is challenging as most of its territory is nearly impassable.A preliminary analysis of island rivers was carried out prior to the surveys to discover potential freshwater pearl mussel habitats. Based on previous experience from European Russia, freshwater pearl mussel habitat was expected to occur in rivers flowing out of lowland lakes.Live individuals of Margaritifera laevis were found during surveys in one river together with the unionid Beringiana beringiana, which were also found in two other rivers where the predicted habitat occurred. Based on prediction and surveys, the occurrence of freshwater pearl mussels in other rivers of Iturup Island is unlikely.Pearl mussels were concentrated in a small section of the Zmeika River with a population of about 100,000 mussels. Present threats to the population include overharvest of host fish masou salmon (Oncorhynchus masou).Surveys using similar methods can help to reveal unknown freshwater mussel populations on other Kuril Islands and on the mainland. [ABSTRACT FROM AUTHOR]

Published

2021

17. Increased sediment deposition triggered by climate change impacts freshwater pearl mussel habitats and metapopulations.

Author

Baldan, Damiano, Kiesel, Jens, Hauer, Christoph, Jähnig, Sonja C., and Hein, Thomas

Subjects

*SEDIMENTATION & deposition, *FRESHWATER mussels, *CLIMATE change models, *CLIMATE change, *HABITATS, *HABITAT conservation, *FISH conservation

Abstract

The freshwater pearl mussel Margaritifera margaritifera is a benthic organism sensitive to hydrological regime alterations and habitat degradation driven by excessive fine bed material deposit (FBMD). Both issues are potentially exacerbated by climate change. Understanding how climate change affects future mussel habitats and the dispersal among them (dependent on the brown trout as fish host) can support the planning of effective conservation actions.To project the impacts of climate change on the mussel, a semi‐mechanistic modelling cascade was implemented for the Aist catchment in Austria (630 km2), including a hydrological model, a hydraulic model, Random Forest Models for FBMD accumulation risk and Species Distribution Models. Two climate change models (RCPs 4.5 and 8.5) for two future horizons (2060 and 2090) were considered. A graph‐based assessment of the structural connectivity was used to measure the probability of successful dispersal.Results show a reduction of peak discharge that cascades into a widespread reduction in shear stresses during high flow. The mussel's habitats, defined by hydraulics (i.e. patches with low shear stresses during high flow), are predicted to be stable over the simulated scenarios.The pressure of FBMDs over the delineated habitat patches is predicted to increase in the future due to the reduced stream transport capacity, reducing up to 25% of the available patches in 2090 for RCP 8.5. Consequently, the mussel's dispersal probability decreases to 44.3%–75.6% of the maximum theoretical value, with the highest drops for short dispersal distances, impacting metapopulation dynamics.Synthesis and applications. The widespread issue of fine sediment deposition in the streambed will be exacerbated for those catchments where climate change reduces the stream transport capacity. The impacts on the freshwater pearl mussel include habitat loss due to the formation of a new unsuitable substrate, and a decrease in the potential dispersal among the residual habitats. Thus, conservation plans that aim to protect the mussel in the future should focus on the mitigation of fine bed material deposits, prioritizing those subreaches that offer the highest potential for preserving connectivity among suitable habitats. [ABSTRACT FROM AUTHOR]

Published

2021

18. Morphopathology and gill recovery of Atlantic salmon during the parasitic detachment of Margaritifera margaritifera.

Author

Castrillo, Pedro A., Varela‐Dopico, Catuxa, Bermúdez, Roberto, Ondina, Paz, and Quiroga, María Isabel

Subjects

*ATLANTIC salmon, *GILLS, *FRESHWATER mussels, *SCANNING electron microscopy, *FISH morphology

Abstract

During the conservation aquaculture of the freshwater mussel Margaritifera margaritifera, fish health has become a concern due to the need of mussel larvae (glochidia) to parasitize the salmonid gills and metamorphose into juveniles. However, there is a lack of information about the impact on fish during the juvenile detachment and the subsequent gill healing. To evaluate the morphopathological changes and gill recovery after the parasitism of M. margaritifera, 51 Atlantic salmon fry (Salmo salar), infested with around 22 larvae/fish g, were necropsied during the synchronized detachment of the mussel juveniles, and gills were assessed by stereomicroscopy and by light and scanning electron microscopy. Salmon showed no clinical signs during the trial and gills recovered their normal morphology almost completely in a short time, suggesting a minimal impact on fish health after glochidiosis. In this sense, the non‐erosive droplet detachment and the goblet cell hyperplasia favoured an effective gill remodelling mediated by apoptosis, polarization and cell shedding of the gill epithelia, providing insights to the defence, clearing and healing mechanisms of the gill. These morphopathological techniques could also be implemented to preserve fish welfare and to optimize the artificial breeding programmes of endangered freshwater mussels. [ABSTRACT FROM AUTHOR]

Published

2021

19. Pulsed flow-through cultivation of Margaritifera margaritifera: Effects of water source and food quantity on the survival and growth of juveniles.

Author

Hyvärinen, Heini S. H., Chowdhury, M. Motiur R., and Taskinen, Jouni

Subjects

*DRINKING water, *SURVIVAL rate, *WELL water, *FRESHWATER mussels, *POPULAR culture

Abstract

Conservation of the endangered freshwater pearl mussel (FPM) includes artificially rearing juveniles, but the pulsed flow-through (PFT) method, enabling the continuous renewal of water and food in culture containers, has not been applied to FPM. This study tested the PFT method in culture of FPM juveniles, and the effect of water source (tap vs well water) and food concentration (mixture of commercial phytoplankton products) on the survival and growth of juveniles. Beaker-specific survival rates varied from 0 to 100% (mean: 34%) and from 0 to 58% (mean: 16%) in the 1st (2-week) and 2nd (10-week) experiment, respectively. In the 1st experiment, juveniles attained statistically significantly bigger sizes and more than two times higher survival in well water than they did in tap water. In both experiments, the food concentration of 0.250 µl/l resulted in the highest survival (compared to other concentrations ranging from 0.125 to 0.500 µl/l). However, food concentration did not have a significant effect on size of juvenile FPM in either of the experiments. Results indicate that the PFT system is suitable for FPM rearing experiments, but its applicability to mass culture of FPM juveniles requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2021

20. 淡水珍珠蚌循环水养殖模式下分布式水质监控系统设计.

Author

张 刚, 胡洋洋, 韩祥兰, 王 振, and 陈跃华

Subjects

*WATER quality monitoring, *AQUACULTURE, *WIRELESS sensor networks, *SAND filtration (Water purification), *WATER quality, *CLIENT/SERVER computing equipment

