Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso
| Ano de defesa: | 2015 |
|---|---|
| Autor(a) principal: | |
| Orientador(a): | |
| Banca de defesa: | |
| Tipo de documento: | Dissertação |
| Tipo de acesso: | Acesso aberto |
| Idioma: | por |
| Instituição de defesa: |
Universidade Federal de Minas Gerais
|
| Programa de Pós-Graduação: |
Não Informado pela instituição
|
| Departamento: |
Não Informado pela instituição
|
| País: |
Não Informado pela instituição
|
| Palavras-chave em Português: | |
| Link de acesso: | https://hdl.handle.net/1843/BUBD-9VZFXY |
Resumo: | Seed dispersal by frugivorous is a key ecological process in tropical ecosystems. The seed dispersal effectiveness (SDE) is influenced by several factors such as the degree of frugivory, how to catch and handle the fruits and gut treatment by disperser. The passage through frugivorous digestive tract may positively influence seed germination by means of mechanical or chemical scarification and pulp removal. In Neotropical region, birds are the main seed dispersers, and Melastomataceae is one of the dominants and most diversified plant families. Miconia is the Melastome largest genus and its fleshy fruits are especially consumed by birds. The staggered fruiting seasons in some species of the genus was observed in many South America forests, and possibly results from interspecific competition for dispersers. Much work has been done on SDE in temperate and tropical forests, but few were made in open tropical ecosystems where frugivorous experts are virtually absent. In our study, we focus on Miconia ligustroides and Miconia pepericarpa ecology of seed dispersal by birds, applying SDE theoretical framework to an open tropical site and using conspicuous ornitocorics plants in the vegetation as a model. Here, we aim to answer the following questions about the studied plant species: (1) What are the fruiting season and the fruit availability for dispersers? (2) The dispersers bird species are equally effective? (3) How seed passage through birds digestive tube affects seed germination? We conducted the study in two areas (campo rupestre and campo sujo) in Serra do Rola Moça State Park that is located in the Iron Quadrangle, in Minas Gerais central-south region, southeastern Brazil. We marked and followed 15 individuals of each species to define the fruiting season and we perform focal observation on plants during this period. In the campo sujo area the visitation frequency was low and we focused the sampling effort in the campo rupestre area. We recorded bird species visitors, visit time and duration, number of individuals, consumption and number of fruits consumed and how to catch and handle the fruit. We consider the bird species that fed whole fruits and that mask the fruits in their beaks as dispersers. We graphically represented the quantitative component (number of visits a disperser makes x number of seeds removed per visit) in a seed dispersal effectiveness landscape, where the isolines represent all quantitative component combinations that produce the same SDE. To analyze the effect of the seed passage through birds digestive tract, we provided fruits for captive birds often observed in the field and we collected defecated seeds. Next, we performed three experimental treatments: seeds manually collected from fruits, seeds defecated by birds and intact fruits, and we monitored germination in 24 h intervals for 60 days to evaluate germination versus time, the average time to germinate 50 % of the seeds and the effect of treatments on the proportion of germinated seeds. Temporal segragation between M. ligustroides and M. pepericarpa fruiting peaks and their dispersers assemblages overlap offer an indication that staggered fruiting seasons in Miconia sympatric species avoids interspecific competition for dispersers, as previously suggested for forest environments. Mimus saturninus and Schistochlamys ruficapillus were the most effectives M. ligustroides dispersers, followed by Elaenia spp. and Turdus leucomelas. For M. pepericarpa they were Zonotrichia capensis and S. ruficapillus, followed by Elaenia spp. and M. saturninus. Given that the parent plant fitness strongly depends on seed removal rates by dispersers, such birds play a crucial role in these plant species reproductive ecology. The results obtained in the germination experiment showed a very significant positive effect of pulp removal provided by birds on seed germination, but there were no scarification effect, which were expected for generalized dispersal systems. Finally, we highlight that the annual differences in the composition of frugivorous assemblages, the various phases involving the dispersal and the germination experiments in the field are interesting topics for future research in this type of ecosystems. |
