Your search keyword '"Kodandaramaiah U"' showing total 73 results

1. Visual associative learning and olfactory preferences of the greater banded hornet, Vespa tropica

Author

Balamurali, G. S., Reshnuraj, R. S., Johnson, J., Kodandaramaiah, U., and Somanathan, H.

Published

2021

2. Correction to: Visual associative learning and olfactory preferences of the greater banded hornet, Vespa tropica

Author

Balamurali, G. S., Reshnuraj, R. S., Johnson, J., Kodandaramaiah, U., and Somanathan, H.

Published

2021

3. Effect of density on pupal colour plasticity in the butterfly Mycalesis mineus (Lepidoptera, Nymphalidae)

Author

Mayekar, H. V., primary and Kodandaramaiah, U., additional

Published

2021

4. Conserved ancestral tropical niche but different continental histories explain the latitudinal diversity gradient in brush-footed butterflies

Author

Agence Nationale de la Recherche (France), National Geographic Society, Sigma Xi, Czech Science Foundation, Agencia Estatal de Investigación (España), Generalitat de Catalunya, Swedish Research Council, Lund University, Chazot, Nicolas, Condamine, Fabien L., Dudas, Gytis, Peña, Carlos, Kodandaramaiah, U., Matos-Maraví, Pável, Aduse-Poku, Kwaku, Elias, Marianne, Warren, Andrew D., Lohman, David J., Penz, Carla M., DeVries, Phil, Fric, Zdenek F., Nylin, Soren, Müller, C., Kawahara, Akito Y., Silva-Brandão, Karina L., Lamas, Gerardo, Kleckova, Irena, Zubek, Anna, Ortiz-Acevedo, Elena, Vila, Roger, Vane-Wright, Richard I., Mullen, Sean P., Jiggins, Chris D., Wheat, Christopher W., Freitas, André V. L., Wahlberg, Niklas, Agence Nationale de la Recherche (France), National Geographic Society, Sigma Xi, Czech Science Foundation, Agencia Estatal de Investigación (España), Generalitat de Catalunya, Swedish Research Council, Lund University, Chazot, Nicolas, Condamine, Fabien L., Dudas, Gytis, Peña, Carlos, Kodandaramaiah, U., Matos-Maraví, Pável, Aduse-Poku, Kwaku, Elias, Marianne, Warren, Andrew D., Lohman, David J., Penz, Carla M., DeVries, Phil, Fric, Zdenek F., Nylin, Soren, Müller, C., Kawahara, Akito Y., Silva-Brandão, Karina L., Lamas, Gerardo, Kleckova, Irena, Zubek, Anna, Ortiz-Acevedo, Elena, Vila, Roger, Vane-Wright, Richard I., Mullen, Sean P., Jiggins, Chris D., Wheat, Christopher W., Freitas, André V. L., and Wahlberg, Niklas

Abstract

The global increase in species richness toward the tropics across continents and taxonomic groups, referred to as the latitudinal diversity gradient, stimulated the formulation of many hypotheses to explain the underlying mechanisms of this pattern. We evaluate several of these hypotheses to explain spatial diversity patterns in a butterfly family, the Nymphalidae, by assessing the contributions of speciation, extinction, and dispersal, and also the extent to which these processes differ among regions at the same latitude. We generate a time-calibrated phylogeny containing 2,866 nymphalid species (~45% of extant diversity). Neither speciation nor extinction rate variations consistently explain the latitudinal diversity gradient among regions because temporal diversification dynamics differ greatly across longitude. The Neotropical diversity results from low extinction rates, not high speciation rates, and biotic interchanges with other regions are rare. Southeast Asia is also characterized by a low speciation rate but, unlike the Neotropics, is the main source of dispersal events through time. Our results suggest that global climate change throughout the Cenozoic, combined with tropical niche conservatism, played a major role in generating the modern latitudinal diversity gradient of nymphalid butterflies.

Published

2021

5. Reproductive isolation and patterns of genetic differentiation in a cryptic butterfly species complex

Author

Dincă, V., Wiklund, C., Lukhtanov, V. A., Kodandaramaiah, U., Norén, K., Dapporto, L., Wahlberg, N., Vila, R., and Friberg, M.

Published

2013

6. Population structure in relation to host-plant ecology and Wolbachia infestation in the comma butterfly

Author

KODANDARAMAIAH, U., WEINGARTNER, E., JANZ, N., DALÉN, L., and NYLIN, S.

Published

2011

7. Effect of density on pupal colour plasticity in the butterfly Mycalesis mineus (Lepidoptera, Nymphalidae).

Author

Mayekar, H. V. and Kodandaramaiah, U.

Subjects

*NYMPHALIDAE, *LEPIDOPTERA, *DENSITY, *BUTTERFLIES, *PLASTIC containers

Abstract

We tested the effect of larval density on pupal colour plasticity in the butterfly Mycalesis mineus. Pupal colour of this species is known to be a plastic phenotype, being either brown or green. Colour is correlated with pupation substrate: pupae on leaves are almost exclusively green, whereas off‐leaf substrates (stem, soil, etc.) include both green and brown pupae. We hypothesised that brown pupae are more frequent at high larval densities and tested this hypothesis using two experiments. In the first experiment, we reared larvae at different densities in plastic containers, which provided a restricted choice of pupation substrates. There was no influence of density on pupal colour. In the second experiment, we simulated more natural conditions, wherein larvae were reared in nylon mesh sleeves and had a greater choice of pupation substrates. Here, there was a strong correlation between larval density and the proportion of brown pupae. We discuss why results from the two experiments may have differed and what can be concluded about factors influencing pupal colour. We also discuss the importance of choice of experimental protocols, especially in relation to how realism trades off with practicality and control. [ABSTRACT FROM AUTHOR]

Published

2022

8. Out-of-Africa origin and dispersal-mediated diversification of the butterfly genus Junonia (Nymphalidae: Nymphalinae)

Author

KODANDARAMAIAH, U. and WAHLBERG, N.

