Self-sterility in the hexaploid Handroanthus serratifolius (Bignoniaceae), the national flower of Brazil

Alves, Mariana Ferreira; Duarte, Mariana Oliveira; Oliveira, Paulo Eugênio; Sampaio, Diana Salles

doi:10.1590/s0102-33062013000400010

Cited by 15 publications

(18 citation statements)

References 48 publications

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“…The diploid Bignoniaceae show a predominance of 2n = 40 chromosomes (Goldblatt and Gentry 1979;Gentry 1980), and most of them present late-acting self-incompatibility-LSI Bianchi 1993, 1999;Bittencourt et al 2003;Bittencourt and Semir 2005;Gandolphi and Bittencourt 2010). Neopolyploidy has been observed in species of Anemopaegma, Dolichandra, Pyrostegia and Handroanthus, with records of 2n = 60, 80 and 120 chromosomes (Goldblatt and Gentry 1979;Piazzano 1998;Firetti-Leggieri et al 2011;Alves et al 2013;Sampaio et al 2013b). Most neopolyploid species of this family are self-fertile, although there are no evidences that neopolyploidy per se is the primary cause of self-fertility in these species.…”

Section: Introductionmentioning

confidence: 99%

“…Among the seven neopolyploid species studied for their breeding systems, six are reported as self-fertile (Gobatto-Rodrigues and Stort 1992;Bittencourt and Moraes 2010;Firetti-Leggieri et al 2013;Sampaio et al 2013a), with the exception of H. serratifolius (Vahl) S.O. Grose that is self-sterile (Alves et al 2013).…”

Section: Introductionmentioning

confidence: 99%

“…Handroanthus serratifolius is taxonomically closely related to Handroanthus ochraceus and H. chrysotrichus and widely distributed in the Neotropics (Gentry 1992;Grose and Olmstead 2007). They are hexaploid (2n = 120 chromosomes) trees, with self-sterile and monoembryonic populations (Alves et al 2013), but also with polyembryonic populations with unknown breeding system (Mendes-Rodrigues et al 2012). Monoembryonic populations of H. serratifolius occur in Minas Gerais State (Sampaio 2010;Alves et al 2013) and polyembryonic populations have been observed both in Goiás and Minas Gerais states, in Southeastern Brazil (Mendes-Rodrigues et al 2012).…”

Section: Introductionmentioning

confidence: 99%

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Sporophytic apomixis in polyembryonic Handroanthus serratifolius (Vahl) S.O. Grose (Bignoniaceae) characterizes the species as an agamic polyploid complex

et al. 2016

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Neopolyploidy has been associated with gametophytic apomixis and breakdown of gametophytic self-incompatibility. Nevertheless, Bignoniaceae presents agamic polyploid complexes with neopolyploidy associated to sporophytic apomixis. Apomictic populations are commonly polyploid, polyembryonic and self-fertile, while diploids are mostly late-acting self-incompatible (LSI) and monoembryonic. Contrastingly, Handroanthus serratifolius shows hexaploid monoembryonic and polyembryonic populations, although breeding system has been studied only for monoembryonic individuals, which are LSI. Our aim here was to investigate breeding system and early embryology in polyembryonic individuals of H. serratifolius to define if they form an agamic polyploid complex. Experimental pollinations and histological analyzes of ovules and young seeds were carried out. Megasporogenesis and megagametogenesis occurred as in other sexual species of Bignoniaceae. The polyembryonic individuals were self-fertile and double fertilization was observed both after self and cross-pollinated pistils. Adventitious embryos originated from the hypostasis and integument of the ovule, indicating sporophytic apomixis. Adventitious embryo precursor cells occurred in all pistils, including unpollinated ones. But unpollinated pistils aborted possibly due to absence of endosperm, and pollination was required for fruit-set (pseudogamy). It is possible that the self-fertility in polyembryonic individuals ensues as the initial endosperm of self-fertilized ovules supply early adventitious embryos development, and these embryos would later prevent the abortion of selfed pistils. The sporophytic apomixis in polyembryonic populations and the occurrence of sexual monoembryonic populations of H. serratifolius allows us to consider the species part of an agamic polyploid complex. But in contrast with other Handroanthus agamic complexes, both apomictic and sexual LSI plants were hexaploid.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Sporophytic apomixis in polyembryonic Handroanthus serratifolius (Vahl) S.O. Grose (Bignoniaceae) characterizes the species as an agamic polyploid complex

et al. 2016

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“…Fruit set data from experimental pollinations in J. cuspidifolia indicated complete self-sterility (no fruit initiated from flowers tested for spontaneous (automatic) and induced (manual) self-pollination in six individuals). Despite the high ovule-seed conversion efficiency of compatible pollinations (including open pollination) in J. cuspidifolia, fruit set by natural pollination was remarkably lower than in cross-pollination in both species which implies their low reproductive efficacy, a common feature in most self-sterile species of Jancaranda (Vieira et al 1992, Guimarães et al 2008, Maués et al 2008, Milet-Pinheiro et al 2008, Sampaio 2010) and other Bignoniaceae (Bittencourt et al 2003, 2011, Bittencourt and Semir 2004, 2005, Gandolphi and Bittencourt 2010, Sampaio 2010, Alves et al 2013, Sampaio et al 2016) that may be related to pollen limitation and ovule discounting (Barrett 2002).…”

