Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2019 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFLA |
| Texto Completo: | http://repositorio.ufla.br/jspui/handle/1/34464 |
Resumo: | Coffee trees during their cycle are subjected to periods of water deficit and the complexity of their responses are not yet fully understood. Understanding adaptive responses mechanisms are necessary to predict survival strategies and contribute to the improvement of coffee cultivation under water deficit conditions. The aim was to identify if physiological responses can induce anatomical changes in Coffea arabica L. genotypes under conditions of water deficit that promote drought tolerance. The experiment design was a randomized block design with four materials of C. arabica L. (cvs. Catiguá MG3 and Catuaí IAC; genotypes G7 and G19), grown in pots with 22L capacity and maintained in two contrasting water conditions, with and without water restriction, in a 4x2 factorial scheme, with five replications. Throughout the experimental period it was evaluated the pre-dawn xylem water potential (Ψpd), relative water content (RWC), gas exchange, CO2 and light response curves, photosynthetic pigments content, and root anatomy. The water deficit was responsible to reduce Ψpd and RWC of all four cv./genotypes, being G7 the genotype with lower values under these conditions. The disturbance of the water status of plants under water deficit conditions was responsible for decreasing photosynthesis (A), transpiration (E), and stomatal conductance (gs). A reduction in the maximum assimilation rate of the response curve as a function of the photosynthetically active radiation (AmaxQ) was observed in the photosynthesis response curves for all plants under water deficit. For the CO2 response curve was observed that under lower water availability, there was a reduction in the maximum carboxylation rate (Vcmax), indicating a decrease in the carboxylase activity of Rubisco. The genotype G19 under water deficit showed lower values of regeneration of Ribulose 1,5-biphosphate (RuBP), dependent on the electron transport rate (Jmáx) and the triose-phosphate utilization (TPU), while cv.Catuaí had lower mesophyll conductance (gm). The reduction of Vcmaxand Jmaxindicates that lower photosynthetic rates in plants under water restriction are related to the decrease in the carboxylase activity of Rubisco. In the roots of plants under water deficit, it was observed anatomical modifications in root cross-sectional area of genotypes G7 and G19, in vascular cylinder area of cv.Catuaí, and in the number of root hairs of genotype G7, which may be characterized as strategies in order to enhance the capacity of retention and absorption of water, respectively. The genotype G19 had an increase in the number of tracheal elements and metaxylem poles, as well as the cv.Catiguá and the genotype G7 showed a reduction in the diameter of tracheal element. The genotypes G7 and G19 had higher photosynthetic capacity than cvs.Catiguá and Catuaí in the condition of larger water availability; however when exposed to water deficit conditions there was a reduction of this characteristic for all cv./genotypes, affecting mainly biochemical process. The anatomical changes in coffee trees under water deficit showed that these strategies may contribute to increase the tolerance of each cv./genotype to these conditions. |
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Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídricoPhotosynthesis and root anatomy in Coffea arabica L. genotypes under water deficitFotossínteseDisponibilidade hídricaCafeeiroAlteraçõesRaízesPhotosynthesisWater availabilityCoffee treeRootsFisiologia VegetalCoffee trees during their cycle are subjected to periods of water deficit and the complexity of their responses are not yet fully understood. Understanding adaptive responses mechanisms are necessary to predict survival strategies and contribute to the improvement of coffee cultivation under water deficit conditions. The aim was to identify if physiological responses can induce anatomical changes in Coffea arabica L. genotypes under conditions of water deficit that promote drought tolerance. The experiment design was a randomized block design with four materials of C. arabica L. (cvs. Catiguá MG3 and Catuaí IAC; genotypes G7 and G19), grown in pots with 22L capacity and maintained in two contrasting water conditions, with and without water restriction, in a 4x2 factorial scheme, with five replications. Throughout the experimental period it was evaluated the pre-dawn xylem water potential (Ψpd), relative water content (RWC), gas exchange, CO2 and light response curves, photosynthetic pigments content, and root anatomy. The water deficit was responsible to reduce Ψpd and RWC of all four cv./genotypes, being G7 the genotype with lower values under these conditions. The disturbance of the water status of plants under water deficit conditions was responsible for decreasing photosynthesis (A), transpiration (E), and stomatal conductance (gs). A reduction in the maximum assimilation rate of the response curve as a function of the photosynthetically active radiation (AmaxQ) was observed in the photosynthesis response curves for all plants under water deficit. For the CO2 response curve was observed that under lower water availability, there was a reduction in the maximum carboxylation rate (Vcmax), indicating a decrease in the carboxylase activity of Rubisco. The genotype G19 under water deficit showed lower values of regeneration of Ribulose 1,5-biphosphate (RuBP), dependent on the electron transport rate (Jmáx) and the triose-phosphate utilization (TPU), while cv.Catuaí had lower mesophyll