Evolution of physiological dormancy multiple times in Melastomataceae from Neotropical montane vegetation

We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae), Tibouchina cardinalis (Melastomeae), Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae)....

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Published in	Seed science research Vol. 22; no. 1; pp. 37 - 44
Main Authors	Silveira, Fernando A.O., Ribeiro, Rafaella C., Oliveira, Denise M.T., Fernandes, G. Wilson, Lemos-Filho, José P.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.03.2012
Subjects	Brazil cerrado Drought Embryos Miconia Microhabitats mortality phylogeny Physiology Rainy season seed coat seed dispersal seed dormancy Seeds Tibouchina tropics Vegetation wet season Brazil rupestrian fields Espinhaço Range cerrado seasonality convergent evolution drought-induced mortality
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Abstract	We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae), Tibouchina cardinalis (Melastomeae), Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae). For these four species, germinability of seeds collected in different years was always < 10% and the percentages of embryoless seeds and non-viable embryos were both insufficient to explain low or null germinability. This is the first unequivocal report of seed dormancy in tropical Melastomataceae. The production of seeds with permeable seed coats and fully developed, differentiated embryos indicates the occurrence of physiological dormancy. The reconstructed phylogenetic tree of the 50 species suggests that physiological dormancy evolved multiple times during the evolutionary history of Melastomataceae in this vegetation. Physiological dormancy evolved in species and populations associated with xeric microhabitats, where seeds are dispersed in unfavourable conditions for establishment. Therefore, drought-induced mortality may have been a strong selective pressure favouring the evolution of physiological dormancy in Melastomataceae. We argue that dormancy may have been independently selected in other lineages of Cerrado plants colonizing xeric microhabitats and dispersing seeds at the end of the rainy season. The contributions of our data to the understanding of seed dormancy in tropical montane vegetation are discussed.
AbstractList	We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae), Tibouchina cardinalis (Melastomeae), Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae). For these four species, germinability of seeds collected in different years was always < 10% and the percentages of embryoless seeds and non-viable embryos were both insufficient to explain low or null germinability. This is the first unequivocal report of seed dormancy in tropical Melastomataceae. The production of seeds with permeable seed coats and fully developed, differentiated embryos indicates the occurrence of physiological dormancy. The reconstructed phylogenetic tree of the 50 species suggests that physiological dormancy evolved multiple times during the evolutionary history of Melastomataceae in this vegetation. Physiological dormancy evolved in species and populations associated with xeric microhabitats, where seeds are dispersed in unfavourable conditions for establishment. Therefore, drought-induced mortality may have been a strong selective pressure favouring the evolution of physiological dormancy in Melastomataceae. We argue that dormancy may have been independently selected in other lineages of Cerrado plants colonizing xeric microhabitats and dispersing seeds at the end of the rainy season. The contributions of our data to the understanding of seed dormancy in tropical montane vegetation are discussed. We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae), Tibouchina cardinalis (Melastomeae), Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae). For these four species, germinability of seeds collected in different years was always < 10% and the percentages of embryoless seeds and non-viable embryos were both insufficient to explain low or null germinability. This is the first unequivocal report of seed dormancy in tropical Melastomataceae. The production of seeds with permeable seed coats and fully developed, differentiated embryos indicates the occurrence of physiological dormancy. The reconstructed phylogenetic tree of the 50 species suggests that physiological dormancy evolved multiple times during the evolutionary history of Melastomataceae in this vegetation. Physiological dormancy evolved in species and populations associated with xeric microhabitats, where seeds are dispersed in unfavourable conditions for establishment. Therefore, drought-induced mortality may have been a strong selective pressure favouring the evolution of physiological dormancy in Melastomataceae. We argue that dormancy may have been independently selected in other lineages of Cerrado plants colonizing xeric microhabitats and dispersing seeds at the end of the rainy season. The contributions of our data to the understanding of seed dormancy in tropical montane vegetation are discussed. We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae) , Tibouchina cardinalis (Melastomeae) , Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae). For these four species, germinability of seeds collected in different years was always < 10% and the percentages of embryoless seeds and non-viable embryos were both insufficient to explain low or null germinability. This is the first unequivocal report of seed dormancy in tropical