Medium-length stamen mediates delayed selfing in a two-step self-pollination system in Commelina communis

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The study investigated how trimorphic stamens control self-pollination in Commelina communis, using quantum dots to track pollen after self-pollination in greenhouse and field conditions. In the absence of pollinators, bud pollination and delayed autonomous selfing contributed equally, and delayed selfing depended primarily on the anther of the medium-length stamen (M-anther), while long (L) and short (S) anthers had little or no contribution (S produced infertile pollen). In field experiments with low pollinator visitation, L-anthers increased their self-pollination contribution to levels comparable to bud pollination and M-anther–mediated selfing. This paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

We examined the functional roles of trimorphic stamens in self-pollination in Commelina communis using quantum dots to label pollen grains. In the absence of pollinators (i.e., under greenhouse conditions), bud pollination and delayed autonomous selfing contributed equally to self-pollination. Delayed autonomous selfing was achieved primarily by the anther of the medium-length stamen (M-anther), whereas the long anthers (L-anthers), positioned adjacent to the stigma during anthesis, and the short anthers (S-anthers), which produce a small number of infertile pollen grains, had no contribution. In field experiments, a low pollinator visit frequency restricted outcross pollination, whereas L-anthers increased their contribution to self-pollination to levels comparable to those of bud pollination and M-anther–mediated selfing. Our results reframe heteranthery in C. communis as part of a temporally structured two-step selfing system and provide a basis for reassessing its functional significance under variable pollination environments.
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Abstract We examined the functional roles of trimorphic stamens in self-pollination in Commelina communis using quantum dots to label pollen grains. In the absence of pollinators (i.e., under greenhouse conditions), bud pollination and delayed autonomous selfing contributed equally to self-pollination. Delayed autonomous selfing was achieved primarily by the anther of the medium-length stamen (M-anther), whereas the long anthers (L-anthers), positioned adjacent to the stigma during anthesis, and the short anthers (S-anthers), which produce a small number of infertile pollen grains, had no contribution. In field experiments, a low pollinator visit frequency restricted outcross pollination, whereas L-anthers increased their contribution to self-pollination to levels comparable to those of bud pollination and M-anther–mediated selfing. Our results reframe heteranthery in C. communis as part of a temporally structured two-step selfing system and provide a basis for reassessing its functional significance under variable pollination environments. Competing Interest Statement The authors have declared no competing interest.

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