conductance (gm). The reduction of Vcmaxand Jmaxindicates that lower photosynthetic rates in plants under water restriction are related to the decrease in the carboxylase activity of Rubisco. In the roots of plants under water deficit, it was observed anatomical modifications in root cross-sectional area of genotypes G7 and G19, in vascular cylinder area of cv.Catuaí, and in the number of root hairs of genotype G7, which may be characterized as strategies in order to enhance the capacity of retention and absorption of water, respectively. The genotype G19 had an increase in the number of tracheal elements and metaxylem poles, as well as the cv.Catiguá and the genotype G7 showed a reduction in the diameter of tracheal element. The genotypes G7 and G19 had higher photosynthetic capacity than cvs.Catiguá and Catuaí in the condition of larger water availability; however when exposed to water deficit conditions there was a reduction of this characteristic for all cv./genotypes, affecting mainly biochemical process. The anatomical changes in coffee trees under water deficit showed that these strategies may contribute to increase the tolerance of each cv./genotype to these conditions.Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG)O cafeeiro durante seu ciclo é submetido a períodos de déficit hídrico e a complexidade de suas respostas ainda não são completamente conhecidas. Entender os mecanismos de respostas adaptativas são necessários para prever as estratégias de sobrevivência e contribuir para o melhoramento da cafeicultura sob condições de seca. O presente trabalho teve como objetivo identificar se respostas fisiológicas podem induzir alterações anatômicas em genótipos de Coffea arabica L. em condições de déficit hídrico que promovam tolerância a seca. Foi adotado um delineamento de blocos casualizados, em que quatro materiais de Coffea arabica L. (cvs. Catiguá MG3 e Catuaí IAC; genótipos G7 e G19) foram cultivadas em vasos com capacidade de 22L e mantidas em duas condições hídricas contrastantes, com e sem restrição hídrica, em esquema fatorial 4x2, com cinco repetições. Ao longo do experimento foram avaliados o potencial hídrico do xilema na antemanhã (Ψxil), teor relativo de água (TRA), trocas gasosas, curvas de resposta à variação de CO2 e luz, quantificação de pigmentos fotossintéticos e anatomia radicular. O déficit hídrico induzido reduziu o Ψxil e TRA das quatro cv./genótipos sendo o genótipo G7 o que apresentou os valores mais baixos sob essas condições. Plantas sob déficit hídrico apresentaram menores taxas de fotossíntese (A), transpiração (E) e condutância estomática (gs). Nas curvas de resposta da fotossíntese a luz foi observada uma redução na taxa de assimilação máxima da curva de resposta em função da radiação fotossinteticamente ativa (AmáxQ) para todas as plantas sob déficit hídrico. Nas curvas de resposta da fotossíntese ao CO2 foi observado que em condições de menor disponibilidade hídrica houve uma redução nos valores da taxa de velocidade de carboxilação da Rubisco (Vcmáx), indicando uma diminuição na atividade carboxilase da enzima. O genótipo G19 sob déficit hídrico apresentou menores valores nas taxas de regeneração da Ribulose 1,5 bifosfato (RuBP) dependente da taxa de transporte de elétrons (Jmáx) e pela utilização da triose fosfato (TPU) e a cv.Catuaí menor condutância mesofílica (gm). A diminuição nos valores de Vcmáx e Jmáx indicam que as menores taxas de A nas plantas sob restrição hídrica estão relacionadas a menor síntese da Rubisco e da utilização de elétrons para regeneração da RuBP. Nas raízes das plantas sob déficit hídrico, foram observadas alterações anatômicas na área transversal da raiz dos genótipos G7 e G19, na área do cilindro vascular da cv.Catuaí e no número de pêlos radiculares para o genótipo G7. O genótipo G19 apresentou aumento no número de elementos traqueais e polos do metaxilema, assim como a cv. Catiguá e o genótipo G7 apresentaram uma redução no diâmetro do elemento traqueal. Os genótipos G7 e G19 apresentaram maior capacidade fotossintética que as cvs. Catiguá e Catuaí na condição de maior disponibilidade hídrica, entretanto quando expostos a condições de déficit hídrico observou-se redução dessa variável em todas as espécies afetando principalmente, a atividade da Rubisco. As alterações anatômicas em cafeeiro sob déficit hídrico mostraram que essas estratégias podem contribuir como medidas para aumentar a tolerância de cada cv./genótipo a essas condições.Universidade Federal de LavrasPrograma de Pós-graduação em Agronomia/Fisiologia VegetalUFLAbrasilDepartamento de BiologiaMarchiori, Paulo Eduardo RibeiroDomiciano, DéboraAndrade, Sara Adrian López deSilva, Vânia AparecidaAndrade, Lissa Izabel Ferreira de2019-05-30T16:24:22Z2019-05-30T16:24:22Z2019-05-292019-02-20info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfANDRADE, L. I. F. de. Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico. 2019. 70 p. Dissertação (Mestrado em Agronomia/Fisiologia Vegetal)–Universidade Federal de Lavras, Lavras, 2019.http://repositorio.ufla.br/jspui/handle/1/34464porinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFLAinstname:Universidade Federal de Lavras (UFLA)instacron:UFLA2023-04-26T21:40:24Zoai:localhost:1/34464Repositório InstitucionalPUBhttp://repositorio.ufla.br/oai/requestnivaldo@ufla.br || repositorio.biblioteca@ufla.bropendoar:2023-04-26T21:40:24Repositório Institucional da UFLA - Universidade Federal de Lavras (UFLA)false |
| dc.title.none.fl_str_mv |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico Photosynthesis and root anatomy in Coffea arabica L. genotypes under water deficit |
