Publications by authors named "K S Dasmahapatra"
Understanding the genetic and fitness consequences of anthropogenic bottlenecks is crucial for biodiversity conservation. However, studies of bottlenecked populations combining genomic approaches with fitness data are rare. Theory predicts that severe bottlenecks deplete genetic diversity, exacerbate inbreeding depression and decrease population viability.
View Article and Find Full Text PDFInbreeding, the mating of individuals that are related through common ancestry, is of central importance in evolutionary and conservation biology due to its impacts on individual fitness and population dynamics. However, while advanced genomic approaches have revolutionised the study of inbreeding in animals, genomic studies of inbreeding are rare in plants and lacking in fungi. We investigated global patterns of inbreeding in the prized edible porcini mushroom Boletus edulis using 225 whole genomes from seven lineages distributed across the northern hemisphere.
View Article and Find Full Text PDFArticle Synopsis
- Hybridization can facilitate the sharing of adaptations between different lineages and may lead to the emergence of new species, although clear cases of this phenomenon are uncommon.
- In a study of Heliconius butterflies, researchers found that Heliconius elevatus, a hybrid species, has independently evolved for over 180,000 years alongside its parent species, despite ongoing genetic mixing with one parent.
- The study highlighted that specific traits related to survival and reproduction, which were influenced by genetic contributions from both parent species, enabled H. elevatus to thrive in the same environment as its parents, demonstrating that speciation can occur even with gene flow in a complex genetic landscape.
Pheromone communication is widespread among animals. Since it is often involved in mate choice, pheromone production is often tightly controlled. Although male sex pheromones (MSPs) and anti-aphrodisiacs have been studied in some Heliconius butterfly species, little is known about the factors affecting their production and release in these long-lived butterflies.
View Article and Find Full Text PDFPervasive mimicry in flight behavior among aposematic butterflies.
Proc Natl Acad Sci U S A
March 2024
Article Synopsis
- - Flight innovation in insects, particularly in neotropical heliconiine butterflies, is influenced by complex interactions between environmental and biological factors, complicating the understanding of its evolution.
- - A study of 351 butterflies revealed that flight patterns, such as wing beat frequency and angles, vary by color pattern mimicry affiliations, suggesting different flight components face different evolutionary pressures.
- - The findings indicate that predator-driven mimicry significantly influences flight characteristics and can lead to behavioral mimicry even between species that have diverged over tens of millions of years.