Vinita Gowda scite author profile

In low-density butterfly-pollinated Mussaenda frondosa (Rubiaceae), flowers attract pollinators at short distances while conspicuous, non-rewarding accessory bracts are detectable at long distances by long-ranging pollinators such as the birdwing butterfly Troides minos that did not detect flower-bearing plants in the absence of these bracts. However, even in the absence of flowers, the white, ultraviolet-absorbing bracts attracted butterflies that visited flowerless plants. Although flower visits by short-ranging territorial butterflies declined significantly on removal of bracts, they did not cease completely. Nectar-robbing carpenter bees and birds did not change their behaviour following bract removal. Bract removal caused a significant decline in fruit set, indicating their importance as visual signals to pollinators.

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The mitochondrial genome of the Cinnamon Bittern, Ixobrychus cinnamomeus (Pelecaniformes: Ardeidae): sequence, structure and phylogenetic analysis

Zhang

Wang

Gowda

et al. 2012

Mol Biol Rep

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Ixobrychus cinnamomeus is a member of the large wading bird family, known as Ardeidae. In the present study, we determined the complete mitochondrial genome of I. cinnamomeus for use in future phylogenetic analysis. This circular mitochondrial genome is 17,180 bp in length and composed of 13 protein-coding genes, 22 tRNA genes, two rRNA genes and one putative control region. Three conserved domains and a minisatellite of 17 nucleotides with 22 tandem repeats were detected at the end of the control region. Phylogenetic relationships were reconstructed using the nucleotide and corresponding amino acid datasets of 12 concatenated protein-coding genes from the mitochondrial genome. Using maximum likelihood, maximum parsimony and Bayesian inference methods, the monophyly of Ciconiidae, Ardeidae and Threskiornithidae were confirmed; however, the monophyly of traditional Ciconiiformes and Pelecaniformes failed to be recovered. Although further studies are recommended to clarify relationships among and within the orders of Ciconiiformes, Pelecaniformes, Suliformes and Phaethontiformes, our results provide preliminary exploratory results that can be useful in the current understanding of avian phylogenetics.

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Using an integrated approach to identify cryptic species, divergence patterns and hybrid species in Asian ladies’ tresses orchids (Spiranthes, Orchidaceae)

Surveswaran

Gowda

Sun

2018

Molecular Phylogenetics and Evolution

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Spiranthes (∼36 species, Orchidaceae) is a small genus with a global distribution. It has a center of diversity in North America with only a few species occurring in Asia. This study focuses on the Asian Spiranthes with an emphasis on understanding their biogeographic relationships and species delimitations using molecular markers. Our phylogenetic trees based on nuclear (ITS) and chloroplast (trnL-trnLF, matK and trnS-G) sequences from samples across their range in Asia revealed the Asian Spiranthes are monophyletic. Ancestral area optimization suggested that North America forms the ancestral region for the Asian Spiranthes rather than Europe suggesting that they originated from a single long-distance dispersal event. Our study also revealed the presence of a cryptic species S. himalayensis, which was discovered based on molecular data thus emphasizing the importance of wide geographical sampling in phylogenetic studies. Sequences of cloned ITS provided support for the hypothesis that natural hybridization between S. sinensis and the newly described S. himalayensis resulted in the allotetraploid S. hongkongensis, with S. himalayensis as the paternal parent. One of the species complexes known in Asia is the S. sinensis complex, which shows a wide occurrence and is known for local geographical variants. Some of these variants have been described as new species in Australia and New Zealand. Our studies show that all the sampled variants including the Australian and New Zealand species show monophyly despite having long branches. This suggests that there may be high rates of gene flow between the geographically distinct forms resulting in lack of species resolution within the S. sinensis complex.

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Himalayan orogeny and monsoon intensification explain species diversification in an endemic ginger (Hedychium: Zingiberaceae) from the Indo-Malayan Realm

Ashokan

Xavier

Suksathan³

et al. 2022

Molecular Phylogenetics and Evolution

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Vinita Gowda

Butterfly pollination and high-contrast visual signals in a low-density distylous plant

The mitochondrial genome of the Cinnamon Bittern, Ixobrychus cinnamomeus (Pelecaniformes: Ardeidae): sequence, structure and phylogenetic analysis

Using an integrated approach to identify cryptic species, divergence patterns and hybrid species in Asian ladies’ tresses orchids (Spiranthes, Orchidaceae)

Himalayan orogeny and monsoon intensification explain species diversification in an endemic ginger (Hedychium: Zingiberaceae) from the Indo-Malayan Realm

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