Abstract

In China, the freshwater pearl mussel aquaculture plays an important role in agricultural production. The freshwater pearl mussel’s growth process does not harm the environment, but the traditional aquaculture model has caused problems such as serious water pollution, eutrophication, and ecological environment destruction. Facing such a situation, it’s necessary to develop a new model for freshwater pearl aquaculture. This study showed a new industrialized circulating water aquaculture model (using multi-layer dimensional cages and feed pearl mussel with high-quality microalgae). Due to the high density of aquaculture, this model had very high requirements for water quality, so it was particularly important to monitor the circulating water quality. This study developed a distributed monitoring system for the water quality monitoring based on ZigBee wireless sensor network. The system used the three-layer architecture of the field sensing layer, transmission layer and application layer, and mainly included the following 4 parts: water quality monitoring subsystem, meteorological monitoring subsystem, equipment control subsystem, and monitoring data center. The system used the ZigBee module to set up the wireless transmission network, the advantage of this method was flexible networking and easy operation, and it simplified the installation and maintenance work. In the field scene, we set up multiple monitoring points in different places, multi-parameter water quality sensors were used to monitor key circulating water quality parameters (including temperature, pH value, dissolved oxygen, ammonia nitrogen, calcium concentration, and algae concentration), and meteorological parameters (such as temperature, humidity, barometric pressure, illumination, wind direction, and wind speed) were collected at meteorological station. All the sensors sent real-time detection data to their related ZigBee routers by RS485 protocol, and through the ZigBee wireless communication network, the data (including water quality and meteorological parameters) would be gathered in the ZigBee coordinator. The ZigBee coordinator was the center of the wireless communication network, it was also connected to the PLC controller by RS485 protocol, so the PLC controller could collect real-time detection data from basic monitoring points. At the same time, the PLC controller and MCGS touch screen communicated through the serial port, so the water quality and meteorological parameters monitoring information could be displayed on the MCGS touch screen. According to the designed procedure, the MCGS touch screen displayed the water quality data change curve, and users could also issue equipment control commands at the screen, such as controlling the circulating water treatment equipment (including arc screen separator, microfiltration filter, protein separator, sand filter, and disinfection pool) and the algae feeding system device. By using the PLC controller, the study designed a program to control the start and stop status of aquaculture equipment and adopted a two-position control strategy for the algae feeding system. Besides, the PLC controller communicated with the host computer via the CP243-1 Ethernet communication module, so all the monitoring data was uploaded to the host computer in the monitoring center house. On the host computer, MCGS (network version) software and SQL Server database software were used to build a database to save the water quality data, and this database could provide a decision basis for scientific aquaculture. Through the practical test, the communication success rate of the whole system was more than 98%, and the average relative errors of dissolved oxygen, temperature, pH, and ammonia nitrogen were ±0.3 mg/L, ±0.4 ℃, ±0.3 and ±0.04 mg/L, respectively. It could be seen that this system met the monitoring needs of freshwater pearl mussel aquaculture. This system was conducive to solve the previous shortcomings and ensure the growth of production, it was very worthy of promotion and application, and it would open up a new situation for the establishment of a new environment-friendly and efficient aquaculture mode of freshwater pearl mussel. [ABSTRACT FROM AUTHOR]

Published

2020

21. Agriculture and Forestry

Author

Govorushko, Sergey and Govorushko, Sergey

Published

2016

22. Early stages of Margaritifera margaritifera glochidiosis in Atlantic salmon: Morphopathological characterization.

Author

Castrillo, Pedro A., Varela‐Dopico, Catuxa, Ondina, Paz, Quiroga, María Isabel, and Bermúdez, Roberto

Subjects

*FRESHWATER mussels, *ATLANTIC salmon, *PARASITIC diseases, *ENDANGERED species, *MICROSCOPY, *PATHOLOGY, *FISH anatomy

Abstract

Freshwater mussels of the order Unionida encyst into the fish mucosa to metamorphose and complete their life cycle, causing a parasitic disease known as glochidiosis. This parasitic stage represents a bottleneck for the survival of naiads, particularly for critically endangered species as Margaritifera margaritifera; however, little is known about the events occurring during this critical stage. Therefore, this study aimed to histologically characterize the development of M. margaritifera glochidiosis in Atlantic salmon to get insight into the pathogenesis of this interaction. Fish exposed to glochidia were sampled during the first 44 days post‐exposure, and organs were observed by stereomicroscopy and light microscopy. Glochidia attached to the gills by pinching the lamellar epithelium, whereupon an acute proliferative branchitis engulfed most of the larvae. However, during the first 14 days, a severe detachment of unviable glochidia occurred, associated with the presence of pleomorphic inflammatory infiltrate and epithelial degeneration. In the cases where larvae remained attached, a chronification of the lesions with none to scarce inflammation was observed. These results provide key information to better understand the complex host–parasite interaction during the early stages of glochidiosis and provide valuable information to optimize artificial rearing of naiads in conservation of threatened freshwater mussel populations. [ABSTRACT FROM AUTHOR]

Published

2020

23. The sources and dynamics of fine-grained sediment degrading the Freshwater Pearl Mussel (Margaritifera margaritifera) beds of the River Torridge, Devon, UK.

Author

Pulley, S., Goubet, A., Moser, I., Browning, S., and Collins, A.L.

Abstract

Abstract The Freshwater Pearl Mussel (Margaritifera margaritifera) is an endangered organism across its entire range. It has a complex life cycle and stringent habitat requirements and is therefore an indicator species for the general ecosystem health of host rivers. Whereas historical intensive pearl fishing contributed to population declines, excess nutrient and sediment loss associated with current land use pressures in host river catchments, including modern intensive farming practices, are now highlighted as primary contributory factors. Accordingly, this study investigated the sources and dynamics of fine-grained sediment sampled in the mussel beds of the River Torridge, SW England. Sediment source fingerprinting using a combination of colorimetric and radiometric tracers to construct different composite signatures revealed the importance of roads both as a sediment source and delivery pathway for fine-grained sediment mobilised from fields predominantly supporting lowland livestock farming. Grassland fields with evidence of soil poaching were highlighted as important sediment sources, but equally, riparian woodland was also identified as important, especially during the latter stages of consecutive runoff events when its rainfall buffering capacity was exceeded. Bed sediment storage levels (median up to 393 g m−2) were found to be low (41st percentile) compared to typical values reported by a recent strategic scale survey across England and Wales, whereas elevated turbidity peaks were shown to be long duration (days) in conjunction with consecutive days of rainfall and corresponding runoff events. Hysteresis patterns varied but were generally clockwise during the largest runoff events associated with consecutive rain days; again, suggesting mobilisation of sediment from proximal woodland sources following exceedance of rainfall buffering capacity. In combination, the data assembled by this study provides a basis for planning sediment control measures for protecting the Freshwater Pearl Mussel (FPM) beds from excessive fine-grained sediment inputs associated with the intensive use of primarily grazing land. Graphical abstract Unlabelled Image Highlights • Fine sediment is degrading Freshwater Pearl Mussel habitats in the River Torridge. • Roads, woodland, channel banks and agriculture were all major sediment sources. • Bank erosion contributed more to bed sediment than suspended sediment. • Turbidity was high in storm events and dominant sediment sources change over time. • High turbidity peaks were elongated in duration. [ABSTRACT FROM AUTHOR]

Published

2019

24. Production performance of largemouth bass Micropterus salmoides and water quality variation in monoculture, polyculture and integrated culture.

Author

Li, Yunmeng, Wang, Yan, Qin, Jianguang, and Zheng, Xiafei

Subjects

*LARGEMOUTH bass, *GOLDFISH, *SILVER carp, *AQUACULTURE, *FRESHWATER mussels, *AMMONIA

Abstract

A 74‐day experiment was conducted to evaluate the production performance and water quality variation in three types of farming system for largemouth bass Micropterus salmoides. The tested aquaculture models included monoculture of largemouth bass (MC), polyculture of largemouth bass, gibel carp Carassius auratus gibelio and silver carp Hypophthalmichthys molitrix (PC), and integrated culture of largemouth bass, gibel carp, silver carp and freshwater pearl mussel Hyriopsis cumingii (IC). The ratio of largemouth bass, gibel carp and silver carp was 30:2:1 in the PC model, and the ratio of largemouth bass, gibel carp, silver carp and mussel was 30:2:1:5 in the IC model. The largemouth bass were fed with formulated feed twice daily. No significant differences were found in weight gain and yield of largemouth bass, total fish yield, nitrogen (N) and phosphorus (P) utilization efficiencies, N and P wastes, pH, nitrite, nitrate, reactive phosphate, total nitrogen, total phosphorus, total organic carbon, chemical oxygen demand, 5‐day biochemical oxygen demand, chlorophyll a, primary productivity among the MC, PC and IC models. The ammonia was lower, while the dissolved oxygen was higher in the PC tanks than in the MC tanks. These results suggest that the environment situation was better in the PC tanks relative to that in the MC tanks. The present study reveals that the PC model should be a way to optimize the aquaculture model for commercial largemouth bass farming. [ABSTRACT FROM AUTHOR]

Published

2019

25. Evaluering av habitatkvalitet for ung elvemusling (Margaritifera margaritifera) i Oslo og Viken. Redoksmålinger fra Nitelva i 2018 og 2021, med tidsserier fra Askerelva og Sognsvannsbekken

Author

Magerøy, Jon Hamner

Subjects

habitatkvalitet, elvemusling, Margaritifera margaritifera, habitat quality, redokspotensial, freshwater pearl mussel, bevaringstiltak, conservation measures, ungmuslinger, redox potential