Melastomataceae. The production of seeds with permeable seed coats and fully developed, differentiated embryos indicates the occurrence of physiological dormancy. The reconstructed phylogenetic tree of the 50 species suggests that physiological dormancy evolved multiple times during the evolutionary history of Melastomataceae in this vegetation. Physiological dormancy evolved in species and populations associated with xeric microhabitats, where seeds are dispersed in unfavourable conditions for establishment. Therefore, drought-induced mortality may have been a strong selective pressure favouring the evolution of physiological dormancy in Melastomataceae. We argue that dormancy may have been independently selected in other lineages of Cerrado plants colonizing xeric microhabitats and dispersing seeds at the end of the rainy season. The contributions of our data to the understanding of seed dormancy in tropical montane vegetation are discussed. Abstract We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds: Miconia corallina (Miconieae), Tibouchina cardinalis (Melastomeae), Comolia sertularia (Melastomeae) and Chaetostoma armatum (Microlicieae). For these four species, germinability of seeds collected in different years was always < 10% and the percentages of embryoless seeds and non-viable embryos were both insufficient to explain low or null germinability. This is the first unequivocal report of seed dormancy in tropical Melastomataceae. The production of seeds with permeable seed coats and fully developed, differentiated embryos indicates the occurrence of physiological dormancy. The reconstructed phylogenetic tree of the 50 species suggests that physiological dormancy evolved multiple times during the evolutionary history of Melastomataceae in this vegetation. Physiological dormancy evolved in species and populations associated with xeric microhabitats, where seeds are dispersed in unfavourable conditions for establishment. Therefore, drought-induced mortality may have been a strong selective pressure favouring the evolution of physiological dormancy in Melastomataceae. We argue that dormancy may have been independently selected in other lineages of Cerrado plants colonizing xeric microhabitats and dispersing seeds at the end of the rainy season. The contributions of our data to the understanding of seed dormancy in tropical montane vegetation are discussed. [PUBLICATION ABSTRACT]
Author	Oliveira, Denise M.T. Lemos-Filho, José P. Silveira, Fernando A.O. Fernandes, G. Wilson Ribeiro, Rafaella C.
Author_xml	– sequence: 1 givenname: Fernando A.O. surname: Silveira fullname: Silveira, Fernando A.O. email: faosilveira@gmail.com organization: Departamento de Botânica/ICB/Universidade Federal de Minas Gerais, CP 486, 31270-901, Belo Horizonte, Minas Gerais, Brazil – sequence: 2 givenname: Rafaella C. surname: Ribeiro fullname: Ribeiro, Rafaella C. organization: Departamento de Botânica/ICB/Universidade Federal de Minas Gerais, CP 486, 31270-901, Belo Horizonte, Minas Gerais, Brazil – sequence: 3 givenname: Denise M.T. surname: Oliveira fullname: Oliveira, Denise M.T. organization: Departamento de Botânica/ICB/Universidade Federal de Minas Gerais, CP 486, 31270-901, Belo Horizonte, Minas Gerais, Brazil – sequence: 4 givenname: G. Wilson surname: Fernandes fullname: Fernandes, G. Wilson organization: Ecologia Evolutiva and Biodiversidade/DBG, ICB/Universidade Federal de Minas Gerais, CP 486, 31270-901, Belo Horizonte, Minas Gerais, Brazil – sequence: 5 givenname: José P. surname: Lemos-Filho fullname: Lemos-Filho, José P. organization: Departamento de Botânica/ICB/Universidade Federal de Minas Gerais, CP 486, 31270-901, Belo Horizonte, Minas Gerais, Brazil
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References	Mendonça (S0960258511000286_ref24) 2008 S0960258511000286_ref20 S0960258511000286_ref1 S0960258511000286_ref21 S0960258511000286_ref26 S0960258511000286_ref27 Harper (S0960258511000286_ref15) 1977 Baskin (S0960258511000286_ref6) 2005 S0960258511000286_ref25 S0960258511000286_ref7 S0960258511000286_ref9 S0960258511000286_ref8 S0960258511000286_ref2 Jurado (S0960258511000286_ref18) 2002 Medeiros (S0960258511000286_ref22) 1997; 48 S0960258511000286_ref5 S0960258511000286_ref4 Gomes (S0960258511000286_ref14) 2001; 27 S0960258511000286_ref28 Giulietti (S0960258511000286_ref13) 1997 Mendes-Rodrigues (S0960258511000286_ref23) 2010; 33 Hatschbach (S0960258511000286_ref16) 2006; 67 S0960258511000286_ref33 S0960258511000286_ref11 S0960258511000286_ref12 S0960258511000286_ref34 S0960258511000286_ref31 S0960258511000286_ref32 S0960258511000286_ref10 S0960258511000286_ref35 S0960258511000286_ref36 Ranal (S0960258511000286_ref29) 2006; 29 S0960258511000286_ref30 Anderssen (S0960258511000286_ref3) 1998; 8 Lacerda (S0960258511000286_ref19) 2004; 14 S0960258511000286_ref17
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Snippet	We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had dormant seeds:... Abstract We investigated seed dormancy among species of Melastomataceae from Neotropical montane vegetation of Brazil. Four out of 50 studied species had...
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SubjectTerms	Brazil cerrado Drought Embryos Miconia Microhabitats mortality phylogeny Physiology Rainy season seed coat seed dispersal seed dormancy Seeds Tibouchina tropics Vegetation wet season
Title	Evolution of physiological dormancy multiple times in Melastomataceae from Neotropical montane vegetation
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