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2019-08-10T03:56:26Z2025-09-08T23:44:44Z2019-08-10T03:56:26Z2015-02-23https://hdl.handle.net/1843/BUBD-9VZFXYSeed dispersal by frugivorous is a key ecological process in tropical ecosystems. The seed dispersal effectiveness (SDE) is influenced by several factors such as the degree of frugivory, how to catch and handle the fruits and gut treatment by disperser. The passage through frugivorous digestive tract may positively influence seed germination by means of mechanical or chemical scarification and pulp removal. In Neotropical region, birds are the main seed dispersers, and Melastomataceae is one of the dominants and most diversified plant families. Miconia is the Melastome largest genus and its fleshy fruits are especially consumed by birds. The staggered fruiting seasons in some species of the genus was observed in many South America forests, and possibly results from interspecific competition for dispersers. Much work has been done on SDE in temperate and tropical forests, but few were made in open tropical ecosystems where frugivorous experts are virtually absent. In our study, we focus on Miconia ligustroides and Miconia pepericarpa ecology of seed dispersal by birds, applying SDE theoretical framework to an open tropical site and using conspicuous ornitocorics plants in the vegetation as a model. Here, we aim to answer the following questions about the studied plant species: (1) What are the fruiting season and the fruit availability for dispersers? (2) The dispersers bird species are equally effective? (3) How seed passage through birds digestive tube affects seed germination? We conducted the study in two areas (campo rupestre and campo sujo) in Serra do Rola Moça State Park that is located in the Iron Quadrangle, in Minas Gerais central-south region, southeastern Brazil. We marked and followed 15 individuals of each species to define the fruiting season and we perform focal observation on plants during this period. In the campo sujo area the visitation frequency was low and we focused the sampling effort in the campo rupestre area. We recorded bird species visitors, visit time and duration, number of individuals, consumption and number of fruits consumed and how to catch and handle the fruit. We consider the bird species that fed whole fruits and that mask the fruits in their beaks as dispersers. We graphically represented the quantitative component (number of visits a disperser makes x number of seeds removed per visit) in a seed dispersal effectiveness landscape, where the isolines represent all quantitative component combinations that produce the same SDE. To analyze the effect of the seed passage through birds digestive tract, we provided fruits for captive birds often observed in the field and we collected defecated seeds. Next, we performed three experimental treatments: seeds manually collected from fruits, seeds defecated by birds and intact fruits, and we monitored germination in 24 h intervals for 60 days to evaluate germination versus time, the average time to germinate 50 % of the seeds and the effect of treatments on the proportion of germinated seeds. Temporal segragation between M. ligustroides and M. pepericarpa fruiting peaks and their dispersers assemblages overlap offer an indication that staggered fruiting seasons in Miconia sympatric species avoids interspecific competition for dispersers, as previously suggested for forest environments. Mimus saturninus and Schistochlamys ruficapillus were the most effectives M. ligustroides dispersers, followed by Elaenia spp. and Turdus leucomelas. For M. pepericarpa they were Zonotrichia capensis and S. ruficapillus, followed by Elaenia spp. and M. saturninus. Given that the parent plant fitness strongly depends on seed removal rates by dispersers, such birds play a crucial role in these plant species reproductive ecology. The results obtained in the germination experiment showed a very significant positive effect of pulp removal provided by birds on seed germination, but there were no scarification effect, which were expected for generalized dispersal systems. Finally, we highlight that the annual differences in the composition of frugivorous assemblages, the various phases involving the dispersal and the germination experiments in the field are interesting topics for future research in this type of ecosystems.Universidade Federal de Minas GeraisFenologia de frutificaçãoSistemas generalistasEfetividade da dispersão de sementesGerminaçãoEDSEcologiaFrugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginosoinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisAlessandra Monteiro de Oliveira Santosinfo:eu-repo/semantics/openAccessporreponame:Repositório Institucional da UFMGinstname:Universidade Federal de Minas Gerais (UFMG)instacron:UFMGFernando Augusto de Oliveira e SilveiraClaudia Maria JacobiA dispersão de sementes por frugívoros é um processo ecológico chave nos ambientes tropicais. A efetividade da dispersão de sementes (EDS) é influenciada por diversos fatores como grau de frugivoria, modo de apanhar e manipular os frutos e tratamento no tubo digestório do dispersor. A passagem pelo tubo digestório dos frugívoros pode influenciar positivamente a germinação por meio da escarificação mecânica ou química e do despolpamento das sementes. Na região Neotropical, as aves são os principais dispersores de sementes e Melastomataceae é uma das famílias dominantes e mais diversificadas. Miconia é o maior gênero de Melastomataceae e seus frutos carnosos são consumidos