Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado
| 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/1/35135 |
Resumo: | The knowledge of factors that determine the ecological distribution of plants is very important for the species conservation. Alto Rio Grande has vegetation with forest patches, campo rupestre and cerrado, and this physiognomic variation of vegetation is due to the region shelters one of the transition areas between the Cerrado of Central Brazil and the semideciduous forests of the Southeast and South of the country. The Gochnatia barrosii (Asteracaeae) species occurs in these varied environments, with capacity to adapt in different phytophysiognomies, indicating a possible phenotypic plasticity. Thus, the objective of this study was to analyze the anatomy and gas exchange of leaves of G. barrosii, in different physiognomies of Parque Ecológico Quedas do Rio Bonito, Lavras - MG. The leaves of 5 individuals were collected from three different areas: 1) Cerrado; 2) Rocky field and 3) Transition Forest - Cerrado. The collected material was prepared, and made paradermic and transverse sections. After, the material was photographed using microscope for analysis. The gas exchanges were evaluated in the field, using the equipment IRGA. The specific leaf area (SLA) was also obtained. The data were analyzed through the Linear Mixed Effects Models (MEML), where the response variables were those of the plant and the explanatory variable the environments. The models were submitted to Analysis of Variance (ANOVA p <0.05) with the Satterthwaite method and the normality and homoscedasticity of the residues tested through Shapiro-Wilk and Breusch-Pagan, respectively. LS-means generic function (Rune Haubo B. Christensen) was used to compare the means in the different environments. In addition, the response variables were submitted to Pearson correlation analysis (p <0.05) and those with significant correlation with SLA were submitted to linear regression analysis. The Relative Distance Plasticity Index (RDPI) was also obtained. There was no influence of the environments on the gas exchange characteristics of G. barrosii. It was observed a greater thickness of the adaxial epidermis in leaves of the cerrado, and of the abaxial in leaves of the rocky field and transition. The stomatal density was higher in the rocky field, while the polar diameter was lower in this environment. The smallest equatorial diameter was observed in the cerrado leaves. There were higher averages for trichome density in leaves from the rocky field and transition. The palisade parenchyma and leaf blade presented thicker leaves in the transition area and the spongy parenchyma was thicker in the Cerrado leaves. On the other hand, the leaves of the transition area had the lowest mean values for SLA. The proportion of xylem and phloem in the main leaf vein was not affected by the different collection environments. The density of trichomes of the abaxial face presented the highest RDPI. The structural modifications in the leaves of G. barrosii indicate that the species has anatomical plasticity that may have contributed to the maintenance of the gas exchange between the different environments of Cerrado. |
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Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerradoStructural responses and gas exchanges in leaves of Gochnatia barrosii (Cabrera). (Asteraceae) occurrent in different cerrado environmentsAnatomia foliarTricomasEstômatoPlasticidade fenotípicaLeaf anatomyTrichomesStomataPhenotypic plasticityBotânica AplicadaThe knowledge of factors that determine the ecological distribution of plants is very important for the species conservation. Alto Rio Grande has vegetation with forest patches, campo rupestre and cerrado, and this physiognomic variation of vegetation is due to the region shelters one of the transition areas between the Cerrado of Central Brazil and the semideciduous forests of the Southeast and South of the country. The Gochnatia barrosii (Asteracaeae) species occurs in these varied environments, with capacity to adapt in different phytophysiognomies, indicating a possible phenotypic plasticity. Thus, the objective of this study was to analyze the anatomy and gas exchange of leaves of G. barrosii, in different physiognomies of Parque Ecológico Quedas do Rio Bonito, Lavras - MG. The leaves of 5 individuals were collected from three different areas: 1) Cerrado; 2) Rocky field and 3) Transition Forest - Cerrado. The collected material was prepared, and made paradermic and transverse sections. After, the material was photographed using microscope for analysis. The gas exchanges were evaluated in the field, using the equipment IRGA. The specific leaf area (SLA) was also obtained. The data were analyzed through the Linear Mixed Effects Models (MEML), where the response variables were those of the plant and the explanatory variable the environments. The models were submitted to Analysis of Variance (ANOVA p <0.05) with the Satterthwaite method and the normality and homoscedasticity of the residues tested through Shapiro-Wilk and Breusch-Pagan, respectively. LS-means generic function (Rune Haubo B. Christensen) was used to compare the means in the different environments. In addition, the response variables were submitted to Pearson correlation analysis (p <0.05) and those with significant correlation with SLA were submitted to linear regression analysis. The Relative Distance Plasticity Index (RDPI) was also obtained. There was no influence of the environments on the gas exchange characteristics of