Development of an Algal Diet for Rearing Juvenile Freshwater Mussels (Unionidae)

Beck, Kevin Moran

29 May 2001

Feeding selectivity by the rainbow mussel (Villosa iris) was examined for three age groups; 2-3 days old, 50-53 days old, and 3-6 years old. The mussels were fed an algal diet consisting of Scenedesmus quadricauda (22.3 - 44.5 μm), Nannochloropsis oculata (2.8 – 8.1 μm), and Selenastrum capricornutum (3.6 – 8.5 μm) in equal cell densities. The change in relative abundance of each algal species within feeding chambers over a 5 hr feeding trial was used to discern selectivity. At the conclusion of the feeding trials, the gut contents of mussels were analyzed for preferential ingestion. The mussels selected for N. oculata and S. capricornutum over S. quadricauda (p < 0.05). This may be an indication of particle size-dependent selection. Feeding trials also suggest that selectivity by the rainbow mussel does not change with age. Gut content analyses showed a preferential ingestion of algae, in the sequence N. oculata, S. capricornutum, then S. quadricauda. The suitability of two algal diets, S. quadricauda and N. oculata, for rearing captive juveniles of V. iris in 145-L recirculating culture systems was compared. Juveniles were fed their assigned diet at a density rate of approximately 30,000 cells/ml for 42 days, and sampled weekly for percent survival and shell length. Regardless of diet, juvenile survival decreased rapidly after 21 days, and growth did not exceed approximately 450 μm. High mortality rates and slow growth of juveniles was likely due to inadequate diets. Juveniles that were fed S. quadricauda lacked chlorophyll coloration in their guts, indicating that the juveniles did not ingest this species of algae. Colonies of S. quadricauda were likely too large for the juveniles to ingest. The gut content of juveniles fed N. oculata showed chlorophyll coloration, indicating that the juveniles ingested this species, but N. oculata may have been difficult for the juveniles to assimilate. Under the culture conditions provided, survival and growth did not compare favorably to those of other studies with V. iris. Newly metamorphosed juveniles of V. iris were reared in 145-L recirculating culture systems containing sediment (< 600 μm) of two depths, 5 mm and 15 mm. Mussels were fed a bi-algal diet of Nannochloropsis oculata and Neochloris oleoabundans. Survival differed significantly between treatments (p=0.04), and was higher for juveniles reared in 5 mm of sediment over a 40-day period. Growth was not significantly different between treatments. After 40 days, juveniles achieved a mean length of approximately 578 μm in both treatments. Survival and growth of juveniles compared favorably to those of other culture studies using juveniles of V. iris. A shallow layer of sediment is recommended for the culture of juvenile mussels. / Master of Science

freshwater mussel

sediment depth

Villosa iris

algae

selectivity

juvenile culture

IMPROVING THE CONSERVATION OF A CRYPTIC ENDANGERED FRESHWATER MUSSEL (PARVASPINA COLLINA) THROUGH THE USE OF ENVIRONMENTAL DNA AND SPECIES DISTRIBUTION MODELING

Roderique, Bonnie A

01 January 2018

Conservation efforts that involve habitat protection, population augmentation, and species reintroductions require knowledge of the habitat requirements, distribution, and abundance of a species—information that can be challenging to acquire, especially for rare organisms with patchy distributions. In this thesis, I develop a protocol for the use of environmental DNA (eDNA) and create a Species Distribution Model for the endangered James spinymussel, Parvaspina collina (Unionidae). The results of this work show that eDNA is a robust tool for identifying species presence but not for estimating the relative abundance of populations. This study found that P. collina’s distribution is influenced by abiotic habitat characteristics related to sedimentation and runoff rather than by the distribution of its host fishes. The predicted habitat suitability was used to identify locations of priority conservation concern and these results can be used to direct future sampling efforts, identify potential dispersal routes, and inform conservation decisions.