Abstract

Magerøy, J.H. 2023. Evaluering av habitatkvalitet for ung elvemusling (Margaritifera margaritifera) i Oslo og Viken. Redoksmålinger fra Nitelva i 2018 og 2021, med tidsserier fra Askerelva og Sognsvannsbekken. NINA Rapport 2121. Norsk institutt for naturforskning. De største truslene mot elvemusling (Margaritifera margaritifera) er endringer i miljøet som fører til reduksjon/tap av rekruttering. Én av hovedgrunnene til manglende rekruttering er økt eutrofiering og tilslamming av substratet, med påfølgende reduksjon i oksygennivået. Dette fører til økt eller total dødelighet i muslingenes første par leveår, siden ungmuslinger lever nedgravd i substratet. I Oslo og Viken fylker sliter mange av muslingbestandene med lav eller ingen rekruttering. Derfor er det gjennomført flere tiltak for å forbedre statusen til disse bestandene. På tross av dette, vet man relativt lite om årsakene til den reduserte overlevelsen av ungmuslinger. For å evaluere oksygennivået i substratet og habitatkvaliteten for ungmuslinger, ble det i 2021 gjennomført redoksmålinger i tre vassdrag i de to fylkene. Dette vil bidra til å forstå hvorfor rekrutteringen svikter og hvilke tiltak som er nødvendige for å øke denne. I Nitelva viser redoksmålinger fra 2021 at habitatkvaliteten innenfor utbredelsesområdet til elvemusling i bekken er god i et «normalår», mens målinger fra 2018 viser at habitatkvaliteten er moderat i et år med svært lite nedbør og høy temperatur. Det var likevel stor variasjon i habitatkvaliteten mellom målestasjonene, og selv i 2021 var den for dårlig ved flere av stasjonene. Den gode habitatkvaliteten i et «normalår» er overraskende, siden undersøkelser fra 2001 til 2012 og i 2020 viser at rekrutteringen av muslinger i elven er begrenset. Det tyder på at det er andre faktorer enn habitatkvaliteten som er hovedårsakene til at rekrutteringen er lav. Manglende tilgang på vertsfisk (ørret) og negativ påvirkning fra kraftverk er sannsynlige årsaker til dette, selv om økt eutrofiering og tilslamming av substratet nok bidrar til redusert rekruttering ved flere av stasjonene. For å bedre forholdene for muslingen bør det gjennomføres tiltak knyttet til bl.a. biotopforbedring for ørret, redusert stopp-start kjøring (effektkjøring) av vannkraftverkene, reduksjon av avrenning fra jordbruket og redusert tilførsel av næringsstoffer fra kloakk. I Askerelva og Sognsvannsbekken ble tidsserier med redoksmålinger fra 2017 til 2020 videreført i 2021. Som i 2017-2019, men i motsetning til 2020, ble det gjennomført én målerunde ved hver av stasjonene i løpet av året. Tidsseriene viser at det kan være stor variasjon i redokspotensialet mellom år ved de samme stasjonene, men at det også kan være noe variasjon innad i et år. Nedbør- og temperaturdata fra periodene før målingene tyder på at: 1. Mye nedbør i 2017 og 2020 resulterte i relativt høyt redokspotensial. 2. Svært lite nedbør og høy lufttemperatur i 2018 resulterte i svært lavt redokspotensial. 3. Litt lite nedbør og noe høy temperatur i 2019 og høy temperatur, men også mye nedbør, i 2021 resulterte i redokspotensial noe under det man kan forvente i et «normalår». Relativt liten forskjell i redokspotensial mellom juli og august 2020 tyder på at redokspotensialet påvirkes av miljøforholdene i en lengre periode før undersøkelsene gjennomføres. Basert på tidsseriene kan man vurdere hvordan forskjeller i nedbør og lufttemperatur er forventet å påvirke redokspotensialet også i andre vassdrag. Selv om én av hovedårsakene til manglende rekruttering i elvemuslingbestander er redusert oksygentilgang i substratet pga. økt næringstilførsel og nedslamming av substratet, så tyder ikke resultatene på at dette er tilfellet i Nitelva. Der er nok mangel på vertsfisk og påvirkning fra kraftverk minst like viktige årsaker til den reduserte rekrutteringen. Tidsseriene fra Askerelva og Sognsvannsbekken er viktige for å kunne vurdere om redokspotensialet som måles i et gitt år er representativt for de dårligste forholdene man kan forvente i løpet av et «normalår». Dette gjelder også for målingene i Nitelva. Magerøy, J.H. 2023. Evaluation of habitat quality for juvenile freshwater pearl mussels (Margaritifera margaritifera) in Oslo and Viken Counties. Redox measurements from the Nitelva River in 2018 and 2021, with time series from the Askerelva River and Sognsvannsbekken Stream. NINA Report 2121. Norwegian Institute for Nature Research. The greatest threats against the freshwater pearl mussel (Margaritifera margaritifera) are environmental changes resulting in reduced juvenile mussel recruitment. One main cause of this reduction is increased eutrophication and siltation, resulting in reduced oxygen levels in the substrate. This leads to increased or total mortality among juvenile mussels, since the juveniles live buried in the substrate. In Oslo and Viken Counties, many populations have reduced or no recruitment. Thus, measures have been taken to improve the status of these populations. However, relatively little is known about the causes of the reduced survival of juvenile mussels. To evaluate the oxygen levels in the substrate and habitat quality for juvenile mussels, redox measurements were undertaken in three watercourses in the two counties in 2021. This will contribute to understanding why recruitment is failing and the measures necessary to increase recruitment. In Nitelva, the redox measurements in 2021 show that the habitat quality within the mussel distribution area is good in a «typical» year, but the measurements from 2018 show that the habitat quality is moderate in a year with very limited precipitation and high temperatures. However, there was substantial variation between redox stations and even in 2021 it was insufficient at several stations. The good habitat quality in a «typical» year is surprising, since surveys from 2001 to 2012 and in 2020 show that the recruitment of mussels is limited in the river. This indicates that there are factors, other than habitat quality, that are the main causes of the low recruitment. Low densities of host fish (brown trout) and negative impacts from hydropower plants are likely causes of the low recruitment. However, increased eutrophication and siltation probably contributes to reduced recruitment at several of the stations. To improve the conditions for the mussel, management actions should be taken to improve habitat for trout, reduce pulse flows from hydropower dams, reduce runoff from farmland and reduce nutrient input from sewers. In Askerelva and Sognsvannsbekken, redox time series from 2017 to 2020 were extended to 2021. As in 2017-2019, but unlike in 2020, redox measurements were taken from each of the stations once a year. The timeseries show that the redox potential can vary greatly between years, but that there also can be some variation within a year. Precipitation and temperature data from the periods before the measurements suggest that: 1. Heavy precipitation in 2017 and 2020 resulted in high redox potential. 2. Very limited precipitation and high air temperature in 2018 resulted in very low redox potential. 3. Somewhat limited precipitation and high air temperature in 2019 and high temperature, but also heavy precipitation, in 2021 resulted in redox potential somewhat lower than expected for a «typical» year. Relatively minor differences in redox potential between July and August 2020 suggest that the redox potential is affected by environmental conditions during a longer time period before the measurements are undertaken. Based on the time series, one can evaluate how precipitation and air temperature is expected to affect the redox potential in other watercourses as well. Even though one of the main causes of reduced recruitment in mussel populations is reduced oxygen availability in the substrate due to increased eutrophication and siltation, the results do not indicate that this is the case in Nitelva. There, low density of host fish and impacts from hydropower plants are probably at least as important causes of the reduced recruitment of mussels. The time series from Askerelva and Sognsvannsbekken are important to evaluate whether the redox potential in a given year is representative of the worst conditions one can expect in a «typical» year. This also applies to the redox potential in Nitelva.