Published

2007

9. The stable isotope ecology of mycalesine butterflies: implications for plant–insect co-evolution

Author

Van Bergen, E, Barlow, HS, Brattström, O, Griffiths, H, Kodandaramaiah, U, Osborne, CP, and Brakefield, PM

Subjects

larval ecology, stable isotopes, C-4 photosynthesis, plant-insect co-evolution, mycalesine butterflies

Abstract

Functional Ecology © 2016 British Ecological Society One of the most dramatic examples of biome shifts in the geological record is the rapid replacement of C 3 vegetation by C 4 grasses in (sub-) tropical regions during the Late Miocene–Pliocene. Climate-driven biome shifts of this magnitude are expected to have a major impact on diversification and ecological speciation, especially in grazing taxa. Mycalesine butterflies are excellent candidates to explore the evolutionary impact of these C 3 /C 4 shifts on insect grazer communities. Mycalesine butterflies feed on grasses as larvae, have radiated spectacularly and occur in almost all extant habitats across the Old World tropics. However, at present, we lack a comprehensive understanding of the larval ecology of these butterflies and this hampers investigations of co-evolutionary patterns among the geographically parallel radiations of mycalesine butterflies and the remarkable evolutionary history of their host plants. By conducting several experiments under defined environmental conditions, we demonstrate that the feeding history of mycalesine larvae on C 3 and C 4 grasses can be traced by analysing δ 13 C in the organic material of the adult exoskeleton, while values of δ 18 O in the adult reflect atmospheric humidity during larval development. To show the power of these isotopic proxies for ecological studies, we analysed the isotopic composition of organic material obtained from adult butterflies sampled in two extensive longitudinal surveys. We observed strong associations among the larval ecology, habitat preferences of the adult butterflies and patterns of seasonality, such that mycalesine species that inhabit open environments are more opportunistic in their host plant choice but utilize C 3 grasses more frequently during the dry season. Crucially, the ability to process the less palatable C 4 grasses appears to be phylogenetically clustered within mycalesine species, suggesting that novel feeding adaptations may have evolved in response to the ecological dominance of C 4 grasses in open savanna habitats. A lay summary is available for this article.

Published

2018

10. Digging their own macroevolutionary grave: fossoriality as an evolutionary dead end in snakes

Author

Cyriac, V. P., primary and Kodandaramaiah, U., additional

Published

2018

11. The stable isotope ecology of mycalesine butterflies: implications for plant–insect co-evolution

Author

van Bergen, E, Barlow, HS, Brattström, O, Griffiths, H, Kodandaramaiah, U, Osborne, CP, Brakefield, PM, Griffiths, Howard [0000-0002-3009-6563], Brakefield, Paul [0000-0001-6564-8914], and Apollo - University of Cambridge Repository

Subjects

larval ecology, stable isotopes, C-4 photosynthesis, plant-insect co-evolution, mycalesine butterflies

Abstract

Functional Ecology © 2016 British Ecological Society One of the most dramatic examples of biome shifts in the geological record is the rapid replacement of C 3 vegetation by C 4 grasses in (sub-) tropical regions during the Late Miocene–Pliocene. Climate-driven biome shifts of this magnitude are expected to have a major impact on diversification and ecological speciation, especially in grazing taxa. Mycalesine butterflies are excellent candidates to explore the evolutionary impact of these C 3 /C 4 shifts on insect grazer communities. Mycalesine butterflies feed on grasses as larvae, have radiated spectacularly and occur in almost all extant habitats across the Old World tropics. However, at present, we lack a comprehensive understanding of the larval ecology of these butterflies and this hampers investigations of co-evolutionary patterns among the geographically parallel radiations of mycalesine butterflies and the remarkable evolutionary history of their host plants. By conducting several experiments under defined environmental conditions, we demonstrate that the feeding history of mycalesine larvae on C 3 and C 4 grasses can be traced by analysing δ 13 C in the organic material of the adult exoskeleton, while values of δ 18 O in the adult reflect atmospheric humidity during larval development. To show the power of these isotopic proxies for ecological studies, we analysed the isotopic composition of organic material obtained from adult butterflies sampled in two extensive longitudinal surveys. We observed strong associations among the larval ecology, habitat preferences of the adult butterflies and patterns of seasonality, such that mycalesine species that inhabit open environments are more opportunistic in their host plant choice but utilize C 3 grasses more frequently during the dry season. Crucially, the ability to process the less palatable C 4 grasses appears to be phylogenetically clustered within mycalesine species, suggesting that novel feeding adaptations may have evolved in response to the ecological dominance of C 4 grasses in open savanna habitats. A lay summary is available for this article.

Published

2016

12. The stable isotope ecology of mycalesine butterflies: implications for plant-insect co-evolution

Author

van Bergen, E., Barlow, H.S., Brattström, O., Griffiths, H., Kodandaramaiah, U., Osborne, C.P., and Brakefield, P.M.

Published

2016

13. Evolutionary significance of butterfly eyespots

Author

Kodandaramaiah U

Published

2011

14. Reproductive isolation and patterns of genetic differentiation in a cryptic butterfly species complex

Author

Dinca, Vlad, Wiklund, Christer, Lukhtanov, V. A., Kodandaramaiah, U., Norén, Karin, Dapporto, L., Wahlberg, N., Vila, R., Friberg, Mange, Dinca, Vlad, Wiklund, Christer, Lukhtanov, V. A., Kodandaramaiah, U., Norén, Karin, Dapporto, L., Wahlberg, N., Vila, R., and Friberg, Mange

Abstract

Molecular studies of natural populations are often designed to detect and categorize hidden layers of cryptic diversity, and an emerging pattern suggests that cryptic species are more common and more widely distributed than previously thought. However, these studies are often decoupled from ecological and behavioural studies of species divergence. Thus, the mechanisms by which the cryptic diversity is distributed and maintained across large spatial scales are often unknown. In 1988, it was discovered that the common Eurasian Wood White butterfly consisted of two species (Leptidea sinapis and Leptidea reali), and the pair became an emerging model for the study of speciation and chromosomal evolution. In 2011, the existence of a third cryptic species (Leptidea juvernica) was proposed. This unexpected discovery raises questions about the mechanisms preventing gene flow and about the potential existence of additional species hidden in the complex. Here, we compare patterns of genetic divergence across western Eurasia in an extensive data set of mitochondrial and nuclear DNA sequences with behavioural data on inter- and intraspecific reproductive isolation in courtship experiments. We show that three species exist in accordance with both the phylogenetic and biological species concepts and that additional hidden diversity is unlikely to occur in Europe. The Leptidea species are now the best studied cryptic complex of butterflies in Europe and a promising model system for understanding the formation of cryptic species and the roles of local processes, colonization patterns and heterospecific interactions for ecological and evolutionary divergence., AuthorCount:9;Funding agencies:K & A Wallenbergs Stiftelse; Stiftelsen Langmanska Kultur-fonden; Royal Swedish Academy of Sciences; Swedish Research Council; Kone Foundation; Wenner-Gren Foundation; Spanish Ministerio de Ciencia e Innovacion CGL2010-21226/BOS; Generalitat de Catalunya 2009-0088; Russian Foundation for Basic Research 12-04-00490, 11-04-00076, 11-04-01119; Presidium of Russian Academy of Science