Environmental DNA

Species Distribution Modeling

James spinymussel

Parvaspina collina

eDNA

freshwater mussel

Environmental Sciences

Fatores ambientais que afetam a distribuição e estrutura populacional de bivalves límnicos em lagoas adjacentes ao Rio Cuiabá

Michiura, Anderson Wakinaguni

27 February 2015

Submitted by Jordan (jordanbiblio@gmail.com) on 2017-03-13T15:32:07Z No. of bitstreams: 1 DISS_2015_Anderson Wakinaguni Michiura.pdf: 703669 bytes, checksum: 60597a6b6125e23795b4c0739d397627 (MD5) / Approved for entry into archive by Jordan (jordanbiblio@gmail.com) on 2017-03-14T15:58:39Z (GMT) No. of bitstreams: 1 DISS_2015_Anderson Wakinaguni Michiura.pdf: 703669 bytes, checksum: 60597a6b6125e23795b4c0739d397627 (MD5) / Made available in DSpace on 2017-03-14T15:58:39Z (GMT). No. of bitstreams: 1 DISS_2015_Anderson Wakinaguni Michiura.pdf: 703669 bytes, checksum: 60597a6b6125e23795b4c0739d397627 (MD5) Previous issue date: 2015-02-27 / CAPES / Os bivalves de água doce são um grupo com alto risco de extinção devido às mudanças climáticas, expansão urbana, construção de reservatórios hidrelétricos, crescimento populacional, eutrofização, degradação dos habitats, poluição pontual e difusa dos ecossistemas aquáticos. O objetivo deste trabalho foi identificar quais fatores físicos e químicos da água e sedimento que determinam a estrutura da comunidade de bivalves em 18 lagoas adjacentes ao rio Cuiabá, nos ambientes urbanos e não urbanos. A amostragem dos bivalves foi realizada pelo tateio no fundo das lagoas e por coleta de sedimentos ao longo do transecto com auxílio de uma peneira. Variáveis físicas e químicas da água e % de matéria orgânica do sedimento foram mensuradas e usadas como preditoras da abundância e estrutura da comunidade de bivalves pela ordenação da análise de componentes principais, regressão multivariada e análise de redundância (RDA). A RDA demonstrou uma relação das concentrações de nitrato e % de matéria orgânica com a estrutura da comunidade de bivalves. As espécies encontradas foram A. trapesialis (50,66%), Pisidium sp. (26,98%), C. fluminea (7,48%), C. inflata (6,82%) e A. elongatus (6,16%). As populações de A. trapesialis e A. elongatus estiveram relacionadas positiva e significativa com o nitrato. O aumento da % de matéria orgânica no sedimento esteve relacionado com menor abundância de A. elongatus, entretanto pouca relação com a classe de comprimento das valves. A espécie A. trapesialis teve efeito positivo e significativo com a variável oxigênio dissolvido em relação à classe de comprimento das valves. Os fatores ambientais que refletem os nutrientes podem influenciar na distribuição da comunidade de bivalves de água doce, no entanto, não determinam a estrutura da comunidade em lagoas urbanas e não urbanas. / Freshwater mussels are a group at high risk of extinction due to climate change, urban expansion, construction of hydroelectric reservoirs, population growth, eutrophication, habitat degradation, pollution and diffuse spot of aquatic ecosystems. This works was to identify which physical and chemical factors of the water and sediment that determine the structure of mussels community in 18 of ponds the Cuiaba river, in urban and non-urban environments. Sampling of mussels was conducted by groping the bottom of ponds and collecting sediment along transect with the aid of a sieve. The physical and chemical water variables and % organic matter in the sediment were measured and used as predictors of abundance and structure of the mussel community by ordering the principal component analysis, multivariate regression and redundancy analysis (RDA). The RDA showed a ratio of nitrate concentrations and % organic matter having the structure of mussels community. The species were A. trapesialis (50,66%), Pisidium sp. (26.98%) C. fluminea (7,48%), C. inflata (6,82%) and A. elongatus (6,16%). Populations of A. trapesialis and A. elongatus were positively and significantly related to nitrate. Increased % of organic matter in the sediment was associated with a lower abundance of A. elongatus, however little to do with the length class of valves. The species A. trapesialis had a positive and significant effect on the variable dissolved oxygen relative to the valves length class. Environmental factors that reflect the nutrients may influence the distribution of freshwater mussels community, however, not determine the community structure in urban and non-urban environments.