Published

2023

26. Tiltaksanalyse for elvemusling (Margaritifera margaritifera) i Lilleelv i Arendal

Author

Gosselin, Marie-Pierre and Magerøy, Jon

Subjects

elvemusling, tiltak, freshwater pearl mussel, habitat, land use, mitigation measures, landbruk, vannkvalitet, water quality

Abstract

Gosselin, M.-P. & Magerøy, J. H. 2023. Tiltaksanalyse for elvemusling (Margaritifera margaritifera) i Lilleelv i Arendal. NINA Rapport 2202. Norsk institutt for naturforskning I Lilleelv finnes det en svært liten bestand av elvemusling, med sviktende rekruttering i de siste tiårene. I 2000 ble bestanden tatt inn i det nasjonale overvåkingsprogrammet for elvemusling. Bestanden er nå begrenset til en strekning på ca. 2,7 km mellom Nedre Sagvann og Asdal, ovenfor utløpet i Nidelva. Det antas at det bare finnes mellom 100 og 200 muslinger i elva i 2021. For å kunne vurdere aktuelle tiltak for elvemusling i Lilleelv, var det nødvendig å gjennomføre en tiltaksanalyse for vassdraget. I den forbindelse ble det gjennomført månedlige undersøkelser av vannkvaliteten i elva i 2021-2022. Disse viser at elva ikke har forsuringsproblemer i dag, med gjennomsnittsverdier for pH på over 6,6. Turbiditeten var høy i nedre del av utbredelsesområdet til muslingen, sammenlignet med strekningen ovenfor Stampefoss. Verdiene av totalt fosfor lå noe over referanseverdien for Lilleelv (elvetype R106) og var noe høyere i nedre enn øvre del av utbredelsesområdet til muslingen. Nitratverdiene indikerer at innholdet av totalt nitrogen lå langt over referanseverdiene og var mye høyere i nedre enn øvre del. Verdier for bl.a. turbiditet, konduktivitet og nitrat er høyere enn det som er definert som gode, egnete miljøforhold for elvemusling. Redokspotensialundersøkelser i 2021 viser at medianverdien i substratet i elva var 295 mV. Dette ligger langt under grensen for det som er nødvendig for å opprettholde rekruttering av elvemusling og verdien tilsvarer dårlig (på grensen til moderat) habitatkvalitet. Enkelte stasjoner hadde likevel lommer med god habitatkvalitet. En befaring langs Lilleelv ble gjennomført den 27.-28. april 2022, fra utløpet i Nidelva til Assævannet med tilhørende nedbørfelt, for å vurdere miljøtilstand i området og menneskelig påvirkning på elvemusling. Det ble identifisert problemer tilknyttet avrenning av næringsstoffer og finsedimenter, både lokalt og diffust i nedbørfelt, på grunn av jordbruk, kommersielt skogbruk og lokal tømmerhogst. I tillegg var det tegn på lokal kjemisk forurensing tre steder: Mårvannsbekken, Bergtjennbekken og Lilleelv oppstrøms E18-brua. I jordbruksområder bør kantvegetasjon bevares for å gi en buffersone mot avrenning av finpartikler og næringsstoffer til Lilleelv, fra bl.a. spredning av gjødsel. Buffersoner langs Lilleelv, der naturlig vegetasjon og skog bevares eller restaureres (med spesielt fokus på trær), vil bidra til å stabilisere elvebredden og å minimere erosjon. Slike buffersoner bør etableres i kommersielle skogbruksområder, slik at jord fra disse områdene ikke renner inn i elva, sidebekker eller innsjøer i nedbørfeltet. Aktiviteter tilknyttet anlegg for veg og anlegg i nedbørfeltet, spesielt i nærheten av vannforekomster, bør sikres, slik at forurenset vann renses og forurensete sedimenter holdes tilbake. Kilder til kjemisk forurensing i sidebekker bør undersøkes, og renseinstallasjoner for å unngå forurenset utslipp i vassdraget bør etableres der det er nødvendig. Vannkvalitetsovervåkning i Lilleelv bør gjennomføres på en mer kontinuerlig måte, med f.eks. multisensorer plassert på strekningen der det finnes elvemusling. En slik overvåking bør settes i gang og inkludere parameterne som er kritiske for arten. Det er også viktig å opprettholde vannføringen i Lilleelv, for å hindre uttørking og andre negative effekter på elvemusling pga. en reduksjon i denne. Derfor må vannuttak i vassdraget begrenses. Undersøkelser av ørretbestanden i Lilleelv er viktig, for å vurdere om tilgangen til vertsfisk for elvemusling har endret seg i forbindelse med byggingen av fisketrappa i nedre del av vassdraget. Manglende vertsfisk kan være et hinder for rekrutteringen hos muslingen, og tiltak for å øke fisketettheten kan være nødvendig.

Published

2023

27. Genetisk overvåkning av anleggsprodusert elvemusling. Infestasjoner 2020

Author

Wacker, Sebastian and Karlsson, Sten

Subjects

ferskvann, elvemusling, threatened species, overvåking, genetikk, trua arter, stocking, monitoring, Margaritifera margaritifera, freshwater pearl mussel, genetic variation, genetics, genetisk variasjon, freshwater, kultivering

Abstract

Wacker, S. og Karlsson, S. 2023. Genetisk overvåkning av anleggsprodusert elvemusling. Infestasjoner 2020. NINA Rapport 2219. Norsk institutt for naturforskning. Elvemusling er oppført som «sårbar» på Norsk Rødliste og en betydelig andel av bestandene mangler rekruttering i nyere tid. For å sikre disse bestandene mot utryddelse ble det etablert et kultiveringsanlegg for elvemusling i Austevoll. I denne rapporten har vi undersøkt genetisk variasjon og genetisk integritet i anleggsprodusert elvemusling fra infestasjoner 2020. At genetisk variasjon og genetisk integritet blir ivaretatt i kultivering er av stor betydning for bestandenes overlevelse, tilpasningsevne og opprettholdelse av den lokale genetiske tilpasningen. Vi vurderte genetisk variasjon og genetisk integritet for anleggsprodusert elvemusling fra fem bestander. For tre av disse bestandene (Etna, Svankilelva og Vollaelva), ble småmuslingene produsert ved innsamling av gravide muslinger etter befruktning i elva. Denne metoden er foretrukket fordi det forventes bidrag fra et stort antall fedre ved befruktning i elva og dermed redusert tap av genetisk variasjon hos småmuslingene sammenlignet med befruktning i anlegg med et begrenset antall stammuslinger. For de andre to bestandene (Haukåselva og Lyngstadelva), ble småmuslingene produsert ved befruktning i anlegget. Det er ønskelig at genetisk tilstand til anleggsprodusert elvemusling klassifiseres ved et trafikklyssystem som tar utgangspunkt i grenseverdier for tap av genetisk variasjon og genetisk integritet. I denne rapporten bruker vi grenseverdier foreslått av miljødirektoratet for klassifisering av anleggsprodusert elvemusling, men vi foreslår at disse grenseverdien kan revurderes etter hvert som flere produksjonsår blir vurdert og det foreligger et større og bedre datagrunnlag. Genetisk integritet på gruppenivå ble ivaretatt for alle bestandene (FST mellom stammuslinger og småmuslinger < 0,05). Genetisk integritet på individnivå ble ivaretatt for alle bestandene med unntak av én småmusling fra Svankilelva som ble funnet blant småmuslingene fra Haukåselva. Det kan ikke utelukkes at tilordningen skyldes en feil ved prøvetaking eller merking av prøven. Innvirkningen på bestanden fra Haukåselva vurderes som lav, siden andelen av småmuslinger fra feil bestand var lav (0,5 %). Graden av innavl var ikke høyere i småmuslingene sammenliknet med stammuslingene og voksenmuslingene for noen av bestandene. Av de tre bestandene som ble produsert ved innsamling av gravide muslinger, ble to klassifisert som grønn og én som gul. Alle disse bestandene var ørretmuslingbestander med lav genetisk variasjon. Tap av genetisk variasjon fra bestanden til småmuslingene var under 10 % for Etna og Vollaelva og produksjonen ble klassifisert som grønn. For Svankilelva ble 16 % av genetisk variasjon målt som allelrikdom tapt fra bestanden til småmuslingene og produksjonen ble klassifisert som gul. Tap av genetisk variasjon for Svankilelva kan skyldes et lavt antall mødre som bidro til småmuslingene og/eller få fedre som befruktet eggene til hver mor. Dette kunne ikke undersøkes videre, fordi prøver for genetisk undersøkelse av stammuslingene manglet. Begge de to bestandene som ble produsert ved befruktning i anlegget ble klassifisert som gul. Bestanden i Lyngstadelva er en laksemuslingbestand, mens bestanden i Haukåselva er en ørretmuslingbestand, men begge har høy genetisk variasjon. Tap av genetisk variasjon fra bestanden til småmuslingene, målt som allelrikdom, ble estimert som 12% for Haukåselva og 9% for Lyngstadelva. Resultatene viser dog at tapet av genetisk variasjon ble underestimert for Lyngstadelva og kan forventes å være større enn 10%. Slektskapsanalyse viser at henholdsvis 31 og 42 foreldre hadde bidratt til småmuslingene fra Haukåselva og Lyngstadelva og at bidraget var skeivt fordelt mellom foreldrene. Dette resulterte i et effektivt antall gytere på henholdsvis 19 og 21 individer, som forklarer det betydelige tapet av genetisk variasjon.