Published

2013

15. Reproductive isolation and patterns of genetic differentiation in a cryptic butterfly species complex

Author

Stiftelsen Längmanska kulturfonden, Royal Swedish Academy of Sciences, Swedish Research Council, Kone Foundation, Wenner-Gren Foundation, Ministerio de Ciencia e Innovación (España), Generalitat de Catalunya, Russian Foundation for Basic Research, Russian Academy of Sciences, Dincă, Vlad, Wiklund, Christer, Lukhtanov, Vladimir A., Kodandaramaiah, U., Norén, K., Dapporto, Leonardo, Wahlberg, Niklas, Vila, Roger, Friberg, Magne, Stiftelsen Längmanska kulturfonden, Royal Swedish Academy of Sciences, Swedish Research Council, Kone Foundation, Wenner-Gren Foundation, Ministerio de Ciencia e Innovación (España), Generalitat de Catalunya, Russian Foundation for Basic Research, Russian Academy of Sciences, Dincă, Vlad, Wiklund, Christer, Lukhtanov, Vladimir A., Kodandaramaiah, U., Norén, K., Dapporto, Leonardo, Wahlberg, Niklas, Vila, Roger, and Friberg, Magne

Abstract

Molecular studies of natural populations are often designed to detect and categorize hidden layers of cryptic diversity, and an emerging pattern suggests that cryptic species are more common and more widely distributed than previously thought. However, these studies are often decoupled from ecological and behavioural studies of species divergence. Thus, the mechanisms by which the cryptic diversity is distributed and maintained across large spatial scales are often unknown. In 1988, it was discovered that the common Eurasian Wood White butterfly consisted of two species (Leptidea sinapis and Leptidea reali), and the pair became an emerging model for the study of speciation and chromosomal evolution. In 2011, the existence of a third cryptic species (Leptidea juvernica) was proposed. This unexpected discovery raises questions about the mechanisms preventing gene flow and about the potential existence of additional species hidden in the complex. Here, we compare patterns of genetic divergence across western Eurasia in an extensive data set of mitochondrial and nuclear DNA sequences with behavioural data on inter- and intraspecific reproductive isolation in courtship experiments. We show that three species exist in accordance with both the phylogenetic and biological species concepts and that additional hidden diversity is unlikely to occur in Europe. The Leptidea species are now the best studied cryptic complex of butterflies in Europe and a promising model system for understanding the formation of cryptic species and the roles of local processes, colonization patterns and heterospecific interactions for ecological and evolutionary divergence. © 2013 European Society For Evolutionary Biology.

Published

2013

16. Phylogenetics and biogeography of a spectacular Old World radiation of butterflies: the subtribe Mycalesina (Lepidoptera: Nymphalidae: Satyrini)

Author

Torres Elizabeth, Müller Chris J, Lees David C, Kodandaramaiah Ullasa, Karanth K Praveen, and Wahlberg Niklas

Subjects

Evolution, QH359-425

Abstract

Abstract Background Butterflies of the subtribe Mycalesina (Nymphalidae: Satyrinae) are important model organisms in ecology and evolution. This group has radiated spectacularly in the Old World tropics and presents an exciting opportunity to better understand processes of invertebrate rapid radiations. However, the generic-level taxonomy of the subtribe has been in a constant state of flux, and relationships among genera are unknown. There are six currently recognized genera in the group. Mycalesis, Lohora and Nirvanopsis are found in the Oriental region, the first of which is the most speciose genus among mycalesines, and extends into the Australasian region. Hallelesis and Bicyclus are found in mainland Africa, while Heteropsis is primarily Madagascan, with a few species in Africa. We infer the phylogeny of the group with data from three genes (total of 3139 bp) and use these data to reconstruct events in the biogeographic history of the group. Results The results indicate that the group Mycalesina radiated rapidly around the Oligocene-Miocene boundary. Basal relationships are unresolved, but we recover six well-supported clades. Some species of Mycalesis are nested within a primarily Madagascan clade of Heteropsis, while Nirvanopsis is nested within Lohora. The phylogeny suggests that the group had its origin either in Asia or Africa, and diversified through dispersals between the two regions, during the late Oligocene and early Miocene. The current dataset tentatively suggests that the Madagascan fauna comprises two independent radiations. The Australasian radiation shares a common ancestor derived from Asia. We discuss factors that are likely to have played a key role in the diversification of the group. Conclusions We propose a significantly revised classification scheme for Mycalesina. We conclude that the group originated and radiated from an ancestor that was found either in Asia or Africa, with dispersals between the two regions and to Australasia. Our phylogeny paves the way for further comparative studies on this group that will help us understand the processes underlying diversification in rapid radiations of invertebrates.

Published

2010

17. Brief Mating Behavior at Dawn and Dusk and Long Nocturnal Matings in the Butterfly Melanitis leda

Author

Freerk Molleman, Ullasa Kodandaramaiah, Sridhar Halali, Molleman, F [0000-0002-6551-266X], Halali, S [0000-0002-9960-3682], Kodandaramaiah, U [0000-0002-1564-1738], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, Population, Aerial combat, Spermatophore, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, Melanitis leda, Interference competition, Mating, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Circadian rhythm, Mating territory, Courtship, biology.organism_classification, Mating system, 010602 entomology, Mate choice, Animal ecology, Insect Science, Sexual selection, behavior and behavior mechanisms, Mating duration

Abstract

Information on the mating system of an insect species is necessary to gain insight into sexual selection and population structure. Male territoriality of the common evening brown butterflyMelanitis ledahas been studied in the wild, but other aspects of its mating system remain largely unknown. For a population ofM. ledain South India, we observed male-male and male-female interactions in captivity, measured mating duration and spermatophore mass, and also determined the degree of polyandry in the wild. We found that mating behavior takes place for short periods of time around dawn and dusk. Our observations corroborate that males compete in aerial combats (twirling) and interfere with mating pairs. In the morning, they may use shivering to warm up. Females can twirl with males and refuse mating by pointing their abdomens upwards or by flying away. Males court females by fluttering their wings while perched behind females, and then initiate copulation by curling their abdomens ca. 180 degrees sideways to make genital contact. While in the morning, matings lasted on average one hour and twenty-three minutes and never exceeded three hours, in the evening, matings could be of similar duration, but 42% of butterflies only separated when dawn was approaching. However, such long nocturnal matings did not result in heavier spermatophores. The first spermatophore of a male tended to be larger than subsequent spermatophores. Together with previous studies on this species, our findings suggest that males compete mainly through territorial defense (as reported before), courtship performance, and interference, and to a lesser extent by providing spermatophores, while females exert some control over the mating system by the timing of their receptivity and mate choice.

Published

2020

18. Larval growth rate is not a major determinant of adult wing shape and eyespot size in the seasonally polyphenic butterfly Melanitis leda .