especialmente por aves. A frutificação sequencial de espécies do gênero foi observada em diversas vegetações florestais na América do Sul, sendo possivelmente resultante da competição interespecífica por agentes dispersores. Muitos trabalhos foram feitos sobre a EDS em ambientes temperados ou em florestas tropicais, mas poucos foram feitos em ambientes tropicais abertos, onde frugívoros especialistas são virtualmente inexistentes. Em nosso estudo focamos a ecologia da dispersão de sementes por aves de Miconia ligustroides e Miconia pepericarpa, aplicando o arcabouço teórico da EDS a um ambiente tropical aberto e utilizando como modelo plantas ornitocóricas conspícuas na vegetação. Aqui, buscamos responder às seguintes perguntas em relação às espécies vegetais estudadas: (1) Qual o período de frutificação e a disponibilidade de frutos para os dispersores? (2) As espécies de aves dispersoras são igualmente efetivas? (3) Como a passagem das sementes pelo tubo digestório de aves afeta a germinação das sementes? Realizamos o estudo em duas áreas (campo rupestre e campo sujo) no Parque Estadual da Serra do Rola Moça, localizado no Quadrilátero Ferrífero, região centro-sul do estado de Minas Gerais, sudeste do Brasil. Marcamos e acompanhamos 15 indivíduos de cada espécie para definir o período de frutificação e realizamos observação planta-focal nesse período. Na área de campo sujo a frequência de visitação foi baixa e optamos por concentrar o esforço amostral na área de campo rupestre. Registramos espécies de aves visitantes, horário e duração da visita, número de indivíduos, consumo e número de frutos consumidos e modo de apanhar e manipular os frutos. Consideramos dispersoras as espécies de aves que consumiram frutos inteiros e as que mascaram os frutos em seus bicos. Representamos graficamente o componente quantitativo (número de visitas de um dispersor x número de sementes removidas por visita) em uma paisagem de dispersão, onde as isolinhas representam todas as combinações do componente quantitativo que produzem a mesma EDS. Para analisar o efeito da passagem das sementes pelo trato digestório de aves, oferecemos frutos para aves em cativeiro frequentemente observadas em campo e coletamos as sementes defecadas. A seguir, realizamos três tratamentos experimentais: sementes extraídas manualmente de frutos, sementes defecadas por aves e frutos intactos, e monitoramos a germinação em intervalos de 24 h por 60 dias para avaliar a germinação em função do tempo, o tempo médio necessário para germinar 50% das sementes e o efeito dos tratamentos sobre a proporção de sementes germinadas. A segregação temporal entre os picos de frutificação de M. ligustroides e M. pepericarpa e a sobreposição entre suas assembleias de dispersores oferecem um indicativo de que a frutificação sequencial de espécies simpátricas de Miconia evita a competição interespecífica por agentes dispersores, conforme anteriormente sugerido em ambientes florestais. Mimus saturninus e Schistochlamys ruficapillus foram os dispersores mais efetivos para M. ligustroides, seguidos de Elaenia spp. e de Turdus leucomelas. Para M. pepericarpa foram Zonotrichia capensis e S. ruficapillus, seguidos de Elaenia spp. e de M. saturninus. Considerando que a aptidão da planta-mãe depende fortemente das taxas de remoção das sementes pelos dispersores, tais aves desempenham papel crucial na ecologia reprodutiva das espécies vegetais estudadas. Os resultados obtidos no experimento de germinação mostraram um efeito positivo bastante significativo do despolpamento provido pelas aves na germinação das sementes, mas ausência de efeito de escarificação, o que está de acordo com o esperado para os sistemas de dispersão generalistas. Por fim, destacamos que as diferenças anuais na composição da assembleia de frugívoros, as várias fases que envolvem a dispersão, bem como a condução de experimentos de germinação em campo constituem temas interessantes para futuras pesquisas nesse tipo de ambiente.UFMGORIGINALdissertacao_alessandra_santos.pdfapplication/pdf1626785https://repositorio.ufmg.br//bitstreams/b5624ead-65c5-4865-88fc-3d731c1559f8/download1f21c69d3f8ac3afa9e1f7546bcde723MD51trueAnonymousREADTEXTdissertacao_alessandra_santos.pdf.txttext/plain78940https://repositorio.ufmg.br//bitstreams/f8fdd8d7-6740-4e9f-a70e-f67579cf2994/download18b2cb969dcff1286e52d304eea3b593MD52falseAnonymousREAD1843/BUBD-9VZFXY2025-09-08 20:44:44.272open.accessoai:repositorio.ufmg.br:1843/BUBD-9VZFXYhttps://repositorio.ufmg.br/Repositório InstitucionalPUBhttps://repositorio.ufmg.br/oairepositorio@ufmg.bropendoar:2025-09-08T23:44:44Repositório Institucional da UFMG - Universidade Federal de Minas Gerais (UFMG)false |
| dc.title.none.fl_str_mv |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| title |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| spellingShingle |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso Alessandra Monteiro de Oliveira Santos Ecologia Fenologia de frutificação Sistemas generalistas Efetividade da dispersão de sementes Germinação EDS |
