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Schematic of hypothetical relative differences in fruit set and seed set in flowers with sensitive stigmas and open generalist pollination (Scenario 1) versus campanulate-shaped specialist pollination (Scenario 2) and in flowers with (Scenario 2) and without sensitive stigma (Scenario 3)

Schematic of hypothetical relative differences in fruit set and seed set in flowers with sensitive stigmas and open generalist pollination (Scenario 1) versus campanulate-shaped specialist pollination (Scenario 2) and in flowers with (Scenario 2) and without sensitive stigma (Scenario 3)

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Article
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Touch-sensitive movement in stigmas of angiosperm flowers is a phenomenon observable in a timescale of seconds or minutes. Despite its early documentation in a small fraction of angiosperm species, touch-sensitive stigmas (TSS) have been little studied. In this review, we examine its occurrence in the angiosperm phylogeny and investigate associatio...

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Article
Bird pollination is well-established in New World Bignoniaceae, but studies of species with floral traits suggestive of bird pollination in the Old World are lacking. Here we studied the pollination ecology of Mayodendron igneum to test the prediction of pollination by specialist flower-visiting birds. Observations from multiple sites showed that both the Streaked Spiderhunter (Arachnothera magna) and pollen-collecting bees were floral visitors. However, almost no fruit was produced if birds were excluded, suggesting that bees do not play a role in pollination, and that pollination is performed almost exclusively by birds in this self-incompatible tree. Measurements of floral traits revealed a typical bird pollination syndrome, and the nectar concentration and volume were both within the proposed ranges based on other flowers pollinated by specialist birds. However, the rather low level of sucrose (less than 2%) in nectar sugar contradicts the expectation for nectar of flowers pollinated by specialist nectar-feeding birds. Although the Streaked Spiderhunter is among the longest-billed flower-visiting birds in Asia, its bill is only 2/3 of the corolla tube in length, suggesting that the bird can extend the tongue to access nectar. This study is the first to experimentally confirm bird pollination in the Old World Bignoniaceae. It also indicates aspects that are possibly characteristic of spiderhunter pollination systems, i.e. high degrees of specialization, unusual nectar sugar composition, and floral tubes much longer than bird bills.
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Rapid touch-sensitive stigma closure is a novel plant reproductive trait found in hundreds of Lamiales species. The origins, mechanisms, and functions of stigma closure remain poorly understood, but its repeated loss in self-fertilizing taxa and direct tests implicate adaptive roles in animal-mediated cross-pollination. Here, we document several additional losses of stigma closure in monkeyflowers (Mimulus), then use quantitative trait locus (QTL) mapping and gene expression analyses to provide a first glimpse into the genetic and molecular basis of stigma mechanosensing and movement. Variation in stigma closure in hybrids between selfer/non-closer Mimulus nasutus and outcrosser/fast-closer M. guttatus has a moderately complex genetic basis, with four QTLs together explaining ~70% of parental divergence. Loss of stigma closure in M. nasutus appears genetically independent from other aspects of the floral selfing syndrome and from a parallel loss in M. parishii. Analyses of stylar gene expression in closer M. guttatus, M. nasutus, and a rare M. guttatus non-closer genotype identify functional candidates involved in mechanosensing, turgor regulation, and cell wall remodeling. Together, these analyses reveal a polygenic genetic architecture underlying gain and loss of a novel plant movement, illuminate selfer-outcrosser reproductive divergence, and initiate mechanistic investigations of an unusually visible manifestation of plant intelligence.