Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2022 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10773/36381 |
Resumo: | Phenotypic plasticity is the capacity of organisms with the same genome to exhibit different characteristics under diverse environmental conditions, being therefore considered an adaptation strategy for surviving in variable environments. One type of phenotypic plasticity is photoacclimation, which consists in phenotypical changes caused by the changes in growth light conditions. Benthic diatoms are microalgae that inhabit estuaries, which are very heterogeneous and variable environments. Some diatom growth forms (motile epipelic diatoms; EPL) can avoid the drastic light changes they might experience in their natural habitat by using cellular motility and vertical migration in the sediment, while others do not have that behavioral photoprotective mechanism (non-motile epipsammic diatoms; EPM). This study addressed the characterization of the patterns of photoacclimation in EPL and EPM diatom species and tested the hypothesis that EPM species have a larger capacity to photoacclimate to different growth light conditions than EPL ones. Two experiments were carried out. First, an experiment for analyzing the steady state photoacclimation of cultures and characterize the range of variation between long term acclimation to high (HL) and low (LL) light conditions. A second experiment was carried out to quantify the magnitude and rate of short-term acclimation of different species of diatoms to a change in growth light. The parameters Fv/Fm (maximum quantum yield of photosystem II), Chl a per cell, and the photoacclimation parameter Ek were chosen as the best parameters to characterize the acclimation state of the cultures. EPM diatoms showed a higher variation between LL and HL in four of the six analyzed photophysiological parameters (Fv/Fm, Chl a per cell, rETRm and Ek), supporting the hypothesis of the study. The short-term experiment showed a larger phenotypic variation in EPL than in EPM species. Because one of the experiments focused on the acclimation capacity and the other more on the rate of acclimation, the results obtained in the first experiment do not invalidate the results obtained in the second. The results show that there seems to be a higher photoacclimation capacity in EPM species, but that EPL species seem to be faster to acclimate to new light conditions. |
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Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacityBenthic diatomsPhotophysiologyPhotoprotectionPhenotypic plasticityPhenotypic plasticity is the capacity of organisms with the same genome to exhibit different characteristics under diverse environmental conditions, being therefore considered an adaptation strategy for surviving in variable environments. One type of phenotypic plasticity is photoacclimation, which consists in phenotypical changes caused by the changes in growth light conditions. Benthic diatoms are microalgae that inhabit estuaries, which are very heterogeneous and variable environments. Some diatom growth forms (motile epipelic diatoms; EPL) can avoid the drastic light changes they might experience in their natural habitat by using cellular motility and vertical migration in the sediment, while others do not have that behavioral photoprotective mechanism (non-motile epipsammic diatoms; EPM). This study addressed the characterization of the patterns of photoacclimation in EPL and EPM diatom species and tested the hypothesis that EPM species have a larger capacity to photoacclimate to different growth light conditions than EPL ones. Two experiments were carried out. First, an experiment for analyzing the steady state photoacclimation of cultures and characterize the range of variation between long term acclimation to high (HL) and low (LL) light conditions. A second experiment was carried out to quantify the magnitude and rate of short-term acclimation of different species of diatoms to a change in growth light. The parameters Fv/Fm (maximum quantum yield of photosystem II), Chl a per cell, and the photoacclimation parameter Ek were chosen as the best parameters to characterize the acclimation state of the cultures. EPM diatoms showed a higher variation between LL and HL in four of the six analyzed photophysiological parameters (Fv/Fm, Chl a per cell, rETRm and Ek), supporting the hypothesis of the study. The short-term experiment showed a larger phenotypic variation in EPL than in EPM species. Because one of the experiments focused on the acclimation capacity and the other more on the rate of acclimation, the results obtained in the first experiment do not invalidate the results obtained in the second. The results show that there seems to be a higher photoacclimation capacity in EPM species, but that EPL species seem to be faster to acclimate to new light conditions.Plasticidade fenotípica é a capacidade de organismos com o mesmo genoma exibirem diferentes características sob condições ambientais diferentes, considerada uma estratégia de adaptação para sobreviver em ambientes variáveis. Um tipo de plasticidade fenotípica é a fotoaclimatação, que consiste em mudanças fenotípicas causadas pelas condições de luz de crescimento. As diatomáceas bênticas são microalgas que habitam estuários, ambientes muito heterogéneos e variáveis. Certas formas de vida de diatomáceas (diatomáceas móveis epipélicas; EPL), têm formas de evitar mudanças drásticas na exposição à luz através de motilidade celular e migração vertical no sedimento, enquanto outras não têm esse mecanismo de fotoproteção comportamental (diatomáceas não-móveis