| title |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| spellingShingle |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico Andrade, Lissa Izabel Ferreira de Fotossíntese Disponibilidade hídrica Cafeeiro Alterações Raízes Photosynthesis Water availability Coffee tree Roots Fisiologia Vegetal |
| title_short |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| title_full |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| title_fullStr |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| title_full_unstemmed |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| title_sort |
Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico |
| author |
Andrade, Lissa Izabel Ferreira de |
| author_facet |
Andrade, Lissa Izabel Ferreira de |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Marchiori, Paulo Eduardo Ribeiro Domiciano, Débora Andrade, Sara Adrian López de Silva, Vânia Aparecida |
| dc.contributor.author.fl_str_mv |
Andrade, Lissa Izabel Ferreira de |
| dc.subject.por.fl_str_mv |
Fotossíntese Disponibilidade hídrica Cafeeiro Alterações Raízes Photosynthesis Water availability Coffee tree Roots Fisiologia Vegetal |
| topic |
Fotossíntese Disponibilidade hídrica Cafeeiro Alterações Raízes Photosynthesis Water availability Coffee tree Roots Fisiologia Vegetal |
| description |
Coffee trees during their cycle are subjected to periods of water deficit and the complexity of their responses are not yet fully understood. Understanding adaptive responses mechanisms are necessary to predict survival strategies and contribute to the improvement of coffee cultivation under water deficit conditions. The aim was to identify if physiological responses can induce anatomical changes in Coffea arabica L. genotypes under conditions of water deficit that promote drought tolerance. The experiment design was a randomized block design with four materials of C. arabica L. (cvs. Catiguá MG3 and Catuaí IAC; genotypes G7 and G19), grown in pots with 22L capacity and maintained in two contrasting water conditions, with and without water restriction, in a 4x2 factorial scheme, with five replications. Throughout the experimental period it was evaluated the pre-dawn xylem water potential (Ψpd), relative water content (RWC), gas exchange, CO2 and light response curves, photosynthetic pigments content, and root anatomy. The water deficit was responsible to reduce Ψpd and RWC of all four cv./genotypes, being G7 the genotype with lower values under these conditions. The disturbance of the water status of plants under water deficit conditions was responsible for decreasing photosynthesis (A), transpiration (E), and stomatal conductance (gs). A reduction in the maximum assimilation rate of the response curve as a function of the photosynthetically active radiation (AmaxQ) was observed in the photosynthesis response curves for all plants under water deficit. For the CO2 response curve was observed that under lower water availability, there was a reduction in the maximum carboxylation rate (Vcmax), indicating a decrease in the carboxylase activity of Rubisco. The genotype G19 under water deficit showed lower values of regeneration of Ribulose 1,5-biphosphate (RuBP), dependent on the electron transport rate (Jmáx) and the triose-phosphate utilization (TPU), while cv.Catuaí had lower mesophyll conductance (gm). The reduction of Vcmaxand Jmaxindicates that lower photosynthetic rates in plants under water restriction are related to the decrease in the carboxylase activity of Rubisco. In the roots of plants under water deficit, it was observed anatomical modifications in root cross-sectional area of genotypes G7 and G19, in vascular cylinder area of cv.Catuaí, and in the number of root hairs of genotype G7, which may be characterized as strategies in order to enhance the capacity of retention and absorption of water, respectively. The genotype G19 had an increase in the number of tracheal elements and metaxylem poles, as well as the cv.Catiguá and the genotype G7 showed a reduction in the diameter of tracheal element. The genotypes G7 and G19 had higher photosynthetic capacity than cvs.Catiguá and Catuaí in the condition of larger water availability; however when exposed to water deficit conditions there was a reduction of this characteristic for all cv./genotypes, affecting mainly biochemical process. The anatomical changes in coffee trees under water deficit showed that these strategies may contribute to increase the tolerance of each cv./genotype to these conditions. |
| publishDate |
2019 |
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2019-05-30T16:24:22Z 2019-05-30T16:24:22Z 2019-05-29 2019-02-20 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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masterThesis |
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publishedVersion |
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ANDRADE, L. I. F. de. Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico. 2019. 70 p. Dissertação (Mestrado em Agronomia/Fisiologia Vegetal)–Universidade Federal de Lavras, Lavras, 2019. http://repositorio.ufla.br/jspui/handle/1/34464 |
| identifier_str_mv |
ANDRADE, L. I. F. de. Fotossíntese e anatomia de raiz em genótipos de Coffea arabica L. sob déficit hídrico. 2019. 70 p. Dissertação (Mestrado em Agronomia/Fisiologia Vegetal)–Universidade Federal de Lavras, Lavras, 2019. |
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Universidade Federal de Lavras Programa de Pós-graduação em Agronomia/Fisiologia Vegetal UFLA brasil Departamento de Biologia |
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Universidade Federal de Lavras Programa de Pós-graduação em Agronomia/Fisiologia Vegetal UFLA brasil Departamento de Biologia |
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