Published

2023

28. Relationship between the age of freshwater pearl mussel and the number of increments in shell section

Author

TOMAN, Jan

Subjects

freshwater pearl mussel, sklerochronologie, pří-růstky, sclerochronology, odhad věku, shell morphology, perlorodka říční, growth, age esti-mation, morfologie lastur, Margaritifera margaritifera

Abstract

The aim of this thesis was to determine the relationship between the age of dead individuals of the freshwater pearl mussel (Margaritifera margaritifera) and the number of incremental lines on the shell section. A total of 124 pearl mussel shells of known age were collected from several Czech, German and Finnish localities. There was a statistically significant difference between the actual age and the age according to the number of incremental lines on shell section. On average, the age determined by increment lines was higher than the actual age by 2.6 years, which is 42 ? 25% (? S.D.). Thus, the increment lines on the section of the pearl mussel shell do not correspond to the annual increments. It was confirmed that increment lines count on the shell surface or estimating age from shell size are less reliable approaches to determine the true age of individuals.

Published

2023

29. Montesinho Natural Park: General Description and Natural Values

Author

Castro, J., de Figueiredo, Tomás, Fonseca, Felícia, Castro, João Paulo, Nobre, Sílvia, Pires, Luís Carlos, Evelpidou, Niki, editor, Figueiredo, Tomás, editor, Mauro, Francesco, editor, Tecim, Vahap, editor, and Vassilopoulos, Andreas, editor

Published

2010

30. Altered thermoregulation as a driver of host behaviour in glochidia-parasitised fish.

Author

Horký, Pavel, Slavãk, Ondřej, and Douda, Karel

Subjects

*MARGARITIFERA margaritifera, *BROWN trout, *RADIO telemetry, *BODY temperature regulation, *PARASITES

Abstract

Parasites alter their host behaviour and vice versa as a result of mutual adaptations in the evolutionary arms race. One of these adaptations involves changes in host thermoregulation, which has the potential to harm the parasite and thereby act as a defence mechanism.We used a model of the brown trout (Salmo trutta) experimentally parasitised with glochidia ectoparasitic larvae from the endangered freshwater pearl mussel (Margaritifera margaritifera) to reveal whether parasitisation alters fish behavioural thermoregulation. A study using radiotelemetry temperature sensors was performed during almost one year of the M. margaritifera parasitic stage. Glochidia-infested S. trutta altered their thermoregulation through active searching for habitats with different thermal regimes. The general preference for temperatures in infested fish varied and was either above or below the temperature preferred by uninfested individuals. Infested fish also preferred different temperatures across localities, whereas uninfested fish maintained their thermal preference no matter which stream they inhabited. Glochidia further induced the expression of a behavioural syndrome among S. trutta personality traits, suggesting that it might increase the probability that the fish host would occur in the glochidia temperature optimum. Our findings present the first evidence that thermoregulation plays a fundamental role in the relationship of affiliated mussels and their fish hosts. Incorporating thermoregulation as a factor in the study of this relationship can help to interpret results from previous behavioural studies, as well as to optimise management measures related to endangered mussels. [ABSTRACT FROM AUTHOR]

Published

2019

31. Interactions between two parasites of brown trout (Salmo trutta): Consequences of preinfection.

Author

Gopko, Mikhail, Chowdhury, M. Motiur R., and Taskinen, Jouni

Subjects

*BIOTIC communities, *DIPLOSTOMUM, *HOST-parasite relationships, *MUCOUS membranes, *PSYCHOLOGICAL vulnerability, *SEA trout fisheries

Abstract

Preinfection by one parasitic species may facilitate or by contrast hamper the subsequent penetration and/or establishment of other parasites in a host. The biology of interacting species, timing of preinfection, and dosage of subsequent parasite exposure are likely important variables in this multiparasite dynamic infection process. The increased vulnerability to subsequent infection can be an important and often overlooked factor influencing parasite virulence. We investigated how the preinfection by freshwater pearl mussel Margaritifera margaritifera glochidia could influence the success of subsequent infection by the common trematode Diplostomum pseudospathaceum in brown trout Salmo trutta and vice versa whether preinfection by the trematode made fish more susceptible to glochidia infection. The first experiment was repeated twice with different (low and high) exposure doses to initiate the subsequent trematode infection, while in the second experiment we varied the timing of the preinfection with trematodes. The preinfection with glochidia made fish more vulnerable to subsequent infection with trematodes. Since the trematodes penetrate through the gills, we suggest that increased host vulnerability was most likely the result of increased respiration caused by the freshwater pearl mussel glochidia encysted on gills. In turn, brown trout preinfected with trematodes were more vulnerable to the subsequent glochidial infection, but only if they were preinfected shortly before the subsequent infection (20 hr). Fish preinfected with trematodes earlier (2 weeks before the subsequent infection) did not differ in their vulnerability to glochidia. These effects were observed at moderate intensities of infections similar to those that occur in nature. Our study demonstrates how the timing and sequence of exposure to parasitic species can influence infection success in a host–multiparasite system. It indicates that the negative influence of glochidia on host fitness is likely to be underestimated and that this should be taken into consideration when organizing freshwater pearl mussel restoration procedures. Freshwater pearl mussels's parasitic stage (glochidia) is usually considered to be not very harmful to their host, brown trout. However, even a small damage to fish gills caused by this parasite can make its host more vulnerable to subsequent infections. We demonstrate that the glochidia infection predispose fish to the infection by common trematode. Interestingly, fish preinfected with trematode was also more vulnerable to infection with glochidia, but only, if preinfection happened shortly before the second infection. [ABSTRACT FROM AUTHOR]

Published

2018

32. Freshwater pearl mussels as a stream water stable isotope recorder.

Author

Pfister, Laurent, Thielen, Frank, Deloule, Etienne, Valle, Nathalie, Lentzen, Esther, Grave, Cléa, Beisel, Jean‐Nicolas, and McDonnell, Jeffrey J.

Subjects

MUSSELS, ISOTOPES, RIVERS, METEOROLOGICAL precipitation, TIME series analysis

Abstract

Abstract: For several decades, stable isotopes have been a commonly used and effective tool for flow path analysis, stream water source apportionment, and transit time analysis. The Global Network of Isotopes in Precipitation repository now has monthly precipitation isotope time series extending over several years and even decades in some settings. However, stream water isotope composition time series remain rather short with only very few data sets spanning over more than a few years. A critical challenge in this respect is the collection of stream water isotope data sets across a wide variety of headwater streams and for long durations. We rely on a new approach for stream signal reconstruction based on freshwater mussels, specifically the freshwater pearl mussel Margaritifera margaritifera. We use secondary ion mass spectrometry (SIMS) to quantify oxygen isotope ratios in pearl mussel shell growth bands. In our study area, the observed seasonal variability in precipitation δ18O values ranges between −15‰ and −3‰. This input signal is strongly damped in stream water, where observed values of δ18O range between −10‰ and −6.5‰. These values are consistent with our measured average shell‐derived stream water δ18O of −7.19‰. Along successive growth bands, SIMS‐based stream water δ18Ow values varied within a seasonal range of −9‰ to −5‰. The proposed SIMS‐based shell analysis technique is obviously well suited for analysing isotopic signatures of O in shell material—especially from the perspective of reconstructing historical series of in‐stream isotope signatures. [ABSTRACT FROM AUTHOR]

Published

2018

33. An investigation of salmonid host utilization by the endangered freshwater pearl mussel (Margaritifera margaritifera) in north‐west Scotland.