Author

Molleman F, Moore ME, Halali S, Kodandaramaiah U, Halali D, van Bergen E, Brakefield PM, and Oostra V

Subjects

Animals, Female, Male, Temperature, Butterflies growth & development, Butterflies anatomy & histology, Larva growth & development, Wings, Animal growth & development, Wings, Animal anatomy & histology, Seasons, Phenotype

Abstract

Background: Insects often show adaptive phenotypic plasticity where environmental cues during early stages are used to produce a phenotype that matches the environment experienced by adults. Many tropical satyrine butterflies (Nymphalidae: Satyrinae) are seasonally polyphenic and produce distinct wet- and dry-season form adults, providing tight environment-phenotype matching in seasonal environments. In studied Mycalesina butterflies, dry-season forms can be induced in the laboratory by growing larvae at low temperatures or on poor food quality. Since both these factors also tend to reduce larval growth rate, larval growth rate may be an internal cue that translates the environmental cues into the expression of phenotypes. If this is the case, we predict that slower-growing larvae would be more likely to develop a dry-season phenotype., Methods: We performed the first experimental study on seasonal polyphenism of a butterfly in the tribe Melanitini. We measured both larval growth rate and adult phenotype (eyespot size and wing shape) of common evening brown butterflies ( Melanitis leda ), reared at various temperatures and on various host-plant species. We constructed provisional reaction norms, and tested the hypothesis that growth rate mediates between external cues and adult phenotype., Results: Reaction norms were similar to those found in Mycalesina butterflies. We found that both among and within treatments, larvae with lower growth rates (low temperature, particular host plants) were more likely to develop dry-season phenotypes (small eyespots, falcate wing tips). However, among temperature treatments, similar growth rates could lead to very different wing phenotypes, and within treatments the relationships were weak. Moreover, males and females responded differently, and eyespot size and wing shape were not strongly correlated with each other. Overall, larval growth rate seems to be weakly related to eyespot size and wing shape, indicating that seasonal plasticity in M. leda is primarily mediated by other mechanisms., Competing Interests: The authors declare that they have no competing interests.

Published

2024

19. Habitat heterogeneity limits prey colour polymorphism maintained via negative frequency-dependent selection.

Author

Murali G, Kodandaramaiah U, and Merilaita S

Subjects

Animals, Color, Phenotype, Predatory Behavior, Gene Flow, Polymorphism, Genetic

Abstract

The persistence of non-neutral trait polymorphism is enigmatic because stabilizing selection is expected to deplete variation. In cryptically coloured prey, negative frequency-dependent selection due to search image formation by predators has been proposed to favour rare variants, promoting polymorphism. However, in a heterogeneous environment, locally varying disruptive selection favours patch type-specific optima, resulting in spatial segregation of colour variants. Here, we address whether negative frequency-dependent selection can overcome selection posed by habitat heterogeneity to promote local polymorphism using an individual-based model. In addition, we compare how prey and predator mobility may modify the outcome. Our model revealed that frequency-dependent predation could strongly promote local prey polymorphism, but only when differences between morphs in patch-specific fitness were small. The effect of frequency-dependent predation depended on the predator adjustment of search image and was hampered by the prey population structure. Gene flow due to prey movement counteracted local selection, promoted local polymorphism to some extent, and relaxed the conditions for polymorphism due to frequency-dependent predation. Importantly, abrupt spatial changes in morph frequencies decreased the probability that mobile frequency-dependent predators could maintain local prey polymorphism. Overall, our study suggests that in a spatially heterogeneous environment, negative frequency-dependent selection may help maintain local polymorphism but only under a limited range of conditions., (© The Author(s) 2024. Published by Oxford University Press on behalf of the European Society of Evolutionary Biology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2024

20. A near-complete species-level phylogeny of uropeltid snakes harnessing historical museum collections as a DNA source.

Author

Sampaio FL, Day JJ, Mendis Wickramasinghe LJ, Cyriac VP, Papadopoulou A, Brace S, Rajendran A, Simon-Nutbrown C, Flouris T, Kapli P, Ranga Vidanapathirana D, Kotharambath R, Kodandaramaiah U, and Gower DJ

Subjects

Animals, Phylogeny, Base Sequence, Sri Lanka, Museums, Snakes genetics

Abstract

Uropeltidae is a clade of small fossorial snakes (ca. 64 extant species) endemic to peninsular India and Sri Lanka. Uropeltid taxonomy has been confusing, and the status of some species has not been revised for over a century. Attempts to revise uropeltid systematics and undertake evolutionary studies have been hampered by incompletely sampled and incompletely resolved phylogenies. To address this issue, we take advantage of historical museum collections, including type specimens, and apply genome-wide shotgun (GWS) sequencing, along with recent field sampling (using Sanger sequencing) to establish a near-complete multilocus species-level phylogeny (ca. 87% complete at species level). This results in a phylogeny that supports the monophyly of all genera (if Brachyophidium is considered a junior synonym of Teretrurus), and provides a firm platform for future taxonomic revision. Sri Lankan uropeltids are probably monophyletic, indicating a single colonisation event of this island from Indian ancestors. However, the position of Rhinophis goweri (endemic to Eastern Ghats, southern India) is unclear and warrants further investigation, and evidence that it may nest within the Sri Lankan radiation indicates a possible recolonisation event. DNA sequence data and morphology suggest that currently recognised uropeltid species diversity is substantially underestimated. Our study highlights the benefits of integrating museum collections in molecular genetic analyses and their role in understanding the systematics and evolutionary history of understudied organismal groups., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

21. Implementing social network analysis to understand the socioecology of wildlife co-occurrence and joint interactions with humans in anthropogenic environments.

Author

Balasubramaniam KN, Kaburu SSK, Marty PR, Beisner BA, Bliss-Moreau E, Arlet ME, Ruppert N, Ismail A, Anuar Mohd Sah S, Mohan L, Rattan S, Kodandaramaiah U, and McCowan B

Subjects

Animals, Female, Grooming, Humans, Male, Social Behavior, Social Network Analysis, Animals, Wild, Anthropogenic Effects

Abstract

Human population expansion into wildlife habitats has increased interest in the behavioural ecology of human-wildlife interactions. To date, however, the socioecological factors that determine whether, when or where wild animals take risks by interacting with humans and anthropogenic factors still remains unclear. We adopt a comparative approach to address this gap, using social network analysis (SNA). SNA, increasingly implemented to determine human impact on wildlife ecology, can be a powerful tool to understand how animal socioecology influences the spatiotemporal distribution of human-wildlife interactions. For 10 groups of rhesus, long-tailed and bonnet macaques (Macaca spp.) living in anthropogenically impacted environments in Asia, we collected data on human-macaque interactions, animal demographics, and macaque-macaque agonistic and affiliative social interactions. We constructed 'human co-interaction networks' based on associations between macaques that interacted with humans within the same time and spatial locations, and social networks based on macaque-macaque allogrooming behaviour, affiliative behaviours of short duration (agonistic support, lip-smacking, silent bare-teeth displays and non-sexual mounting) and proximity. Pre-network permutation tests revealed that, within all macaque groups, specific individuals jointly took risks by repeatedly, consistently co-interacting with humans within and across time and space. GLMMs revealed that macaques' tendencies to co-interact with humans was positively predicted by their tendencies to engage in short-duration affiliative interactions and tolerance of conspecifics, although the latter varied across species (bonnets>rhesus>long-tailed). Male macaques were more likely to co-interact with humans than females. Neither macaques' grooming relationships nor their dominance ranks predicted their tendencies to co-interact with humans. Our findings suggest that, in challenging anthropogenic environments, less (compared to more) time-consuming forms of affiliation, and additionally greater social tolerance in less ecologically flexible species with a shorter history of exposure to humans, may be key to animals' joint propensities to take risks to gain access to resources. For males, greater exploratory tendencies and less energetically demanding long-term life-history strategies (compared to females) may also influence such joint risk-taking. From conservation and public health perspectives, wildlife connectedness within such co-interaction networks may inform interventions to mitigate zoonosis, and move human-wildlife interactions from conflict towards coexistence., (© 2021 British Ecological Society.)