G. barrosii. It was observed a greater thickness of the adaxial epidermis in leaves of the cerrado, and of the abaxial in leaves of the rocky field and transition. The stomatal density was higher in the rocky field, while the polar diameter was lower in this environment. The smallest equatorial diameter was observed in the cerrado leaves. There were higher averages for trichome density in leaves from the rocky field and transition. The palisade parenchyma and leaf blade presented thicker leaves in the transition area and the spongy parenchyma was thicker in the Cerrado leaves. On the other hand, the leaves of the transition area had the lowest mean values for SLA. The proportion of xylem and phloem in the main leaf vein was not affected by the different collection environments. The density of trichomes of the abaxial face presented the highest RDPI. The structural modifications in the leaves of G. barrosii indicate that the species has anatomical plasticity that may have contributed to the maintenance of the gas exchange between the different environments of Cerrado.O entendimento dos fatores que determinam a distribuição ecológica das plantas é de extrema importância para a conservação das espécies. O Alto Rio Grande possui uma vegetação com manchas de floresta, campo rupestre e cerrado, sendo esta variação fisionômica da vegetação devida à região abrigar uma das áreas de transição entre os Cerrados do Brasil Central e as florestas semideciduais do Sudeste e Sul do país. A espécie Gochnatia barrosii (Asteraceae) ocorre nesses ambientes variados, com capacidade de se adaptar em diferentes fitofisionomias, indicando uma possível plasticidade fenotípica. Com isso, o objetivo do estudo foi analisar a anatomia e as trocas gasosas das folhas de G. barrosii, em diferentes fisionomias da vegetação no Parque Ecológico Quedas do Rio Bonito, Lavras – MG. Foram coletadas folhas de 5 indivíduos de três áreas distintas: 1) Cerrado strictu sensu; 2) Campo Rupestre e 3) Transição Mata – Cerrado. O material coletado foi preparado e lâminas de secções transversais e paradérmicas foram, posteriormente, fotografadas com a utilização de microscópio acoplado à câmera digital. As trocas gasosas foram avaliadas em campo, utilizando o equipamento IRGA. Também foi obtida a área foliar específica (AFE). Os dados foram analisados através dos Modelos de Efeitos Mistos Lineares (MEML), onde as variáveis respostas foram as da planta e a variável explanatória os ambientes. Os modelos foram submetidos à Análise de Variância (ANOVA p<0,05) com o método de Satterthwaite e a normalidade e homocedasticidade dos resíduos testadas através de Shapiro-Wilk e BreuschPagan, respectivamente. Para comparação entre as médias nos diferentes ambientes foi utilizada Função Genérica LS-means (Rune Haubo B. Christensen). Além disso, as variáveis respostas foram submetidas à análise de Correlação de Pearson (p<0,05) e aquelas com correlação significativa com a AFE foram submetidas a análise de regressão linear. Obteve-se também o Índice de Plasticidade de Distância Relativa (RDPI).. Não houve influencia dos ambientes nas características de trocas gasosas de G. barrosii. Observou-se maior espessura da epiderme da face adaxial em folhas do cerrado, e da face abaxial em folhas das áreas campo rupestre e transição. A densidade estomática foi maior no campo rupestre, enquanto o diâmetro polar foi menor neste ambiente. O menor diâmetro equatorial foi observado nas folhas coletadas no cerrado. Houve maiores médias para densidade de tricomas nas folhas oriundas do campo rupestre e transição. O parênquima paliçádico e o limbo foliar apresentaram maiores espessuras nas folhas da área de transição e o parênquima esponjoso foi mais espesso nas folhas de cerrado. Por outro lado, as folhas da área de transição apresentaram as menores médias para AFE. A proporção de xilema e de floema na nervura central das folhas não foi afetada pelos diferentes ambientes de coleta. A densidade de tricomas da face abaxial das folhas apresentou o maior RDPI. As modificações estruturais nas folhas de G. barrosii indicam que a espécie possui plasticidade anatômica que podem ter contribuído para a manutenção das trocas gasosas entre os diferentes ambientes de Cerrado.Universidade Federal de LavrasPrograma de Pós-graduação em Botânica AplicadaUFLAbrasilDepartamento de BiologiaLira, Marinês Ferreira PiresMagalhães, Thiago AlvesSouza, Thiago Corrêa deAlmeida, Ana Carolina Melo de2019-07-01T17:07:43Z2019-07-01T17:07:43Z2019-07-012019-04-25info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfALMEIDA, A. C. M. de. Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado. 2019. 47 p. Dissertação (Mestrado em Botânica Aplicada) – Universidade Federal de Lavras, Lavras, 2019.http://repositorio.ufla.br/jspui/handle/1/35135porinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFLAinstname:Universidade Federal de Lavras (UFLA)instacron:UFLA2020-06-26T11:35:06Zoai:localhost:1/35135Repositório InstitucionalPUBhttp://repositorio.ufla.br/oai/requestnivaldo@ufla.br || repositorio.biblioteca@ufla.bropendoar:2020-06-26T11:35:06Repositório Institucional da UFLA - Universidade Federal de Lavras (UFLA)false |
| dc.title.none.fl_str_mv |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado Structural responses and gas exchanges in leaves of Gochnatia barrosii (Cabrera). (Asteraceae) occurrent in different cerrado environments |
| title |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| spellingShingle |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado Almeida, Ana Carolina Melo de Anatomia foliar Tricomas Estômato Plasticidade fenotípica Leaf anatomy Trichomes Stomata Phenotypic plasticity Botânica Aplicada |
