5 results on '"Schneider, Lea D."'
Search Results
2. Effects of mussel and host fish density on reproduction potential of a threatened unionoid mussel: prioritization of conservation locations in management trade-offs.
- Author
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Schneider, Lea D., Nilsson, P. Anders, Höjesjö, Johan, and Österling, E. Martin
- Subjects
UNIO crassus ,MOLLUSK reproduction ,FISH parasites ,PHOXINUS phoxinus ,HOST-parasite relationships ,BIODIVERSITY conservation ,ANIMAL population density - Abstract
Management decisions in conservation of threatened species require trading off social needs against biodiversity values, including the prioritization of conservation locations, i.e. where conservation efforts should take place. To improve conservation decisions for the thick-shelled river mussel, Unio crassus, a highly threatened temporary parasite on fish, we performed a field study on how mussel and host fish density (European bullhead, Cottus gobio, and common minnow, Phoxinus phoxinus) affect reproduction potential of the mussel at different sites along a river. We assumed that the proportions of gravid mussels would be higher at high mussel density, and result in enhanced glochidia (mussel larvae) encapsulation rates on fish. We also expected the highest 'glochidia density'—a proxy for the potential number of recruits per stream area, assessed by multiplying glochidia encapsulation rates on fish by fish density, to occur at high mussel density sites. Such river sites, producing many offspring and conveying important conservation values, may thus be prioritized. However, contrary to our assumptions, higher glochidia density and higher proportions of gravid mussels occurred at lower density mussel sites. We also found that P. phoxinus had higher glochidia encapsulation rates than C. gobio, possibly related to species-specific behavioural and life-history traits. Even so, glochidia density was similar for both fish species, reflecting comparable ecological functions in hosts. The results of this study suggest that mussel and host fish densities should be considered along with glochidia density in conservation prioritization and management trade-offs. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. Evaluating temperature- and host-dependent reproduction in the parasitic freshwater mussel <italic>Unio crassus</italic>.
- Author
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Schneider, Lea D., Österling, E. Martin, and Nilsson, P. Anders
- Subjects
FRESHWATER mussels ,PARASITES ,UNIO crassus ,CONSERVATION biology ,TEMPERATURE ,REPRODUCTION - Abstract
Adaptation to temperature regimes and host presence may enhance fitness in parasites. In an experimental study, we evaluated the timing of glochidia release by
Unio crassus subjected to three spring water temperature regimes in the presence and absence of the host fishCottus gobio . The timing of glochidia release was delayed at (i ) constantly low temperatures (<10°C), in contrast to earlier and pronounced releases at (ii ) natural temperature increases that level off at intermediate temperatures (10–15°C), and (iii ) higher-than-normal temperatures (10–20°C). Mussels from treatment (i ) that had not released glochidia during the experiment did so soon after being moved to the temperature in (ii ), indicating a temperature threshold for glochidia release. Neither host fish presence nor the combined effect of temperature and host fish presence significantly affected the timing of glochidia release. The treatment with natural spring water temperatures indicated possible fitness benefits forU. crassus through combined effects of high intensities of glochidia releases and high survival of released glochidia. The furthered understanding of climate change effects on mussel and host phenology in seasonal environments, potentially inducing temporal mismatches of glochidia release to host availability, is key to mussel conservation. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
4. Local adaptation studies and conservation: Parasite-host interactions between the endangered freshwater mussel Unio crassus and its host fish.
- Author
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Schneider, Lea D., Anders Nilsson, P., Höjesjö, Johan, and Martin Österling, E.
- Subjects
INTRODUCED species ,PARASITES ,HOSTS (Biology) ,FRESHWATER mussels ,FRESHWATER animals ,FRESHWATER fishes - Abstract
1. Parasite-host interactions can involve strong reciprocal selection pressure, and may lead to locally adapted specializations. The highly threatened unionoid mussels are temporary parasites on fish, but local adaptation has not yet been investigated for many species. 2. Patterns of local adaptation of one of Europe0s most threatened unionoids, the thick-shelled river mussel (Unio crassus) were investigated. Eurasian minnows (Phoxinus phoxinus) from two rivers (separate drainage areas) were cross-infested in the laboratory with sympatric and allopatric mussel larvae, while bullheads (Cottus gobio), inhabiting only one of the rivers, were infested with sympatric or allopatric mussel larvae. Larval encystment, juvenile mussel excystment and survival were measured. 3. For one river, but not the other, juvenile excystment from P. phoxinus was highest when infested with sympatric mussels. The opposite pattern was found for C. gobio in this river, where juvenile excystment and post-parasitic juvenile survival from allopatric C. gobio were highest. The results thus cannot confirm local adaptation of U. crassus to P. phoxinus in the study rivers, as excystment was not consistently higher in all sympatric mussel-host combinations, whereas there were potential maladaptive signs of U. crassus in relation to C. gobio. There was no loss of encysted larvae 3 days after infestation until juvenile excystment. Most juveniles were excysted between 17 and 29 days after infestation, and the numbers of excysted juveniles increased with fish size. 4. The results have implications for parasite-host ecology and conservation management with regard to unionoid propagation and re-introduction. This includes the need to (1) test suitability and adaptation patterns between U. crassus and multiple host fish species, (2) evaluate the suitability of certain unionoids and host fish strains after more than 3 days, and (3) determine whether large fish produce more juvenile mussels than smaller fish. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
5. Ice cover alters the behavior and stress level of brown trout Salmo trutta.
- Author
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Watz, Johan, Bergman, Eva, Calles, Olle, Enefalk, Åsa, Gustafsson, Stina, Hagelin, Anna, Nilsson, P. Anders, Norrgård, Johnny R., Nyqvist, Daniel, Österling, E. Martin, Piccolo, John J., Schneider, Lea D., Greenberg, Larry, and Jonsson, Bror
- Subjects
ANIMAL aggression ,CLIMATE change research ,BIOENERGETICS ,BROWN trout ,SALMO - Abstract
Surface ice in rivers and lakes buffers the thermal environment and provides overhead cover, protecting aquatic animals from terrestrial predators. We tested if surface ice influenced the behavior (swimming activity, aggressive encounters, and number of food items eaten) and stress level (coloration of eyes and body) of stream-living brown trout Salmo trutta at temperatures of 3-4 °C in indoor experimental flumes. We hypothesized that an individual's resting metabolic rate (RMR, as measured by resting ventilation rate) would affect winter behavior. Therefore, groups of 4 trout, consisting of individuals with high, low, or mixed (2 individuals each) RMR, were exposed to experimental conditions with or without ice cover. Ice cover reduced stress responses, as evaluated by body coloration. Also, trout in low RMR groups had a paler body color than those in both mixed and high RMR groups. Trout increased their swimming activity under ice cover, with the highest activity found in high RMR groups. Ice cover increased the number of aggressive encounters but did not influence the number of drifting food items taken by each group. In mixed RMR groups, however, single individuals were better able to monopolize food than in the other groups. As the presence of surface ice increases the activity level and reduces stress in stream-living trout, ice cover should influence their energy budgets and production. The results should be viewed in light of ongoing global warming that reduces the duration of ice cover, especially at high latitudes and altitudes. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
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