Author

Clements, Elizabeth A., Thomas, Rhian, and Adams, Colin E.

Subjects

MARGARITIFERA margaritifera, FRESHWATER fishes, SALMON farming, SALMONIDAE, GLOCHIDION, RARE fishes, ATLANTIC salmon

Abstract

Abstract: The complex life cycle of the globally threatened Margaritifera margaritifera includes a parasitic stage, where glochidia attach to the gills of fishes of the genus Salmo; however, the species of Salmo used appears to vary across its range. In previous literature the reported primary host in Scotland, home to a high proportion of the world's remaining M. margaritifera populations, is the Atlantic salmon Salmo salar, and in its absence the brown trout Salmo trutta. In this study, the prevalence of infection in putative Salmo hosts in eight rivers in north‐west Scotland was determined. At a selected site on each river, where both S. trutta and S. salar were collected in abundance, S. trutta was the preferred host. At sites where S. salar were abundant but S. trutta were at low density, however, S. salar showed a high prevalence of infection (with the exception of one river where neither S. salar nor S. trutta were infected). Thus, the primary host appears to be very site‐specific in the rivers sampled. We speculate that this may be because M. margaritifera have population‐specific responses to cues for attachment to a host. Alternatively, it may be that host population‐specific immune responses mediate infections by glochidia. In addition, larger fish were less likely to be infected than smaller fish, and gills 1 and 5 were less heavily infected than gills 2–4. One consequence of this finding, for both national and international conservation management of this globally endangered species, is that any current or future management activity must take into account local population host preferences, otherwise conservation efforts may be in vain. [ABSTRACT FROM AUTHOR]

Published

2018

34. High genetic diversity and low differentiation in North American Margaritifera margaritifera (Bivalvia: Unionida: Margaritiferidae).

Author

Zanatta, David T, Stoeckle, Bernhard C, Inoue, Kentaro, Paquet, Annie, Martel, André L, Kuehn, Ralph, and Geist, Juergen

Subjects

*CONSERVATION genetics, *MARGARITIFERA margaritifera, *FRESHWATER mussels, *ENDANGERED species, *GENE flow, *ANIMAL behavior

Abstract

Information on the genetic diversity and population genetic structure of threatened species is important for guiding management decisions. Margaritifera margaritifera (freshwater pearl mussel) occurs across western Russia, north and central Europe, and Atlantic drainages of north-eastern North America (NA). European populations of M. margaritifera are considered endangered, whereas NA populations are thought to be relatively secure. As such, the population genetics of M. margaritifera occurring in European rivers is relatively well studied while that of NA populations is not known. In this study, we investigated the genetic diversity and differentiation of M. margaritifera in Canada and the USA. Genetic diversity indices calculated from nine microsatellite loci were relatively high in the NA population. Analyses of genetic structure indicated that a single panmictic population exists for M. margaritifera in NA. However, there was evidence of substructure in some tributaries of the St. Lawrence River in Québec, Canada. The NA population of M. margaritifera has low genetic differentiation and high diversity, possibly resulting from large population size and high gene flow. Consequently, conservation of this species should focus primarily on maintaining favourable habitat conditions and connectivity for host fish. [ABSTRACT FROM AUTHOR]

Published

2018

35. Reclassification of Lamprotula rochechouartii as Margaritifera rochechouartiicomb. nov. (Bivalvia: Margaritiferidae) revealed by time-calibrated multi-locus phylogenetic analyses and mitochondrial phylogenomics of Unionoida.

Author

Wu, Rui-Wen, Xie, Guang-Long, Su, Jin-Hui, Ouyang, Shan, Zhou, Chun-Hua, Wu, Xiao-Ping, Huang, Xiao-Chen, and An, Chang-Ting

Subjects

*FRESHWATER mussels, *UNIONIDAE, *BIOGEOGRAPHY, *FRESHWATER biodiversity, *MITOCHONDRIAL DNA

Abstract

The family Margaritiferidae encompasses 12 valid species, which are distributed widely but disjunctively in the Northern Hemisphere. A lack of a well resolved and temporally calibrated phylogenetic framework of Margaritiferidae has made it difficult to discuss the evolutionary pattern and process. Phylogenetic relationships between five major clades, which were revealed in earlier studies, remain elusive and unresolved. Lamprotula rochechouartii has long been classified within the family Unionidae based on shell morphology, but our preliminary molecular study on this species made us hypothesize that it has an affinity with margaritiferids. Hence, five loci (COI, 16S, 18S, 28S and histone H3) were used to investigate the phylogenetic position of L. rochechouartii and intra-familial relationships within Margaritiferidae using various partitioning strategies. Moreover, two mitochondrial genomes were newly obtained to further resolve and validate the five-clade relationships within Margaritiferidae in a broad view of Unionoida evolution. Both five-gene and mitogenome datasets strongly advocated treating Lamprotula rochechouartii as Margaritifera rochechouartii comb . nov . Maximum likelihood and Bayesian inference analyses using partitioned five-gene dataset resulted in various topologies, but five well-supported clades were obtained. The most probable cladistic relationships generated by five-gene dataset analyses were identical to subsequent whole mitogenome analyses except the position of M. monodonta . M. rochechouartii and M. laosensis had a well-supported sister relationship and formed a basal clade splitting from the rest of the family. Based on six reliable fossils, crown age of the extant Margaritiferidae was estimated during the Late Cretaceous at 88.3 Ma (95% HPD = 66.2–117.4). But we hypothesized a much earlier origin of this family due to the Permian stem age (mean = 257 Ma, 95% HPD = 230.0–296.0) and a high extinction rate in the whole order. Biogeographic scenarios supported a Laurasian origin of extant Margaritiferidae during the Late Cretaceous, and suggested that Asian margaritiferids may have had two origins, having either Asia ( M. rochechouartii, M. laosensis ) or North America ( M. dahurica, M. laevis, and M. middendorffi ) as ancestral. The newly added Margaritiferidae species M. rochechouartii expands our recognized distribution range of modern margaritiferids. Our results indicate that whole mitogenome sequences can be used to reconstruct robust phylogenetic relationships for freshwater mussels, especially with the help of adding M-type mitogenomes. [ABSTRACT FROM AUTHOR]

Published

2018

36. Prediction of potential freshwater pearl mussel habitat aids in discovery of a large population of Margaritifera laevis in Iturup Island, Russia

Author

Igor Popov

Subjects

Fishery, Ecology, biology, Margaritifera laevis, Habitat, Freshwater pearl mussel, Large population, Aquatic Science, biology.organism_classification, Margaritifera, Nature and Landscape Conservation

Published

2021

37. Glochidial infection by the endangered Margaritifera margaritifera (Mollusca) increased survival of salmonid host (Pisces) during experimental Flavobacterium disease outbreak

Author

M. Motiur R. Chowdhury, Kalle Auvinen, Hanna Suonia, Jouni Taskinen, Katja Pulkkinen, and Amitav Roy

Subjects

Gill, järvitaimen, unionida, Brown trout, Resistance, Zoology, Immunology and Host-Parasite Interactions - Original Paper, parasitismi, Flavobacterium, Disease Outbreaks, resistance, toukat, Fish Diseases, brown trout, co-infection, Animals, Mollusca, Margaritifera, Ecosystem, General Veterinary, biology, Virulence, Host (biology), Pathogen, virulenssi, Outbreak, General Medicine, kalataudit, biology.organism_classification, jokihelmisimpukka, resistenssi, Co-infection, Bivalvia, virulence, taudinaiheuttajat, Infectious Diseases, Freshwater pearl mussel, Insect Science, Flavobacterium columnare, Parasitology, Salmonidae, pathogen, Unionida

Abstract

Co-infections are common in host-parasite interactions, but studies about their impact on the virulence of parasites/diseases are still scarce. The present study compared mortality induced by a fatal bacterial pathogen, Flavobacterium columnare between brown trout infected with glochidia from the endangered freshwater pearl mussel, Margaritifera margaritifera, and uninfected control fish during the parasitic period and after the parasitic period (i.e. glochidia detached) in a laboratory experiment. We hypothesised that glochidial infection would increase host susceptibility to and/or pathogenicity of the bacterial infection. We found that the highly virulent strain of F. columnare caused an intense disease outbreak, with mortality reaching 100% within 29 h. Opposite to the study hypothesis, both fresh ongoing and past infection (14 months post-infection) with glochidia prolonged the fish host’s survival statistically significantly by 1 h compared to the control fish (two-way ANOVA: fresh-infection, F1, 82 = 7.144, p = 0.009 and post-infection, F1, 51 = 4.227, p = 0.044). Furthermore, fish survival time increased with glochidia abundance (MLR: post-infection, t = 2.103, p = 0.045). The mechanism could be connected to an enhanced non-specific immunity or changed gill structure of the fish, as F. columnare enters the fish body mainly via the gills, which is also the glochidia’s attachment site. The results increase current knowledge about the interactions between freshwater mussels and their (commercially important) fish hosts and fish pathogens and also emphasise the importance of (unknown) ecosystem services (e.g., protection against pathogens) potentially associated with imperilled freshwater mussels.