Published

2021

22. Conserved ancestral tropical niche but different continental histories explain the latitudinal diversity gradient in brush-footed butterflies.

Author

Chazot N, Condamine FL, Dudas G, Peña C, Kodandaramaiah U, Matos-Maraví P, Aduse-Poku K, Elias M, Warren AD, Lohman DJ, Penz CM, DeVries P, Fric ZF, Nylin S, Müller C, Kawahara AY, Silva-Brandão KL, Lamas G, Kleckova I, Zubek A, Ortiz-Acevedo E, Vila R, Vane-Wright RI, Mullen SP, Jiggins CD, Wheat CW, Freitas AVL, and Wahlberg N

Subjects

Animals, Extinction, Biological, Genes, Insect, Genetic Speciation, Geography, Phylogeny, Spatio-Temporal Analysis, Animal Distribution, Biodiversity, Butterflies physiology, Tropical Climate

Abstract

The global increase in species richness toward the tropics across continents and taxonomic groups, referred to as the latitudinal diversity gradient, stimulated the formulation of many hypotheses to explain the underlying mechanisms of this pattern. We evaluate several of these hypotheses to explain spatial diversity patterns in a butterfly family, the Nymphalidae, by assessing the contributions of speciation, extinction, and dispersal, and also the extent to which these processes differ among regions at the same latitude. We generate a time-calibrated phylogeny containing 2,866 nymphalid species (~45% of extant diversity). Neither speciation nor extinction rate variations consistently explain the latitudinal diversity gradient among regions because temporal diversification dynamics differ greatly across longitude. The Neotropical diversity results from low extinction rates, not high speciation rates, and biotic interchanges with other regions are rare. Southeast Asia is also characterized by a low speciation rate but, unlike the Neotropics, is the main source of dispersal events through time. Our results suggest that global climate change throughout the Cenozoic, combined with tropical niche conservatism, played a major role in generating the modern latitudinal diversity gradient of nymphalid butterflies., (© 2021. The Author(s).)

Published

2021

23. Predictability of temporal variation in climate and the evolution of seasonal polyphenism in tropical butterfly communities.

Author

Halali S, Halali D, Barlow HS, Molleman F, Kodandaramaiah U, Brakefield PM, and Brattström O

Subjects

Adaptation, Physiological, Animals, Female, Phenotype, Seasons, Tropical Climate, Wings, Animal, Butterflies genetics

Abstract

Phenotypic plasticity in heterogeneous environments can provide tight environment-phenotype matching. However, the prerequisite is a reliable environmental cue(s) that enables organisms to use current environmental information to induce the development of a phenotype with high fitness in a forthcoming environment. Here, we quantify predictability in the timing of precipitation and temperature change to examine how this is associated with seasonal polyphenism in tropical Mycalesina butterflies. Seasonal precipitation in the tropics typically results in distinct selective environments, the wet and dry seasons, and changes in temperature can be a major environmental cue. We sampled communities of Mycalesina butterflies from two seasonal locations and one aseasonal location. Quantifying environmental predictability using wavelet analysis and Colwell's indices confirmed a strong periodicity of precipitation over a 12-month period at both seasonal locations compared to the aseasonal one. However, temperature seasonality and periodicity differed between the two seasonal locations. We further show that: (a) most females from both seasonal locations synchronize their reproduction with the seasons by breeding in the wet season but arresting reproduction in the dry season. In contrast, all species breed throughout the year in the aseasonal location and (b) species from the seasonal locations, but not those from the aseasonal location, exhibited polyphenism in wing pattern traits (eyespot size). We conclude that seasonal precipitation and its predictability are primary factors shaping the evolution of polyphenism in Mycalesina butterflies, and populations or species secondarily evolve local adaptations for cue use that depend on the local variation in the environment., (© 2021 The Authors. Journal of Evolutionary Biology published by John Wiley & Sons Ltd on behalf of European Society for Evolutionary Biology.)

Published

2021

24. Striking between-population floral divergences in a habitat specialized plant.

Author

Rahim SA, Kodandaramaiah U, Kulkarni A, and Barua D

Subjects

Flowers genetics, Flowers growth & development, Plants genetics, Biodiversity, Ecosystem, Flowers classification, Gene Flow, Genetic Speciation, Phenotype, Plants classification

Abstract

When the habitat occupied by a specialist species is patchily distributed, limited gene flow between the fragmented populations may allow population differentiation and eventual speciation. 'Sky islands'-montane habitats that form terrestrial islands-have been shown to promote diversification in many taxa through this mechanism. We investigate floral variation in Impatiens lawii, a plant specialized on laterite rich rocky plateaus that form sky islands in the northern Western Ghats mountains of India. We focus on three plateaus separated from each other by ca. 7 to 17 km, and show that floral traits have diverged strongly between these populations. In contrast, floral traits have not diverged in the congeneric I. oppositifolia, which co-occurs with I. lawii in the plateaus, but is a habitat generalist that is also found in the intervening valleys. We conducted common garden experiments to test whether the differences in I. lawii are due to genetic differentiation or phenotypic plasticity. There were strong differences in floral morphology between experimental plants sourced from the three populations, and the relative divergences between population pairs mirrored that seen in the wild, indicating that the populations are genetically differentiated. Common garden experiments confirmed that there was no differentiation in I. oppositifolia. Field floral visitation surveys indicated that the observed differences in floral traits have consequences for I. lawii populations, by reducing the number of visitors and changing the relative abundance of different floral visitor groups. Our results highlight the role of habitat specialization in diversification, and corroborates the importance of sky islands as centres of diversification., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

25. Evolution and biogeography of Memecylon.

Author

Amarasinghe P, Joshi S, Page N, Wijedasa LS, Merello M, Kathriarachchi H, Stone RD, Judd W, Kodandaramaiah U, and Cellinese N

Subjects

Africa, Asia, Bayes Theorem, Evolution, Molecular, Madagascar, Phylogeny, Phylogeography, Melastomataceae