| title_short |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| title_full |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| title_fullStr |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| title_full_unstemmed |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| title_sort |
Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado |
| author |
Almeida, Ana Carolina Melo de |
| author_facet |
Almeida, Ana Carolina Melo de |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Lira, Marinês Ferreira Pires Magalhães, Thiago Alves Souza, Thiago Corrêa de |
| dc.contributor.author.fl_str_mv |
Almeida, Ana Carolina Melo de |
| dc.subject.por.fl_str_mv |
Anatomia foliar Tricomas Estômato Plasticidade fenotípica Leaf anatomy Trichomes Stomata Phenotypic plasticity Botânica Aplicada |
| topic |
Anatomia foliar Tricomas Estômato Plasticidade fenotípica Leaf anatomy Trichomes Stomata Phenotypic plasticity Botânica Aplicada |
| description |
The knowledge of factors that determine the ecological distribution of plants is very important for the species conservation. Alto Rio Grande has vegetation with forest patches, campo rupestre and cerrado, and this physiognomic variation of vegetation is due to the region shelters one of the transition areas between the Cerrado of Central Brazil and the semideciduous forests of the Southeast and South of the country. The Gochnatia barrosii (Asteracaeae) species occurs in these varied environments, with capacity to adapt in different phytophysiognomies, indicating a possible phenotypic plasticity. Thus, the objective of this study was to analyze the anatomy and gas exchange of leaves of G. barrosii, in different physiognomies of Parque Ecológico Quedas do Rio Bonito, Lavras - MG. The leaves of 5 individuals were collected from three different areas: 1) Cerrado; 2) Rocky field and 3) Transition Forest - Cerrado. The collected material was prepared, and made paradermic and transverse sections. After, the material was photographed using microscope for analysis. The gas exchanges were evaluated in the field, using the equipment IRGA. The specific leaf area (SLA) was also obtained. The data were analyzed through the Linear Mixed Effects Models (MEML), where the response variables were those of the plant and the explanatory variable the environments. The models were submitted to Analysis of Variance (ANOVA p <0.05) with the Satterthwaite method and the normality and homoscedasticity of the residues tested through Shapiro-Wilk and Breusch-Pagan, respectively. LS-means generic function (Rune Haubo B. Christensen) was used to compare the means in the different environments. In addition, the response variables were submitted to Pearson correlation analysis (p <0.05) and those with significant correlation with SLA were submitted to linear regression analysis. The Relative Distance Plasticity Index (RDPI) was also obtained. There was no influence of the environments on the gas exchange characteristics of G. barrosii. It was observed a greater thickness of the adaxial epidermis in leaves of the cerrado, and of the abaxial in leaves of the rocky field and transition. The stomatal density was higher in the rocky field, while the polar diameter was lower in this environment. The smallest equatorial diameter was observed in the cerrado leaves. There were higher averages for trichome density in leaves from the rocky field and transition. The palisade parenchyma and leaf blade presented thicker leaves in the transition area and the spongy parenchyma was thicker in the Cerrado leaves. On the other hand, the leaves of the transition area had the lowest mean values for SLA. The proportion of xylem and phloem in the main leaf vein was not affected by the different collection environments. The density of trichomes of the abaxial face presented the highest RDPI. The structural modifications in the leaves of G. barrosii indicate that the species has anatomical plasticity that may have contributed to the maintenance of the gas exchange between the different environments of Cerrado. |
| publishDate |
2019 |
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2019-07-01T17:07:43Z 2019-07-01T17:07:43Z 2019-07-01 2019-04-25 |
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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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ALMEIDA, A. C. M. de. Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado. 2019. 47 p. Dissertação (Mestrado em Botânica Aplicada) – Universidade Federal de Lavras, Lavras, 2019. http://repositorio.ufla.br/jspui/handle/1/35135 |
| identifier_str_mv |
ALMEIDA, A. C. M. de. Respostas estruturais e de trocas gasosas em folhas de Gochnatia barrosii (Cabrera). (Asteraceae) ocorrente em diferentes ambientes de cerrado. 2019. 47 p. Dissertação (Mestrado em Botânica Aplicada) – Universidade Federal de Lavras, Lavras, 2019. |
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por |
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por |
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Universidade Federal de Lavras Programa de Pós-graduação em Botânica Aplicada UFLA brasil Departamento de Biologia |
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Universidade Federal de Lavras Programa de Pós-graduação em Botânica Aplicada UFLA brasil Departamento de Biologia |
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reponame:Repositório Institucional da UFLA instname:Universidade Federal de Lavras (UFLA) instacron:UFLA |
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