Published

2021

38. Effects of dissolved oxygen concentrations on growth, survival and gonadal development of freshwater pearl mussel Lamellidens marginalis

Author

Md. Fida Hassan Kafi, Md. Hasibul Islam, Kizar Ahmed Sumon, Harunur Rashid, and Md. Helal Uddin

Subjects

Animal science, biology, Freshwater pearl mussel, Hypoxia (environmental), Limiting oxygen concentration, Vitellogenesis, Aeration, Development of the gonads, biology.organism_classification, Survival rate, Spawn (biology)

Abstract

The present study was conducted to evaluate the effects of dissolved oxygen concentrations on growth, survival and gonadal development of freshwater pearl mussel (Lamellidens marginalis). Twenty adult L. marginalis were exposed to each of the five different concentrations of dissolved oxygen (DO) i.e (T0, no aeration), and T1, T2, T3 and T4 with one, two, three and four air stone aerators, respectively in fifteen glass aquaria each containing 10L of pond water. DO concentrations were significantly higher in all the treatments compared to the control but there were no significant differences among the treatments. There were significant differences in the growth and survival rates between control and treatments. The relative growth rates (%) were significantly higher in the highest oxygen concentration (T4) compared to other treatments. The survival rate was zero in control (T0), whereas it was 66.67%, 70.00%, 71.67% and 73.33%, respectively for T1, T2, T3 and T4. On day-30, oocytes in T0 were found to be smaller in size, with developing acini and no previtellogenic oocytes; whereas in T1, T2, T3 and T4, previtellogenic oocytes and larger acini were evident. On day-60, vitellogenic oocytes along with few under-developed oocytes started to detach from the acini walls, as well as some already started migration to germinal duct on day-90. This indicates that ovaries of all the treatments were ripe and were ready to spawn between day-60 and -90. On day-30, secondary spermatocytes were observed in testicular acini in case of T0, whereas more developed and dense spermatids were evident in T1, T2, T3 and T4. These results indicate that testes were in late development stages in T0, whereas they were ripe in all the treatments. The current findings indicate that hypoxia slows down growth, reduces survival rate and retards development of reproductive organs in L. marginalis.

Published

2021

39. Stable isotopes reveal the importance of terrestrially derived resources for the diet of the freshwater pearl mussel ( <scp> Margaritifera margaritifera </scp> )

Author

Sascha Krenek, Felix Grunicke, Sina Berg, Annekatrin Wagner, Thomas U. Berendonk, Mario Brauns, David Kneis, Markus Weitere, Thomas Schiller, and Jana Schneider

Subjects

Ecology, biology, Stable isotope ratio, Freshwater pearl mussel, Aquatic Science, biology.organism_classification, Feeding ecology, Margaritifera, Nature and Landscape Conservation, Isotope analysis

Published

2021

40. Testing local adaptations of affiliate freshwater pearl mussel, Margaritifera laevis , to its host fish, Oncorhynchus masou masou

Author

Junjiro N. Negishi, Kazuki Miura, Hirokazu Urabe, Hitoshi Kitaichi, and Daisetsu Ito

Subjects

biology, Margaritifera laevis, Freshwater pearl mussel, Host (biology), Endangered species, Oncorhynchus, Zoology, %22">Fish , biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2021

41. Growth Biorhythms of the Freshwater Pearl Mussel Margaritifera margaritifera (Bivalvia, Margaritiferidae), Nemina River Population (Karelia)

Author

A. A. Zotin and E. P. Ieshko

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, biology, Population, Mussel, biology.organism_classification, Bivalvia, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Annual growth %, 03 medical and health sciences, 030104 developmental biology, Oceanography, Freshwater pearl mussel, Margaritiferidae, General Agricultural and Biological Sciences, Linear growth, education, Margaritifera

Abstract

Individual linear growth was studied in 23 specimens of the freshwater pearl mussel Margaritifera margaritifera by measuring successive annual growth rings on the shell surface. It is demonstrated that the growth of each mussel can be described by a single equation, of which a particular case is the von Bertalanffy equation with an average growth deceleration coefficient of a = 0.048 year–1 and a coefficient of the initial conditions of d = 5.3 mm/year. It was observed that growth was accompanied by three regular biorhythms with periods of 12.6, 6.4, and 4.0 years, the first two being decaying biorhythms, while the latter had a constant amplitude. We ascertained that the decrease in the amplitude of the decaying biorhythms can be modeled by power equations. The nature of the biorhythms detected is discussed.

Published

2021

42. Conclusions

Author

Kearn, Graham C.

Published

2004

43. The parasitic travel of Margaritifera margaritifera in Atlantic salmon gills: from glochidium to post-larva

Author

Universidade de Santiago de Compostela. Departamento de Anatomía, Produción Animal e Ciencias Clínicas Veterinarias, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Castrillo Arias, Pedro Antonio, Bermúdez Pose, Roberto, Varela Dopico, Catarina, Quiroga Verdeal, María Isabel, Ondina Navarret, María Paz, Universidade de Santiago de Compostela. Departamento de Anatomía, Produción Animal e Ciencias Clínicas Veterinarias, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Castrillo Arias, Pedro Antonio, Bermúdez Pose, Roberto, Varela Dopico, Catarina, Quiroga Verdeal, María Isabel, and Ondina Navarret, María Paz

Abstract

The larval development of the endangered freshwater mussel Margaritifera margaritifera (L.) represents one of the most unique parasitism among naiads, in which larva parasite the fish gills for several months. Despite the importance of this parasitic phase to successfully culture the freshwater mussel, the larval morphogenesis remains understudied. To describe the parasitic larval development and metamorphosis, Atlantic salmon (Salmo salar L.) were exposed to glochidia, sampled periodically to visualize the gills by stereomicroscopy and light microscopy and results were summarized throughout three developmental stages. Once attached to the fish gills, glochidia changed their morphology within the first days and acquired an intermediate stage termed mushroom larva due to the presence of the mushroom body and the zip membrane, both structures are transitory and distinctive of this long-lasting parasitism. The zip membrane, located at the valve cleft, may play a unique role in the isolation and acquisition of non-particulate nutrients from the fish, while the mushroom body of the mantle accumulates abundant intracytoplasmic lipid droplets. After 200 days, a successful metamorphosis was evidenced by the formation of a complete set of post-larval organs, pointing to the acquisition of different functionality, which will be essential for the settlement and deposit-feeding into the riverbed. Among the post-larval organs, the byssal complex of the post-larval foot was described for the first time at the end of the parasitic stage of naiads. In conclusion, this study provides an overview of the larval morphogenesis of M. margaritifera, from glochidium to post-larva, essential for understanding the parasitic interaction between the freshwater mussel larva and the fish host. Moreover, the morphological techniques and the hallmarks described might be applicable to optimize and monitor the larval developmental status during one of the most critical stages of the captive breeding, El desarrollo larvario del mejillón de agua dulce en peligro de extinción Margaritifera margaritifera (L.) representa uno de los parasitismos más singulares entre las náyades. A pesar de la importancia de esta fase parasitaria para cultivarlo con éxito, la morfogénesis larvaria sigue estando poco estudiada. Para describir el desarrollo larvario parasitario y la metamorfosis, se expusieron salmones del Atlántico (Salmo salar L.) a gloquidios, se tomaron muestras periódicamente para visualizar las branquias mediante estereomicroscopía y microscopía óptica y se resumieron los resultados a lo largo de tres etapas de desarrollo. Una vez adheridos a las branquias de los peces, los gloquidios cambiaron su morfología en los primeros días y adquirieron un estadio intermedio denominado larva hongo debido a la presencia del “mushroom body” y la membrarna “zip”, ambas estructuras transitorias y distintivas de este parasitismo de larga duración. La primera mostró su función en la acumulación de abundantes gotitas lipídicas intracitoplasmáticas y la membrana zip, situada en la hendidura valvular, podría desempeñar un papel importante en el aislamiento y adquisición de nutrientes no particulados de los peces. Al cabo de 200 días, se evidenció una metamorfosis exitosa por la formación de un conjunto completo de órganos postlarvarios, lo que apunta a la adquisición de diferentes funcionalidades esenciales para el asentamiento y la alimentación en el lecho del río. Entre estas estructuras se describe por primera vez el complejo bisal del pie al final de la fase parasitaria. Este estudio proporciona una visión general de la morfogénesis larvaria de M. margaritifera, desde el gloquidio hasta la postlarva. Además, las técnicas morfológicas podrían ser aplicables para optimizar y monitorizar el estado de desarrollo larvario durante una de las etapas más críticas de los programas de cría en cautividad de mejillones de agua dulce amenazados. El artículo es producto de la tesis doctoral de