Abstract

Premise: The woody plant group Memecylon (Melastomataceae) is a large clade occupying diverse forest habitats in the Old World tropics and exhibiting high regional endemism. Its phylogenetic relationships have been previously studied using ribosomal DNA with extensive sampling from Africa and Madagascar. However, divergence times, biogeography, and character evolution of Memecylon remain uninvestigated. We present a phylogenomic analysis of Memecylon to provide a broad evolutionary perspective of this clade., Methods: One hundred supercontigs of 67 Memecylon taxa were harvested from target enrichment. The data were subjected to coalescent and concatenated phylogenetic analyses. A timeline was provided for Memecylon evolution using fossils and secondary calibration. The calibrated Memecylon phylogeny was used to elucidate its biogeography and ancestral character states., Results: Relationships recovered by the phylogenomic analyses are strongly supported in both maximum likelihood and coalescent-based species trees. Memecylon is inferred to have originated in Africa in the Eocene and subsequently dispersed predominantly eastward via long-distance dispersal (LDD), although a reverse dispersal from South Asia westward to the Seychelles was postulated. Morphological data exhibited high levels of homoplasy, but also showed that several vegetative and reproductive characters were phylogenetically informative., Conclusions: The current distribution of Memecylon appears to be the result of multiple ancestral LDD events. Our results demonstrate the importance of the combined effect of geographic and paleoclimatic factors in shaping the distribution of this group in the Old World tropics. Memecylon includes a number of evolutionarily derived morphological features that contribute to diversity within the clade., (© 2021 Botanical Society of America.)

Published

2021

26. Impact of individual demographic and social factors on human-wildlife interactions: a comparative study of three macaque species.

Author

Balasubramaniam KN, Marty PR, Samartino S, Sobrino A, Gill T, Ismail M, Saha R, Beisner BA, Kaburu SSK, Bliss-Moreau E, Arlet ME, Ruppert N, Ismail A, Sah SAM, Mohan L, Rattan SK, Kodandaramaiah U, and McCowan B

Subjects

Aggression, Animals, Female, Humans, Linear Models, Male, Social Networking, Animals, Wild physiology, Behavior, Animal physiology, Macaca fascicularis physiology, Macaca mulatta physiology, Macaca radiata physiology, Social Factors

Abstract

Despite increasing conflict at human-wildlife interfaces, there exists little research on how the attributes and behavior of individual wild animals may influence human-wildlife interactions. Adopting a comparative approach, we examined the impact of animals' life-history and social attributes on interactions between humans and (peri)urban macaques in Asia. For 10 groups of rhesus, long-tailed, and bonnet macaques, we collected social behavior, spatial data, and human-interaction data for 11-20 months on pre-identified individuals. Mixed-model analysis revealed that, across all species, males and spatially peripheral individuals interacted with humans the most, and that high-ranking individuals initiated more interactions with humans than low-rankers. Among bonnet macaques, but not rhesus or long-tailed macaques, individuals who were more well-connected in their grooming network interacted more frequently with humans than less well-connected individuals. From an evolutionary perspective, our results suggest that individuals incurring lower costs related to their life-history (males) and resource-access (high rank; strong social connections within a socially tolerant macaque species), but also higher costs on account of compromising the advantages of being in the core of their group (spatial periphery), are the most likely to take risks by interacting with humans in anthropogenic environments. From a conservation perspective, evaluating individual behavior will better inform efforts to minimize conflict-related costs and zoonotic-risk.

Published

2020

27. Complex multi-modal sensory integration and context specificity in colour preferences of a pierid butterfly.

Author

Balamurali GS, Rose S, Somanathan H, and Kodandaramaiah U

Subjects

Animals, Color, Female, Flowers, Learning, Male, Odorants, Butterflies

Abstract

Innate colour preferences in insects were long considered to be a non-flexible representation of a floral 'search image' guiding them to flowers during initial foraging trips. However, these colour preferences have recently been shown to be modulated by multi-sensory integration of information. Using experiments on the butterfly Catopsilia pomona (common emigrant), we demonstrate that cross-modal integration of information not only affects colour preferences but also colour learning, and in a sex-specific manner . We show that spontaneous colour preference in this species is sexually dimorphic, with males preferring both blue and yellow while females prefer yellow. With minimal training (two training sessions), both males and females learned to associate blue with reward, but females did not learn green. This suggests that the aversion to green, in the context of foraging, is stronger in females than in males, probably because green is used as a cue to find oviposition sites in butterflies. However, females learned green after extensive training (five training sessions). Intriguingly, when a floral odour was present along with green during training, female colour preference during the subsequent choice tests resembled their innate preference (preference for yellow). Our results show that multi-sensory integration of information can influence preference, sensory bias, learning and memory in butterflies, thus modulating their behaviour in a context-specific manner., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

28. Impact of anthropogenic factors on affiliative behaviors among bonnet macaques.

Author

Balasubramaniam KN, Marty PR, Arlet ME, Beisner BA, Kaburu SSK, Bliss-Moreau E, Kodandaramaiah U, and McCowan B

Subjects

Adult, Animals, Female, Humans, India, Male, Grooming, Human Activities, Macaca radiata physiology, Social Behavior

Abstract

Objectives: In primates, allogrooming and other affiliative behaviors confer many benefits and may be influenced by many socioecological factors. Of these, the impact of anthropogenic factors remain relatively understudied. Here we ask whether interactions with humans decreased macaques' affiliative behaviors by imposing time-constraints, or increased these behaviors on account of more free-/available-time due to macaques' consumption of high-energy human foods., Materials and Methods: In Southern India, we collected data on human-macaque and macaque-macaque interactions using focal-animal sampling on two groups of semi-urban bonnet macaques for 11 months. For each macaque within each climatic season, we calculated frequencies of human-macaque interactions, rates of monitoring human activity and foraging on anthropogenic food, dominance ranks, grooming duration, number of unique grooming partners, and frequencies of other affiliative interactions., Results: We found strong evidence for time-constraints on grooming. Macaques that monitored humans more groomed for shorter durations and groomed fewer partners, independent of their group membership, sex, dominance rank, and season. However, monitoring humans had no impact on other affiliative interactions. We found no evidence for the free-time hypothesis: foraging on anthropogenic food was unrelated to grooming and other affiliation., Discussion: Our results are consistent with recent findings on other urban-dwelling species/populations. Macaques in such environments may be especially reliant on other forms of affiliation that are of short duration (e.g., coalitionary support, lip-smacking) and unaffected by time-constraints. We stress on the importance of evaluating human impact on inter-individual differences in primate/wildlife behavior for conservation efforts., (© 2020 Wiley Periodicals, Inc.)

Published

2020

29. Individuals in urban dwelling primate species face unequal benefits associated with living in an anthropogenic environment.