| title_short |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| title_full |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| title_fullStr |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| title_full_unstemmed |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| title_sort |
Frugivoria por aves em duas espécies de Miconia (Melastomataceae) em área de campo rupestre ferruginoso |
| author |
Alessandra Monteiro de Oliveira Santos |
| author_facet |
Alessandra Monteiro de Oliveira Santos |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Alessandra Monteiro de Oliveira Santos |
| dc.subject.por.fl_str_mv |
Ecologia |
| topic |
Ecologia Fenologia de frutificação Sistemas generalistas Efetividade da dispersão de sementes Germinação EDS |
| dc.subject.other.none.fl_str_mv |
Fenologia de frutificação Sistemas generalistas Efetividade da dispersão de sementes Germinação EDS |
| description |
Seed dispersal by frugivorous is a key ecological process in tropical ecosystems. The seed dispersal effectiveness (SDE) is influenced by several factors such as the degree of frugivory, how to catch and handle the fruits and gut treatment by disperser. The passage through frugivorous digestive tract may positively influence seed germination by means of mechanical or chemical scarification and pulp removal. In Neotropical region, birds are the main seed dispersers, and Melastomataceae is one of the dominants and most diversified plant families. Miconia is the Melastome largest genus and its fleshy fruits are especially consumed by birds. The staggered fruiting seasons in some species of the genus was observed in many South America forests, and possibly results from interspecific competition for dispersers. Much work has been done on SDE in temperate and tropical forests, but few were made in open tropical ecosystems where frugivorous experts are virtually absent. In our study, we focus on Miconia ligustroides and Miconia pepericarpa ecology of seed dispersal by birds, applying SDE theoretical framework to an open tropical site and using conspicuous ornitocorics plants in the vegetation as a model. Here, we aim to answer the following questions about the studied plant species: (1) What are the fruiting season and the fruit availability for dispersers? (2) The dispersers bird species are equally effective? (3) How seed passage through birds digestive tube affects seed germination? We conducted the study in two areas (campo rupestre and campo sujo) in Serra do Rola Moça State Park that is located in the Iron Quadrangle, in Minas Gerais central-south region, southeastern Brazil. We marked and followed 15 individuals of each species to define the fruiting season and we perform focal observation on plants during this period. In the campo sujo area the visitation frequency was low and we focused the sampling effort in the campo rupestre area. We recorded bird species visitors, visit time and duration, number of individuals, consumption and number of fruits consumed and how to catch and handle the fruit. We consider the bird species that fed whole fruits and that mask the fruits in their beaks as dispersers. We graphically represented the quantitative component (number of visits a disperser makes x number of seeds removed per visit) in a seed dispersal effectiveness landscape, where the isolines represent all quantitative component combinations that produce the same SDE. To analyze the effect of the seed passage through birds digestive tract, we provided fruits for captive birds often observed in the field and we collected defecated seeds. Next, we performed three experimental treatments: seeds manually collected from fruits, seeds defecated by birds and intact fruits, and we monitored germination in 24 h intervals for 60 days to evaluate germination versus time, the average time to germinate 50 % of the seeds and the effect of treatments on the proportion of germinated seeds. Temporal segragation between M. ligustroides and M. pepericarpa fruiting peaks and their dispersers assemblages overlap offer an indication that staggered fruiting seasons in Miconia sympatric species avoids interspecific competition for dispersers, as previously suggested for forest environments. Mimus saturninus and Schistochlamys ruficapillus were the most effectives M. ligustroides dispersers, followed by Elaenia spp. and Turdus leucomelas. For M. pepericarpa they were Zonotrichia capensis and S. ruficapillus, followed by Elaenia spp. and M. saturninus. Given that the parent plant fitness strongly depends on seed removal rates by dispersers, such birds play a crucial role in these plant species reproductive ecology. The results obtained in the germination experiment showed a very significant positive effect of pulp removal provided by birds on seed germination, but there were no scarification effect, which were expected for generalized dispersal systems. Finally, we highlight that the annual differences in the composition of frugivorous assemblages, the various phases involving the dispersal and the germination experiments in the field are interesting topics for future research in this type of ecosystems. |
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2015 |
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2015-02-23 |
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