Bivalves de água doce

Rio Cuiabá

Limnologia

Freshwater mussel

Cuiabá river

Limnology

Exploring Levels of Genetic Variation in the Freshwater Mussel Genus Villosa (Bivalvia Unionidae) at Different Spatial and Systematic Scales: Implications for Biogeography, Taxonomy, and Conservation

Kuehnl, Kody F.

29 September 2009

No description available.

Animals

Biology

Ecology

Genetics

Molecular Biology

Zoology

phylogeography

phylogenetic

systematics

Unionidae

freshwater mussel

river

aquatic

Villosa

biogeography

zoogeography

Does turbidity affect critical thermal maximum (CTM) of mussels : Behavioural changes in Unio tumidus under stress / Påverkar turbiditet critical thermal maximum (CTM) hos musslor : Stressbeteende för Unio tumidus

Karlsson, Ellinor

January 2022

Freshwater mussels is one the most endangered groups of organisms worldwide and stand in front of several threats. Global warming along with anthropogenic influence affect the mussel’s natural habitat and stress leads to changes in their behaviour. The aim was to investigate if the behaviour of Unio tumidus exposed to thermal stress differs depending on fine particulate matter exposure. This study hypothesises that (1) the critical thermal maximum of mussels is lower in high turbidity than in clear water (2) mussels in highly turbid water extend their foot at a lower temperature than in clear water (3) mussels have a more frequent gaping behaviour in high turbidity than in clear water. Mussels were placed in each water filled beaker with sensors glued to their shells for monitoring gaping behaviour. Aquarium heaters increased the water temperature gradually until the mussels reached their CTM. One group were placed in clear river water and one group in water with high turbidity. There was no significant difference in the CTM between the highly turbid and clear water. The mussels in the river water extended their foot at a lower temperature compared to the mussels in high turbidity. One possible explanation is that the mussels remain shut to protect themselves due to higher stress levels. Valve gaping behaviour was visually investigated and displayed different patterns between mussels in clear and highly turbid water. This study contributes with information regarding mussel behaviour and response to thermal stress which can be of value for future studies. / Sötvattenmusslor är en av de mest hotade organismerna i världen och står inför flera hot. Global uppvärmning tillsammans med antropogen inverkan påverkar musslornas naturliga livsmiljö och stress leder till förändringar i deras beteende. Syftet var att undersöka om beteendet hos Unio tumidus som utsätts för termisk stress skiljer sig beroende på exponering av fina partiklar. Denna studie antar att (1) critical thermal maximum för musslor är lägre vid hög turbiditet än i åvatten (2) musslor i hög turbiditet sträcker ut sin fot vid en lägre temperatur än i åvatten (3) musslor har ett mer frekvent öppningsbeteende vid hög turbiditet än i åvatten. Musslor placerades i vattenfyllda bägare med sensorer limmade på sina skal för att övervaka öppningsbeteende. Akvarievärmare ökade vattentemperaturen gradvis tills musslorna nådde sitt critical thermal maximum. En grupp placerades i åvatten och en grupp i vatten med hög turbiditet. Det fanns ingen signifikant skillnad i CTM mellan hög turbiditet och åvattnet. Musslorna i åvattnet sträckte ut sin fot vid en lägre temperatur jämfört med musslorna i hög turbiditet. En möjlig förklaring är att musslorna förblir stängda för att skydda sig på grund av högre stress. Öppningsbeteende undersöktes visuellt och visade olika mönster mellan musslor i åvatten och vatten med hög turbiditet. Denna studie bidrar med information om musslornas beteende och respons på termisk stress som kan vara av värde för framtida studier.