Section: Discussionmentioning

confidence: 94%

Reproductive systems and low outbreeding barriers between Jacaranda cuspidifolia and J. mimosifolia (Jacarandeae, Bignoniaceae)

Bittencourt

2019

Nordic Journal of Botany

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The genus Jacaranda shows notable karyotype stability and a prevailing self‐sterile breeding system with evidence of late‐acting self‐incompatibility in several species. However, some studies have indicated self‐compatibility in J. mimosifolia, a species cultivated worldwide in tropical and subtropical areas. Jacaranda cuspidifolia is a closely related species with natural distribution broadly overlapping with that of J. mimosifolia, and manual heterospecific pollination studies have indicated that these species are interfertile, but there is no report on the breeding system of the former. In this study, we used hand‐pollination experiments, pistil longevity, epi‐fluorescence and histological analysis of post‐pollination events to determine the breeding system of J. cuspidifolia. We also employed intra and interspecific crosses and seed germination tests to reevaluate the breeding system of J. mimosifolia and the inter‐fertility between the two species. Some fruits were initiated from self‐pollinated pistils in J. mimosifolia, but none of them reached maturity. On the other hand, complete absence of fruit development by self‐pollination was verified in J. cuspidifolia, while in situ pollen tube growth and histological analysis of post‐pollination events in selfed pistils revealed the characteristic ovule penetration, fertilization and endosperm initiation also observed in other bignoniaceous species with late‐acting self‐incompatibility. Low outbreeding barriers seem to operate between these species because reciprocal interspecific crosses and hybrid seed germination tests indicated they are bilaterally interfertile. However, fruit/seed production and seed germinability were significantly lower when pistils of J. cuspidifolia were pollinated with pollen of J. mimosifolia, compared with crosses in the opposite direction, which indicates a partial unilateral incompatibility. This result is discussed in the context of the possible occurrence of self‐compatibility in J. mimosifolia. The low level of incongruity operating between the two species also points to their recent evolutionary divergence.

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“…Handroanthus serratifolius é uma árvore com 30-37m de altura; sua flor demonstra uma corola tubular infundibuliforme de coloração amarela; o fruto é uma cápsula linear, com muitos nectários extraflorais com a presença de várias sementes retangulares aladas, com germinação simples (GENTRY, 1992;ALVES et al, 2013). Para obtenção das sementes foram coletados frutos maduros e secos de H. serratifolius, na estação reprodutiva da espécie que compreende setembro a dezembro.…”

Section: Methodsunclassified

Um, dois, três, quatro! Um estudo de caso de poliembrionia em Handroanthusserratifolius (Vahl) S. Grose, (Bignoniaceae), Maranhão, Brasil

Braga¹,

Silva²,

Gomes³

et al. 2019

Revista Arquivos Científicos (IMMES)

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Palavras-chave Germinação Cerrado Apomixia O objetivo da pesquisa foi registrar e avaliar a frequência e efeitos da ocorrência de poliembrionia em Handroanthus serratifolius (Vahl) S. Grose, através de um estudo de caso observado na produção de mudas para o projeto de reflorestamento de áreas degradadas no Morro do Alecrim, Caxias-MA. Para obtenção das sementes foram coletados frutos maduros e secos de H. serratifolius, e realizados testes de germinação com as mesmas, evidenciando a existência de vários embriões em algumas sementes. Das 100 sementes submetidas ao teste observou-se a germinação de 70% das sementes, 47 apresentaram apenas um embrião e 16 desenvolveram poliembrionia onde 12 sementes germinaram duas plântulas, 3 sementes emergiram três plântulas, enquanto uma única semente germinou quatro embriões. Alguns trabalhos apontam a poliembrionia em H. serratifolius como resultado de apomixia esporofítica pseudogâmica com embriões adventícios decorrentes da hipóstase e tegumento do óvulo. A poliembrionia é um processo importante e estratégico para manutenção do ciclo de vida de várias espécies, com isso trabalhos que investiguem essa temática são importantes na construção de um maior entendimento do seu funcionamento.

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Self-sterility in the hexaploid Handroanthus serratifolius (Bignoniaceae), the national flower of Brazil

Cited by 15 publications

References 48 publications

Sporophytic apomixis in polyembryonic Handroanthus serratifolius (Vahl) S.O. Grose (Bignoniaceae) characterizes the species as an agamic polyploid complex

Sporophytic apomixis in polyembryonic Handroanthus serratifolius (Vahl) S.O. Grose (Bignoniaceae) characterizes the species as an agamic polyploid complex

Reproductive systems and low outbreeding barriers between Jacaranda cuspidifolia and J. mimosifolia (Jacarandeae, Bignoniaceae)

Um, dois, três, quatro! Um estudo de caso de poliembrionia em Handroanthusserratifolius (Vahl) S. Grose, (Bignoniaceae), Maranhão, Brasil

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