Distylous species have two floral morphs with reciprocal positions of sexual whorls, functioning to promote cross‐pollination. Additionally, most distylous species have an incompatibility system linked to the discrete variation of anthers and stigmas. Here we provide new data on heterostyly, reproductive biology and pollination in four Psychotria spp. from the Cerrado Region (Brazil). Psychotria deflexa, P. nitidula and P. trichophoroides fitted the distylous morphological syndrome, whereas P. prunifolia was monomorphic and self‐compatible. Reciprocity varied across species, with the upper whorl of anthers and stigmas being more reciprocal than the lower whorl. Psychotria nitidula has a heteromorphic incompatibility system, whereas P. deflexa and P. trichophoroides showed partial self‐compatibility. Psychotria prunifolia and P. trichophoroides were visited by large bees and exhibited lower reproductive efficacy than P. nitidula and P. deflexa, which are visited by wasps and small bees. Our results provide new evidence that the morphological distylous syndrome does not always co‐occur with heteromorphic incompatibility and additional mechanisms (e.g. disassortative pollen transfer) may operate to maintain the polymorphism and isoplethy of species with different incompatibility system.
Resumo Espécies distílicas possuem populações com dois morfos florais. O morfo longistilo possui flores com pistilos longos e estames curtos e o morfo brevistilo, pistilos curtos e estames longos. Normalmente, os morfos apresentam um sistema heteromórfico de incompatibilidade e os morfos estão em uma razão de 1:1 (isopletia) nas populações. Diferentes variações podem ser encontradas em espécies distílicas, como a presença de autocompatibilidade, anisopletia e variações no nível de reciprocidade entre anteras e estigmas dos dois morfos. O objetivo desse trabalho foi investigar a ocorrência das características distílicas em duas espécies de Rubiaceae. Para isso, a razão dos morfos, a hercogamia recíproca, o sistema de incompatibilidade e os visitantes florais de Psychotria deflexa e Declieuxia fruticosa foram estudados. Ambas as espécies apresentaram os dois morfos em proporção semelhante, altos valores de reciprocidade entre a altura dos verticilos sexuais dos morfos florais e apenas insetos como visitantes florais. O morfo brevistilo das duas espécies apresentou autoincompatibilidade parcial. Dentro de Rubiaceae, mesmo em grupos filogenéticos distintos, o relaxamento ou quebra da distilia parece ocorrer em padrões similares e comumente tal variação é mais comum no morfo longistilo. Para as espécies estudadas, mesmo com a pseudocompatibilidade do morfo brevistilo, as populações apresentaram proporção igual dos morfos, indicando que fatores como a alta hercogamia recíproca e, possivelmente, o serviço de polinização podem promover a manutenção da isopletia característica da distilia.
Phenological studies help determine the reproductive and vegetative patterns of plants, contributing to knowledge about dynamics in an environment. We studied the reproductive phenological patterns of five Rubiaceae species in an Atlantic Forest area, evaluating their seed dispersal syndromes and the effects of climatic variables on flowering and fruiting phenology. We monitored reproductive individuals of five species biweekly from February 2015 to February 2016 (one-year period). For each reproductive phenophase, we evaluated the Fournier index and intrapopulational synchronicity. Spearman’s rank correlation was used to determine possible correlations between phenological phenophases and rainfall, temperature and photoperiod. Seed dispersal syndromes were based on morphological analysis and Van der Pijl classification. The Rubiaceae community showed a continuous pattern of flowering and fruiting. However, when analysing phenological patterns by species, there was a higher concentration of phenophases and synchronicity of populations in the rainy season. Flowering and fruiting were positively correlated with temperature and historical average rainfall. Zoochory was the predominant seed dispersal syndrome, indicating the importance of the Rubiaceae family as a year-round resource for frugivorous communities. Temperature and rainfall regulate the reproductive phenophases similarly, resulting in a high level of synchrony between them.
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