epipsâmicas; EPM). Este estudo fez uma caracterização de padrões de fotoaclimatação em espécies de diatomáceas EPL e EPM, e testou a hipótese de que as espécies EPM têm uma maior capacidade de fotoaclimatação a diferentes níveis de luz do que as EPL. Foram realizadas duas experiências. Uma para analisar o estado estável de fotoaclimatação das culturas e caracterizar a amplitude de variação entre aclimatação a longo termo a condições de luz alta (HL) e baixa (LL). Uma segunda experiência foi realizada para quantificar a taxa e a magnitude de aclimatação a curto prazo de diferentes espécies de diatomáceas a uma mudança de luz de crescimento. Os parâmetros Fv/Fm (rendimento máximo do fotossistema II), clorofila a por célula, e o parâmetro de fotoaclimatação Ek foram escolhidos como os melhores parâmetros para caracterizar o estado de aclimatação das culturas. Espécies EPM mostraram uma maior variação entre condições de crescimento LL e HL em quatro dos seis parâmetros fotofisiológicos analisados (Fv/Fm, Chl a per cell, rETRm e Ek), suportando a hipótese do estudo. A experiência de curto prazo mostrou uma maior variação fenotípica em espécies EPL do que em espécies EPM. Porque uma das experiências se focou mais na capacidade de aclimatação e a outra se focou mais na velocidade de aclimatação, os resultados da primeira experiência não invalidam os obtidos na segunda. Os resultados mostram que existe uma maior capacidade de fotoaclimatação em espécies EPM, mas que as espécies EPL parecem ser mais rápidas a aclimatarem-se a novas condições de luz.2023-02-23T15:42:42Z2022-12-12T00:00:00Z2022-12-12info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/36381engBastos, Alexandra Oliveirainfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-02-22T12:10:11Zoai:ria.ua.pt:10773/36381Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T03:07:13.689179Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| title |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| spellingShingle |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity Bastos, Alexandra Oliveira Benthic diatoms Photophysiology Photoprotection Phenotypic plasticity |
| title_short |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| title_full |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| title_fullStr |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| title_full_unstemmed |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| title_sort |
Phenotypic plasticity in benthic diatoms: cellular motility and photoacclimation capacity |
| author |
Bastos, Alexandra Oliveira |
| author_facet |
Bastos, Alexandra Oliveira |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Bastos, Alexandra Oliveira |
| dc.subject.por.fl_str_mv |
Benthic diatoms Photophysiology Photoprotection Phenotypic plasticity |
| topic |
Benthic diatoms Photophysiology Photoprotection Phenotypic plasticity |
| description |
Phenotypic plasticity is the capacity of organisms with the same genome to exhibit different characteristics under diverse environmental conditions, being therefore considered an adaptation strategy for surviving in variable environments. One type of phenotypic plasticity is photoacclimation, which consists in phenotypical changes caused by the changes in growth light conditions. Benthic diatoms are microalgae that inhabit estuaries, which are very heterogeneous and variable environments. Some diatom growth forms (motile epipelic diatoms; EPL) can avoid the drastic light changes they might experience in their natural habitat by using cellular motility and vertical migration in the sediment, while others do not have that behavioral photoprotective mechanism (non-motile epipsammic diatoms; EPM). This study addressed the characterization of the patterns of photoacclimation in EPL and EPM diatom species and tested the hypothesis that EPM species have a larger capacity to photoacclimate to different growth light conditions than EPL ones. Two experiments were carried out. First, an experiment for analyzing the steady state photoacclimation of cultures and characterize the range of variation between long term acclimation to high (HL) and low (LL) light conditions. A second experiment was carried out to quantify the magnitude and rate of short-term acclimation of different species of diatoms to a change in growth light. The parameters Fv/Fm (maximum quantum yield of photosystem II), Chl a per cell, and the photoacclimation parameter Ek were chosen as the best parameters to characterize the acclimation state of the cultures. EPM diatoms showed a higher variation between LL and HL in four of the six analyzed photophysiological parameters (Fv/Fm, Chl a per cell, rETRm and Ek), supporting the hypothesis of the study. The short-term experiment showed a larger phenotypic variation in EPL than in EPM species. Because one of the experiments focused on the acclimation capacity and the other more on the rate of acclimation, the results obtained in the first experiment do not invalidate the results obtained in the second. The results show that there seems to be a higher photoacclimation capacity in EPM species, but that EPL species seem to be faster to acclimate to new light conditions. |
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2022 |
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2022-12-12T00:00:00Z 2022-12-12 2023-02-23T15:42:42Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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http://hdl.handle.net/10773/36381 |
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eng |
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eng |
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