Global ETD Search

1	Upper Range Thermal Stress Tolerance in Channel and Hybrid Catfish Strains Stewart, Heather Ann 17 May 2014 (has links) Channel catfish (Ictalurus punctatus) have a broad distribution from Canada to Mexico, suggesting that different strains may have different thermal tolerances. In aquaculture, daily temperature maximums up to 36-40°C and fluctuations of 3-6°C occur, and may be exacerbated by future climate change. To quantify differences in thermal tolerance amongst geographically-distinct channel catfish strains and corresponding hybrid catfish (I. punctatus x [blue catfish] I. furcatus): acute critical thermal maximum (CTmax), and the effects of chronic thermal regimes on growth, survival and differential gene expression were examined. Southern channel catfish had higher CTmax than northern, and channel catfish had higher CTmax than hybrid catfish. Under chronic thermal stress, hybrid catfish had the greatest survival and most consistent growth. Further, northern channel catfish had the greatest magnitude and largest amount of upregulated gene transcripts in response to high temperatures, indicating greater thermal stress. Therefore, catfish thermal tolerance varies by geographic region and species. chronic thermal stress critical thermal maxima transcriptomics temperature geographic climate hybrid catfish Channel catfish
2	Temperatura crítica máxima de artrópodes em biomas brasileiros: uma abordagem macrofisiológica / Critical thermal maximum of arthropods in brazilian biomes: macrophysiological approach Silva, Antonio Carlos da 08 September 2016 (has links) As mudanças climáticas influenciarão as médias de temperaturas ambientais e a frequência de eventos extremos com consequências ainda desconhecidas para a fauna. Conhecer os limites fisiológicos dos organismos ao aumento de temperatura pode ajudar a ampliar os marcos conceituais dos impactos regionais das mudanças climáticas sobre a fauna. Este trabalho abordou como a diversidade fisiológica representada pela tolerância termal da fauna de artrópodes terrestres estava relacionada entre os biomas do Brasil, em uma perspectiva macrofisiológica (ampla escala espacial). Especificamente, coletou-se a temperatura crítica máxima (TCMax) de espécimens de artrópodes das Classes Arachnida, Chilopoda, Dipoploda, Entognatha (Collembola), Insecta e Malacostraca (Oniscidea) nos biomas de Mata Atlântica (strictu sensu), Mata Atlântica de Altitude, Cerrado, Amazônia e Caatinga. Os artrópodes foram utilizados como modelo de estudo por permitirem uma associação mais clara com a teoria disponível sobre limites fisiológicos e o ambiente físico. Assim, foram investigados padrões de variação da TCMax entre e dentro dos biomas, considerando ou não a categoria sistemática. Igualmente, foi avaliada a relação da TCMax da fauna de artrópodes com variáveis bioclimáticas representantes do ambiente termal nos biomas. No aspecto de margem de segurança termal, avaliou-se a potencial tolerância ao aquecimento da fauna de artrópodes nos biomas. Os resultados mostraram que existe ampla diversidade fisiológica da fauna de artrópodes, com padrões atrelados aos biomas do Brasil. A relação do padrão de tolerância termal dos espécimens de artrópodes com o bioma é complexa, havendo nuances de variação dentro e entre os biomas. Houve grande proporção de fauna termotolerante no bioma da Caatinga e menor proporção de fauna termotolerante na Mata Atlântica. Quanto às margens de segurança termal, os dados de tolerância ao aquecimento sugerem que não há grande susceptibilidade ao aquecimento da fauna de artrópodes nos biomas do Brasil. Este trabalho contribui para ampliar a discussão dos possíveis impactos das mudanças climáticas em seus aspectos regionais, tendo em vista a diversidade fisiológica da fauna de artrópodes terrestres nos biomas brasileiros. Igualmente, os dados podem servir como uma importante base para a incorporação em avaliações globais da vulnerabilidade dos ectotérmicos frente às mudanças do clima / Climate change will affect the average environmental temperatures and the frequency of extreme events with still unknown consequences for wildlife. To understand the physiological limits of organisms in relation to the increase in environmental temperature can help extend the conceptual frameworks of climate change regional impacts on wildlife. This work discussed how the physiological diversity represented by the thermal tolerance of terrestrial arthropod fauna was related among biomes of Brazil in a macrophysiological perspective (large spatial scale). It was collected critical thermal maximum (CTMax) of specimens of the class Arachnida, Chilopoda, Dipoploda, Entognatha (Collembola), Insecta and Malacostraca (Oniscidea) in the biomes of the Atlantic Forest (strictu sensu), Atlantic Forest Highland, Cerrado (Brazilian Savanna), Amazonia and Caatinga. The arthropods were used as model to allow a better association with the available theory of physiological limits and the physical environment. Thus, it was investigated variation in patterns of CTMax between and within biomes considering or not the systematic category. It was also evaluated the relationship of CTMax of the arthropod fauna with bioclimatic variables as representative of the thermal environment in the biomes. In terms of thermal safety margin, it was evaluated potential warming tolerance of the arthropod fauna in the biomes. The results showed that there is a broad physiological diversity of arthropod fauna with patterns linked to brazilian biomes. The ratio between thermal tolerance patterns of arthropod specimens and the biome is complex, there were varying nuances within and between biomes. There is a large proportion of thermotolerant fauna in the Caatinga biome and a lesser proportion of thermotolerant fauna in the Atlantic Forest. The warming tolerance data suggest that the susceptibility to heat of the arthropod fauna in brazilian biomes is small. This work will help to expand discussions of potential impacts of climate change regional aspects considering the view of the physiological diversity of terrestrial arthropod fauna in the brazilian biomes. In addition, the data can be as an important basis for incorporation into global vulnerability assessments on terrestrial ectotherms in view of climate change Artrópodes terrestres Biomas Biome Critical thermal maximum (CTMax) Macrofisiologia Macrophysiology Temperatura crítica máxima (TCMax) Terrestrial arthropods Thermal tolerance Tolerância termal
3	Temperature tolerances and predation susceptibilities of transgenic and wildtype zebra danios, Danio rerio. Cortemeglia, Cheryl 08 1900 (has links) Both the upper and lower temperature tolerances of red fluorescent protein transgenic zebra danios and wildtype zebra danios, Danio rerio, were significantly different via two different methods; however, all differences are small (< 1°C) and probably not ecologically important. The U.S. geographic distributions of both transgenic and wildtype zebra danios will not be restricted by their upper thermal tolerances, but will be limited to the southern and western portions of the U.S. by their lower thermal tolerances. Largemouth bass did not preferentially prey upon transgenic zebra danios compared to wildtype danios or wildtypes relative to a native fish. If transgenic or wildtype zebra danios are released into southern or western U.S. waters, it is possible they could be eliminated by predation. Zebra danio -- Effect of temperature on. Zebra danio -- Effect of predation on. glofish critical thermal predator-prey overwinter chronic lethal non-indigenous
4	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 (has links) 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
5	Physiological Ecology, Population Genetic Responses and Assemblage Stability of Fishes in Two Southwestern Intermittent Stream Systems Rutledge, Charles Jerry, 1941- 12 1900 (has links) Six sites within the Denton and Hickory Creek watersheds were sampled over three years to assess the impact of seasonal intermittent stream conditions on the ichthyofauna. An integrated approach using field and laboratory techniques was employed to evaluate the responses of the fishes. ichthyofauna critical thermal maxima

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