Chapter 14. Floral Diversification

Abstract Understanding the evolution of floral morphology requires information about the identity of pollinators as well as the specific mechanisms of pollen transfer. Based on preliminary field observations and floral structure, we hypothesized that pollination mechanisms involving the transfer of pollen on butterfly wings occur in several lineages of South African Amaryllidaceae. Here we report findings from a detailed study of butterfly-wing pollination in two subspecies of Scadoxus multiflorus and review the prevalence of this pollination mechanism among other Amaryllidaceae in southern Africa. We established that S. multiflorus subsp. katherinae is genetically self-incompatible and thus entirely reliant on pollinators for seed production. We determined that this subspecies is pollinated almost exclusively by large swallowtail butterflies, principally males of the mocker swallowtail Papilio dardanus cenea. Flowers of S. multiflorus subsp. multiflorus are pollinated by pierid and swallowtail butterflies. Pollen is deposited on the ventral surface of the wings of butterflies as they flutter over the strongly exserted stamens. We predict that butterfly-wing pollination occurs in at least nine species of South African Amaryllidaceae, which may reflect several independent origins of this mechanism. The flowers of these species are red or orange with strong herkogamy and are either bowl-brush or open-brush in shape. We provide maps of the distribution of pollen on the ventral surface of the wings of pollinators for four of these species. All four appear to be pollinated via the ventral surface of large butterfly wings, with the floral structure facilitating the process. These findings illustrate the importance of investigating pollen transfer mechanisms in order to understand patterns of floral diversification and floral convergence.

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The role of pollinators in the floral diversification and life history of Leucospermum (Proteaceae)

South African Journal of Botany ◽

10.1016/j.sajb.2015.03.007 ◽

2015 ◽

Vol 98 ◽

pp. 168

Author(s):

C.M. Johnson ◽

T. He ◽

B. Lamont ◽

A. Pauw

Keyword(s):

Life History ◽

Floral Diversification ◽

History Of

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Disentangling the ecological basis of floral trait variation in Neotropical Piper species

Botanical Journal of the Linnean Society ◽

10.1093/botlinnean/boaa090 ◽

2020 ◽

Author(s):

Adriano Valentin-Silva ◽

Marco Antonio Batalha ◽

Elza Guimarães

Keyword(s):

Sexual Reproduction ◽

Phylogenetic Signal ◽

Abiotic Factors ◽

Floral Traits ◽

Minor Role ◽

Floral Trait ◽

Floral Diversification ◽

Pollen Vectors ◽

A Minor ◽

Pollination Systems

Abstract In generalist pollination systems, it has been assumed that pollinators play a minor role in the diversification of floral traits, but recent studies have pointed to a different scenario. Although pollination in Piper is considered generalist, there are flower and inflorescence variations among subclades that may be associated with different pollinator functional groups. Based on this, we aimed to test whether pollinators influenced the evolution of floral traits in a clade of generalist plants, by studying 17 co-occurring Piper spp. Sixteen species were insect-pollinated (46 species: bees, beetles and flies). We found no evidence of anemophily. Eight species were dependent on pollen vectors for sexual reproduction, but no correlation between floral and pollinator traits was recorded. None of the floral traits presented phylogenetic signal, and the evolution of these traits was not correlated. Nine species were independent of pollen vectors for sexual reproduction. We did not find any evidence of pollinator-driven floral diversification of Piper spp.; we suggest a possible role of abiotic factors as agents of selection on floral diversification. As self-pollination seems to be a common feature in the genus, the flexibility of mating systems could be another important factor related to the maintenance of floral phenotypic variation.

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Opertochasma somaensis n. sp. (Bivalvia: Pholadidae) from the Upper Jurassic in Japan: a perspective on pholadoidean early evolution

Journal of Paleontology ◽

10.1666/10-008.1 ◽

2011 ◽

Vol 85 (3) ◽

pp. 478-488 ◽

Cited By ~ 6

Author(s):

Takuma Haga ◽

Tomoki Kase

Keyword(s):