CTM

critical thermal maximum

turbidity

suspended solids

Unio tumidus

freshwater mussel

bivalve

climate change

Unionida

CTM

turbiditet

grumlighet

suspenderade ämnen

Unio tumidus

sötvattensmussla

musslor

klimatförändringar

Unionida

Ecology

Ekologi

Riparian detritus vs. stream detritus: food quality determines fitness of juveniles of the highly endangered freshwater pearl mussels (Margaritifera margaritifera)

Grunicke, Felix, Wagner, Annekatrin, Elert, Eric von, Weitere, Markus, Berendonk, Thomas

19 March 2024

Detritus is an important energy source of stream food webs. Being a mix of allochthonous and autochthonous sources, it is often unknown, which components contribute to the growth of stream organisms. This study focussed on the comparison of two different detritus types (riparian detritus and stream detritus) with respect to food quality and effects on growth as a fitness parameter of juvenile freshwater pearl mussels (FPM). We performed feeding experiments with juvenile FPM under laboratory conditions using the two detritus types from four different natural sources each. Food quality was determined by analysing the fatty acid composition. Stream detritus (conditioned to stream environment including autochthonous microbes) resulted in significantly higher growth rates of juvenile FPM than predominately terrestrial-based riparian detritus indicating higher food quality. Significantly positive correlations were found between mussel growth and different groups of polyunsaturated fatty acids (PUFA). This suggests that especially trace substances such as long-chained n-3 PUFAs and a high ratio of n-3 to n-6 PUFAs enhance the food quality of stream detritus for juvenile FPM. These results highlight the importance of instream conditioning of detritus for the food mix in headwater streams and the importance of PUFAs for the development of juvenile FPM.

info:eu-repo/classification/ddc/570

ddc:570

Scale-Dependent Environmental Influences on Linked Mussel-Fish Assemblages in Big Darby Creek, OH

Bey, Clarissa Rachel

January 2013

No description available.

Ecology

Wildlife Conservation

Propagation and monitoring of freshwater mussels released into the Clinch and Powell rivers, Virginia and Tennessee

Hua, Dan

19 February 2015

Freshwater mussels (Unionidae) in the United States have experienced dramatic declines, and 25% species are listed as federally endangered. Hence, recovery plans for endangered species proposed a strategy of propagation of young mussels for release to natal rivers to augment declining populations. In this study, I conducted laboratory experiments, assessed site suitability for mussel restoration, and evaluated survival and growth rates of released mussels to meet the requirements of recovery plan. I conducted multiple experiments to develop an improved protocol for juvenile mussel propagation and culture. Significantly greater survival and growth rates were found in newly metamorphosed juveniles of the rainbow mussel (Villosa iris) reared in a substrate of fine sediment and one-month-old juveniles of wavy-rayed lampmussel (Lampsilis fasciola) fed on natural food in pond water. Bio-filter media greatly increased water quality by reducing the concentration of ammonia and nitrite. The negative impacts of flatworm predation and filamentous algae in juvenile culture were controlled, and juvenile escapement was prevented. Juvenile mussels were successfully produced and cultured to stockable size (>15 mm) for release. I released laboratory-propagated mussels at three historically important sites in Clinch and Powell rivers for the assessment of site suitability. Use of cages was the most effective method to determine site suitability because the free-released mussels (untagged, tagged) had low catchability. Mussels released at Horton Ford, Clinch River, exhibited significantly faster growth. Horton Ford is the most suitable site, while environmental conditions at Fugate Ford, Powell River, are deemed unsuitable for mussel restoration and recovery. To facilitate the detection of released mussels, I applied Passive Integrated Transponder tags to laboratory-produced juveniles of the endangered Cumberlandian combshell (Epioblasma brevidens) and released them near Brooks Bridge, Powell River. The detection probability increased above 98%. I developed a set of hierarchical Bayesian models incorporating individual variations, seasonal variations, periodic growth stages and growth cessation to estimate survival, detection probability and growth of released mussels in a changing environment. Mussels of E. brevidens exhibited great survival (> 99% per month) and growth, indicating suitable conditions for recovery of this endangered species at this site. / Ph. D.

Freshwater mussel

endangered species

propagation

culture

release

Split-plot design

recirculating system

survival rate

detection probability

growth rate

mark-recapture

PIT tag

hierarchic model

Bayesian

Beteenden hos befruktad allmän dammussla (Anadonta anatina) i en stressande miljö : Kritiskt temperaturmaximum (KTM) i relation till befruktning / Behaviors of fertilized common duck mussel (Anodonta anatina) in a stressful environment : Critical temperature maximum (CTM) in relation to fertilization