Author

Marty PR, Balasubramaniam KN, Kaburu SSK, Hubbard J, Beisner B, Bliss-Moreau E, Ruppert N, Arlet ME, Mohd Sah SA, Ismail A, Mohan L, Rattan SK, Kodandaramaiah U, and McCowan B

Subjects

Animals, Cities, Feeding Behavior, Female, Human Activities, India, Malaysia, Male, Sex Factors, Competitive Behavior, Diet veterinary, Macaca physiology, Social Dominance

Abstract

In primates, living in an anthropogenic environment can significantly improve an individual's fitness, which is likely attributed to access to anthropogenic food resources. However, in non-professionally provisioned groups, few studies have examined whether individual attributes, such as dominance rank and sex, affect primates' ability to access anthropogenic food. Here, we investigated whether rank and sex explain individual differences in the proportion of anthropogenic food consumed by macaques. We observed 319 individuals living in nine urban groups across three macaque species. We used proportion of anthropogenic food in the diet as a proxy of access to those food resources. Males and high-ranking individuals in both sexes had significantly higher proportions of anthropogenic food in their diets than other individuals. We speculate that unequal access to anthropogenic food resources further increases within-group competition, and may limit fitness benefits in an anthropogenic environment to certain individuals.

Published

2020

30. Quantifying the effects of species traits on predation risk in nature: A comparative study of butterfly wing damage.

Author

Molleman F, Javoiš J, Davis RB, Whitaker MRL, Tammaru T, Prinzing A, Õunap E, Wahlberg N, Kodandaramaiah U, Aduse-Poku K, Kaasik A, and Carey JR

Subjects

Animals, Female, Locomotion, Male, Predatory Behavior, Wings, Animal, Butterflies

Abstract

Evading predators is a fundamental aspect of the ecology and evolution of all prey animals. In studying the influence of prey traits on predation risk, previous researchers have shown that crypsis reduces attack rates on resting prey, predation risk increases with increased prey activity, and rapid locomotion reduces attack rates and increases chances of surviving predator attacks. However, evidence for these conclusions is nearly always based on observations of selected species under artificial conditions. In nature, it remains unclear how defensive traits such as crypsis, activity levels and speed influence realized predation risk across species in a community. Whereas direct observations of predator-prey interactions in nature are rare, insight can be gained by quantifying bodily damage caused by failed predator attacks. We quantified how butterfly species traits affect predation risk in nature by determining how defensive traits correlate with wing damage caused by failed predation attempts, thereby providing the first robust multi-species comparative analysis of predator-induced bodily damage in wild animals. For 34 species of fruit-feeding butterflies in an African forest, we recorded wing damage and quantified crypsis, activity levels and flight speed. We then tested for correlations between damage parameters and species traits using comparative methods that account for measurement error. We detected considerable differences in the extent, location and symmetry of wing surface loss among species, with smaller differences between sexes. We found that males (but not females) of species that flew faster had substantially less wing surface loss. However, we found no correlation between cryptic coloration and symmetrical wing surface loss across species. In species in which males appeared to be more active than females, males had a lower proportion of symmetrical wing surface loss than females. Our results provide evidence that activity greatly influences the probability of attacks and that flying rapidly is effective for escaping pursuing predators in the wild, but we did not find evidence that cryptic species are less likely to be attacked while at rest., (© 2019 The Authors. Journal of Animal Ecology © 2019 British Ecological Society.)

Published

2020

31. Conspicuous colours reduce predation rates in fossorial uropeltid snakes.

Author

Cyriac VP and Kodandaramaiah U

Abstract

Uropeltid snakes (Family Uropeltidae) are non-venomous, fossorial snakes that are found above ground occasionally, during which time they are exposed to predation. Many species are brightly coloured, mostly on the ventral surface, but these colours are expected to have no function below the ground. Observations have shown that the cephalic resemblance (resemblance to heads) of uropeltid tails may direct attacks of predators towards the hardened tails, thereby potentially increasing handling times for predators. Experiments have also shown that predators learn to avoid prey that are non-toxic and palatable but are difficult to capture, hard to process or require long handling time when such prey advertise their unprofitability through conspicuous colours. We here postulate that uropeltid snakes use their bright colours to signal long handling times associated with attack deflection to the tails, thereby securing reduced predation from predators that can learn to associate colour with handling time. Captive chicken experiments with dough models mimicking uropeltids indicate that attacks were more common on the tail than on the head. Field experiments with uropeltid clay models show that the conspicuous colours of these snakes decrease predation rates compared to cryptic models, but a novel conspicuous colour did not confer such a benefit. Overall, our experiments provide support for our hypothesis that the conspicuous colours of these snakes reduce predation, possibly because these colours advertise unprofitability due to long handling times., Competing Interests: The authors declare that they have no competing interests.

Published

2019

32. Dynamic colour change and the confusion effect against predation.

Author

Murali G, Kumari K, and Kodandaramaiah U

Subjects

Animals, Confusion etiology, Motion, Population Density, Color, Models, Biological, Predatory Behavior

Abstract

The confusion effect - the decreased attack-to-kill ratio of a predator with increase in prey group size - is thought to be one of the main reasons for the evolution of group living in animals. Despite much interest, the influence of prey coloration on the confusion effect is not well understood. We hypothesized that dynamic colour change in motion (due to interference coloration or flash marks), seen widely in many group living animals, enhances the confusion effect. Utilizing a virtual tracking task with humans, we found targets that dynamically changed colour during motion were more difficult to track than targets with background matching patterns, and this effect was stronger at larger group sizes. The current study thus provides the first empirical evidence for the idea that dynamic colour change can benefit animals in a group and may explain the widespread occurrence of dynamic colorations in group-living animals.

Published

2019

33. Grab my tail: evolution of dazzle stripes and colourful tails in lizards.

Author

Murali G, Merilaita S, and Kodandaramaiah U

Subjects

Animals, Behavior, Animal, Circadian Rhythm, Ecosystem, Genetic Speciation, Biological Evolution, Lizards genetics, Lizards physiology, Pigmentation physiology, Tail

Abstract

Understanding the functions of animal coloration has been a long-standing question in evolutionary biology. For example, the widespread occurrence of striking longitudinal stripes and colourful tails in lizards begs for an explanation. Experiments have suggested that colourful tails can deflect attacks towards the tail (the 'deflection' hypothesis), which is sacrificable in most lizards, thereby increasing the chance of escape. Studies also suggest that in moving lizards, longitudinal body stripes can redirect predators' strikes towards the tail through the 'motion dazzle' effect. Despite these experimental studies, the ecological factors associated with the evolution of such striking colorations remain unexplored. Here, we investigated whether predictions from motion dazzle and attack deflection could explain the widespread occurrence of these striking marks using comparative methods and information on eco-physiological variables (caudal autotomy, diel activity, microhabitat and body temperature) potentially linked to their functioning. We found both longitudinal stripes and colourful tails are associated with diurnal activity and with the ability to lose the tail. Compared to stripeless species, striped species are more likely to be ground-dwelling and have higher body temperature, emphasizing the connection of stripes to mobility and rapid escape strategy. Colourful tails and stripes have evolved multiple times in a correlated fashion, suggesting that their functions may be linked. Overall, our results together with previous experimental studies support the notion that stripes and colourful tails in lizards may have protective functions based on deflective and motion dazzle effects., (© 2018 European Society For Evolutionary Biology. Journal of Evolutionary Biology © 2018 European Society For Evolutionary Biology.)