Published

2022

44. Higher mortality of the less suitable brown trout host compared to the principal Atlantic salmon host when infested with freshwater pearl mussel (Margaritifera margaritifera) glochidia

Author

Sten Karlsson, Sebastian Wacker, Janhavi Marwaha, Bjørn Mejdell Larsen, and Per Johan Jakobsen

Subjects

0106 biological sciences, 0301 basic medicine, Trout, animal diseases, Zoology and botany: 480 [VDP], Salmo salar, Zoology, Fresh Water, Biology, medicine.disease_cause, Host bias, 010603 evolutionary biology, 01 natural sciences, Host Specificity, Host-Parasite Interactions, 03 medical and health sciences, Brown trout, Fish Diseases, Infestation, medicine, Fish Parasitology - Original Paper, Animals, Salmo, Mortality, Host-parasite, Zoologiske og botaniske fag: 480 [VDP], Margaritifera, Glochidia, General Veterinary, Obligate, Virulence, Host (biology), General Medicine, biology.organism_classification, Bivalvia, 030104 developmental biology, Infectious Diseases, Freshwater pearl mussel, Insect Science, Parasitology

Abstract

The freshwater pearl mussel (Margaritifera margaritifera) is a highly host-specific parasite, with an obligate parasitic stage on salmonid fish. Atlantic salmon (Salmo salar) and brown trout (Salmo trutta f. truttaandSalmo trutta f. fario) are the only hosts in their European distribution. SomeM. margaritiferapopulations exclusively infest either Atlantic salmon or brown trout, while others infest both hosts with one salmonid species typically being the principal host and the other a less suitable host. Glochidial abundance, prevalence and growth are often used as parameters to measure host suitability, with the most suitable host species displaying the highest parameters. However, it is not known if the degree of host specialisation will negatively influence host fitness (virulence) among different host species. In this study we examined the hypothesis that glochidial infestation would result in differential virulence in two salmonid host species and that lower virulence would be observed on the most suitable host. Atlantic salmon and brown trout were infested with glochidia from twoM. margaritiferapopulations that use Atlantic salmon as their principal host, and the difference in host mortality among infested and control (sham infested) fish was examined. Higher mortality was observed in infested brown trout (the less suitable host) groups, compared to the other test groups. Genetic assignment was used to identify offspring from individual mother mussels. We found that glochidia from individual mothers can infest both the salmonid hosts; however, some mothers displayed a bias towards either salmon or trout. We believe that the differences in host-dependent virulence and the host bias displayed by individual mothers were a result of genotype × genotype interactions between the glochidia and their hosts, indicating that there is an underlying genetic component for this parasite-host interaction.

Published

2021

45. Ecology of Margaritifera margaritifera (Bivalvia, Margaritiferidae) in the River Kamennaya, White Sea Basin, Russia

Author

A. A. Zotin, Denis Efremov, Panu Oulasvirta, E. P. Ieshko, and Svetlana A. Murzina

Subjects

White (horse), Ecology, biology, endangered species conservation, Ecology (disciplines), growth, Structural basin, biology.organism_classification, Bivalvia, Agricultural and Biological Sciences (miscellaneous), infection, glochidia, salmo salar, Geography, Freshwater pearl mussel, Margaritiferidae, atlantic salmon, freshwater pearl mussel, Earth and Planetary Sciences (miscellaneous), Geography. Anthropology. Recreation, Margaritifera, Nature and Landscape Conservation

Abstract

The conditions for cohabitation of juvenile Salmo salar and Margaritifera margaritifera in the River Kamennaya (River Kem catchment, White Sea drainage basin, Russia) were studied. The M. margaritifera population in the River Kamennaya contains about 1000 specimens. The only intermediate host capable of sustaining the existence of this rare North European mussel is the juvenile S. salar. In this study, we investigated a set of parameters and processes to get a more comprehensive insight into the ecology of the M. margaritifera. One of such parameters is the individual linear growth, which was investigated in freshwater mussels from the River Kamennaya. Growth deceleration coefficients varied widely and differed significantly among specimens. The population-averaged coefficient of growth deceleration was 0.076. The growth of mussels in the River Kamennaya involves three regular biorhythms with the following periods: 11.5, 6.4 and 4.0 years. The biorhythm periods were roughly constant both through an individual's ontogeny and among different individuals. A comparison of our results with data on other M. margaritifera populations in the Republic of Karelia and the Murmansk Region reveals a reliable (p < 0.01) negative correlation between growth deceleration coefficients and mean annual temperature in the M. margaritifera habitat. The abundance, spatial distribution and age structure of juvenile S. salar and M. margaritifera are presented. The rates of glochidial infection in S. salar juveniles at different ages were estimated. The developmental stages and the status of glochidia encysted on juvenile S. salar gills were observed and described using histological methods. The results of this study will be used to suggest activities and measures aimed to preserve populations of M. margaritifera and S. salar in the River Kamennaya, primarily to promote juvenile S. salar numbers and M. margaritifera settlement in rapids with a high density of young individuals.

Published

2021

46. Ecology and Evolution of the Naiads

Author

Bauer, Gerhard, Wächtler, Klaus, Caldwell, M. M., editor, Heldmaier, G., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E.-D., editor, Sommer, U., editor, Bauer, Gerhard, editor, and Wächtler, Klaus, editor

Published

2001

47. Freshwater Mussels (Hyriidae) of Australasia

Author

Walker, Keith F., Byrne, Maria, Hickey, Christopher W., Roper, David S., Caldwell, M. M., editor, Heldmaier, G., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E.-D., editor, Sommer, U., editor, Bauer, Gerhard, editor, and Wächtler, Klaus, editor

Published

2001

48. The Extent of, and Causes for, the Decline of a Highly Threatened Naiad: Margaritifera margaritifera

Author

Young, Mark R., Cosgrove, Peter J., Hastie, Lee C., Caldwell, M. M., editor, Heldmaier, G., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E.-D., editor, Sommer, U., editor, Bauer, Gerhard, editor, and Wächtler, Klaus, editor

Published

2001

49. Effects of Eutrophication on Unionids

Author

Patzner, Robert A., Müller, Doris, Caldwell, M. M., editor, Heldmaier, G., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E.-D., editor, Sommer, U., editor, Bauer, Gerhard, editor, and Wächtler, Klaus, editor

Published

2001

50. Framework and Driving Forces for the Evolution of Naiad Life Histories

Author

Bauer, Gerhard, Caldwell, M. M., editor, Heldmaier, G., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E.-D., editor, Sommer, U., editor, Bauer, Gerhard, editor, and Wächtler, Klaus, editor

Published

2001