Blad, Sara

January 2022

Den globala uppvärmningen förväntas öka jordens medeltemperatur framledes, vilket innebär att nederbördmönster kommer att ändras till följd av torka och översvämningar. Detta kommer att innebära ett ökat hot för många sötvattensmusslor, som redan är en av de mest hotade grupperna i världen. Temperaturen är en essentiell abiotisk faktor som styr fortplantning, tillväxt och överlevnad. Att mäta kritiskt temperaturmaximum (KTM) är en metod som är framtaget för att användas för att få en förståelse huruvida organismer tål värmeökningar. Under processen sker en gradvis uppvärmning under ett snabbt förlopp, och vid uppnådd KTM utsätts organismen för en extrem stress. Vid flertalet utförda inventeringar i Sverige har uteblivna föryngringar av sötvattensmusslor upptäckts. Syftet är därav att vi i detta experiment ska se om det råder skillnader i värmekänslighet hos befruktade musslor kontra obefruktade musslor. Hypoteserna är (1) befruktad dammussla når KTM tidigare än obefruktad dammussla och (2) befruktad dammusslas fot är utan rörelsekontroll vid en lägre temperatur än hos de obefruktade.  Allmän dammussla (Anodonta anatina) användes till experimentet, då den är helt utesluten ur den internationella rödlistan och vanligt förekommande i svenska sötvatten. Musslorna, vilka plockades i Alsterälven, acklimatiserades i fyra dygn i 10 °C. Under experimentet värmdes vattnet kontinuerligt med 0,3 °C/min, tills KTM hade uppnåtts. Resultatet för hypotes (1) visar att befruktade dammusslor hade ett signifikant högre KTM än obefruktade (t-test, p=0,039), vilket är tvärtemot min hypotes. Resultat för hypotes (2) visar ingen skillnad mellan grupperna (t-test, p=0,54). Varför befruktade musslor uppnådde ett högre KTM skulle kunna bero på att glochidierna stört filtreringen, så pass att gälfunktionen stärkts, vilket lett till att de klarar att hålla igång filtreringen och sin egen metabolism vid högre temperaturer. Mer studier behövs för att få en ökad förståelse över musslors känslighet av temperaturförändringar. / Global warming is expected to increase the earth's average temperature in the future, which means that precipitation patterns will change as a result of droughts and floods. This will pose an increased threat to many freshwater mussels, which are already one of the most endangered groups in the world. Temperature is an essential abiotic factor that controls reproduction, growth and survival. Critical temperature maximum (CTM) is a method that has been developed to be used to gain an understanding of whether organisms can tolerate heat increases. During the process, a gradual heating takes place during a rapid process, and when CTM is reached, the organism is exposed to extreme stress. In the majority of inventories carried out in Sweden, missing rejuvenations of freshwater mussels have been discovered. The purpose is that in this experiment we will see if there are differences in heat sensitivity of fertilized mussels versus unfertilized mussels. The hypotheses are that (1) fertilized mussels reaches their CTM earlier than unfertilized mussels and (2) fertilized mussels relax their foot completely at a lower temperature than the unfertilized mussels. The result for hypothesis (1) shows that fertilized mussels had a significantly higher CTM than unfertilized (t-test, p = 0.039), which is contrary to my hypothesis. Results for hypothesis (2) show no difference between the groups (t-test, p = 0.54). The common duck mussel (Anodonta anatina) was used for the experiment, as it is not in the international red list and is commonly found in Swedish freshwaters. The mussels, which are from the Alsterälven River, were acclimatized for four days in 10 °C river water before the experiment. During the experiment, the water was continuously heated at 0.3 °C/min, until the CTM was reached. Why fertilized mussels achieved a higher CTM could be due to the fact that the glochidians disrupted the filtration, so much so that the gill function was strengthened, which led to them being able to keep the filtration going and their own metabolism at higher temperatures. More studies are needed to gain an increased understanding of mussels' sensitivity to temperature changes.

Global warming

critical thermomaximum (CTM)

freshwater mussel

glochidia larvae

common duck mussel (Anodonta anatina)

acclimatization

temperature

Global uppvärmning

critiskt termomaximum (KTM)

sötvattensmussla

glochidielarver

allmän dammussla (Anodonta anatina)

acklimatisering

temperatur.

Other Biological Topics

Annan biologi