New Species ◽

Late Jurassic ◽

Upper Jurassic ◽

Shell Morphology ◽

Middle Latitudes ◽

Mode Of Life ◽

Floral Diversification ◽

History Of ◽

Wood Borer

The evolutionary history of the major boring-bivalve superfamily Pholadoidea remains unclear. Opertochasma somaensis n. sp., preserved in situ in fossilized wood from upper Kimmeridgian to lower Tithonian strata within the Upper Jurassic shallow marine Nakanosawa Formation, northeast Japan, is described. This new species represents one of the oldest body fossils of pholadoidean boring-bivalves and the first fossil record from the Jurassic in the circum-Pacific regions. The authochthonous occurrence in fossilized wood, the presence of microscopic file-like sculpture on the anterior shell slope, the short clavate burrow, and other shell features demonstrate that O. somaensis n. sp. was a filter-feeding, obligate wood-borer with anterior-boring locomotion, and also that the complex shell morphology unique to Pholadoidea was established by the Late Jurassic. The documentation of the new species and taxonomic review on the Jurassic species previously described, show that the superfamily Pholadoidea was widely distributed along the Northern Hemisphere middle latitudes in the latest Jurassic. The Pholadoidea likely evolved by exploiting woody substrata which had become abundant during the Late Jurassic with floral diversification in the middle latitudes. It is notable that the xylophagous mode of life, referable to modern Teredinidae and Xylophagaidae, was most probably established in the Jurassic and provided an important background for the establishment of chemosynthesis-based, sunken wood-associated communities.

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Comparative analysis of whole flower transcriptomes in the Zingiberales

PeerJ ◽

10.7717/peerj.5490 ◽

2018 ◽

Vol 6 ◽

pp. e5490 ◽

Cited By ~ 3

Author(s):

Ana Maria R. Almeida ◽

Alma Piñeyro-Nelson ◽

Roxana B. Yockteng ◽

Chelsea D. Specht

Keyword(s):

Molecular Mechanisms ◽

De Novo ◽

Model Organisms ◽

Comparative Approach ◽

Careful Study ◽

Sequencing Technologies ◽

Outgroup Species ◽

Floral Diversification ◽

Genomic Scale ◽

Insight Into

The advancement of next generation sequencing technologies (NGS) has revolutionized our ability to generate large quantities of data at a genomic scale. Despite great challenges, these new sequencing technologies have empowered scientists to explore various relevant biological questions on non-model organisms, even in the absence of a complete sequenced reference genome. Here, we analyzed whole flower transcriptome libraries from exemplar species across the monocot order Zingiberales, using a comparative approach in order to gain insight into the evolution of the molecular mechanisms underlying flower development in the group. We identified 4,153 coding genes shared by all floral transcriptomes analyzed, and 1,748 genes that are only retrieved in the Zingiberales. We also identified 666 genes that are unique to the ginger lineage, and 2,001 that are only found in the banana group, while in the outgroup species Dichorisandra thyrsiflora J.C. Mikan (Commelinaceae) we retrieved 2,686 unique genes. It is possible that some of these genes underlie lineage-specific molecular mechanisms of floral diversification. We further discuss the nature of these lineage-specific datasets, emphasizing conserved and unique molecular processes with special emphasis in the Zingiberales. We also briefly discuss the strengths and shortcomings of de novo assembly for the study of developmental processes across divergent taxa from a particular order. Although this comparison is based exclusively on coding genes, with particular emphasis in transcription factors, we believe that the careful study of other regulatory mechanisms, such as non-coding RNAs, might reveal new levels of complexity, which were not explored in this work.

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Inflorescence and floral traits of the Colombian species of Tristerix (Loranthaceae) related to hummingbird pollination

Anales del Jardín Botánico de Madrid ◽

10.3989/ajbm.2474 ◽

2017 ◽

Vol 74 (2) ◽

pp. 061 ◽

Cited By ~ 1

Author(s):

Favio González ◽

Natalia Pabón-Mora

Keyword(s):

Morphological Traits ◽

Sister Group ◽

Floral Traits ◽

The Andes ◽

Hummingbird Pollination ◽

Floral Diversification ◽

Successive Initiation ◽

Group Relationships

Floral diversification in Loranthaceae reaches its highest peak in the Andes. The flowers of the exclusively Andean genus Tristerix exhibit tubular and vividly coloured flowers pollinated by hummingbirds. We studied inflorescence and flower morphoanatomy of the two Colombian species, T. longebracteatus and the highly endangered T. secundus. Both species have terminal racemes with up to 26 ebracteolate flowers, of which the proximal one opens and sets fruits first. The slightly irregular calyx initiation is followed by the simultaneous initiation of petals and the successive initiation of stamens. Anthesis is fenestrate, explosive, and triggered by the tension of the style against the abaxial petals, a mode so far not reported in Loranthaceae. Anthetic petals spread symmetrically in T. longebracteatus and asymmetrically in T. secundus. Nectar is produced by a supraovarial disk and by the petal mesophyll. Floral lifespan lasts up to 20 days. The hummingbirds Eriocnemis vestita and Pterophanes cyanopterus are the likely pollinators of T. secundus. Morphological traits are inconclusive to support one of the two competing sister group relationships that involve Tristerix, as the lack of cataphylls in renewal shoots links Ligaria and Tristerix, whereas the terminal inflorescences support its relationship with Desmaria and Tupeia.

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