Published

2018

34. What affects power to estimate speciation rate shifts?

Author

Kodandaramaiah U and Murali G

Abstract

The development of methods to estimate rates of speciation and extinction from time-calibrated phylogenies has revolutionized evolutionary biology by allowing researchers to correlate diversification rate shifts with causal factors. A growing number of researchers are interested in testing whether the evolution of a trait or a trait variant has influenced speciation rate, and three modelling methods-BiSSE, MEDUSA and BAMM-have been widely used in such studies. We simulated phylogenies with a single speciation rate shift each, and evaluated the power of the three methods to detect these shifts. We varied the degree of increase in speciation rate (speciation rate asymmetry), the number of tips, the tip-ratio bias (ratio of number of tips with each character state) and the relative age in relation to overall tree age when the rate shift occurred. All methods had good power to detect rate shifts when the rate asymmetry was strong and the sizes of the two lineages with the distinct speciation rates were large. Even when lineage size was small, power was good when rate asymmetry was high. In our simulated scenarios, small lineage sizes appear to affect BAMM most strongly. Tip-ratio influenced the accuracy of speciation rate estimation but did not have a strong effect on power to detect rate shifts. Based on our results, we provide suggestions to users of these methods., Competing Interests: The authors declare there are no competing interests.

Published

2018

35. Evolution of Hypolimnas butterflies (Nymphalidae): Out-of-Africa origin and Wolbachia-mediated introgression.

Author

Sahoo RK, Lohman DJ, Wahlberg N, Müller CJ, Brattström O, Collins SC, Peggie D, Aduse-Poku K, and Kodandaramaiah U

Subjects

Africa, Animals, Base Sequence, Bayes Theorem, Biodiversity, DNA, Mitochondrial genetics, Haplotypes genetics, Larva physiology, Likelihood Functions, Mitochondria genetics, Phylogeny, Phylogeography, Sequence Analysis, DNA, Biological Evolution, Butterflies genetics, Butterflies microbiology, Wolbachia physiology

Abstract

Hypolimnas butterflies (Nymphalidae), commonly known as eggflies, are a popular model system for studying a wide range of ecological questions including mimicry, polymorphism, wing pattern evolution, and Wolbachia-host interactions. The lack of a time-calibrated phylogeny for this group has precluded understanding its evolutionary history. We reconstruct a species-level phylogeny using a nine gene dataset and estimate species divergence times. Based on the resulting tree, we investigate the taxon's historical biogeography, examine the evolution of host plant preferences, and test the hypothesis that the endosymbiotic bacterium Wolbachia mediates gene transfer between species. Our analyses indicate that the species are grouped within three strongly supported, deeply divergent clades. However, relationships among these three clades are uncertain. In addition, many Hypolimnas species are not monophyletic or monophyletic with weak support, suggesting widespread incomplete lineage sorting and/or introgression. Biogeographic analysis strongly indicates that the genus diverged from its ancestor in Africa and subsequently dispersed to Asia; the strength of this result is not affected by topological uncertainties. While the larvae of African species feed almost exclusively on Urticaceae, larvae of species found further east often feed on several additional families. Interestingly, we found an identical mitochondrial haplotype in two Hypolimnas species, H. bolina and H. alimena, and a strong association between this mitotype and the Wolbachia strain wBol1a. Future investigations should explore the plausibility of Wolbachia-mediated introgression between species., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

36. Paleoclimate determines diversification patterns in the fossorial snake family Uropeltidae Cuvier, 1829.

Author

Cyriac VP and Kodandaramaiah U

Subjects

Animals, Biological Evolution, Climate Change, DNA chemistry, DNA isolation & purification, DNA metabolism, Ecosystem, Extinction, Biological, Phylogeny, Sequence Analysis, DNA, Snakes genetics, Snakes classification

Abstract

Understanding how and why diversification rates vary across evolutionary time is central to understanding how biodiversity is generated and maintained. Recent mathematical models that allow estimation of diversification rates across time from reconstructed phylogenies have enabled us to make inferences on how biodiversity copes with environmental change. Here, we explore patterns of temporal diversification in Uropeltidae, a diverse fossorial snake family. We generate a time-calibrated phylogenetic hypothesis for Uropeltidae and show a significant correlation between diversification rate and paleotemperature during the Cenozoic. We show that the temporal diversification pattern of this group is punctuated by one rate shift event with a decrease in diversification and turnover rate between ca. 11Ma to present, but there is no strong support for mass extinction events. The analysis indicates higher turnover during periods of drastic climatic fluctuations and reduced diversification rates associated with contraction and fragmentation of forest habitats during the late Miocene. Our study highlights the influence of environmental fluctuations on diversification rates in fossorial taxa such as uropeltids, and raises conservation concerns related to present rate of climate change., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

37. Hostplant change and paleoclimatic events explain diversification shifts in skipper butterflies (Family: Hesperiidae).

Author

Sahoo RK, Warren AD, Collins SC, and Kodandaramaiah U

Subjects

Animals, Ecosystem, Phylogeny, Phylogeography, Poaceae parasitology, Biodiversity, Butterflies classification, Climate, Host-Parasite Interactions, Paleontology

Abstract

Background: Skippers (Family: Hesperiidae) are a large group of butterflies with ca. 4000 species under 567 genera. The lack of a time-calibrated higher-level phylogeny of the group has precluded understanding of its evolutionary past. We here use a 10-gene dataset to reconstruct the most comprehensive time-calibrated phylogeny of the group, and explore factors that affected the diversification of these butterflies., Results: Ancestral state reconstructions show that the early hesperiid lineages utilized dicots as larval hostplants. The ability to feed on monocots evolved once at the K-Pg boundary (ca. 65 million years ago (Mya)), and allowed monocot-feeders to diversify much faster on average than dicot-feeders. The increased diversification rate of the monocot-feeding clade is specifically attributed to rate shifts in two of its descendant lineages. The first rate shift, a four-fold increase compared to background rates, happened ca. 50 Mya, soon after the Paleocene-Eocene thermal maximum, in a lineage of the subfamily Hesperiinae that mostly fed on forest monocots. The second rate shift happened ca. 40 Mya in a grass-feeding lineage of Hesperiinae when open-habitat grasslands appeared in the Neotropics owing to gradual cooling of the atmospheric temperature., Conclusions: The evolution of monocot feeding strongly influenced diversification of skippers. We hypothesize that although monocot feeding was an intrinsic trait that allowed exploration of novel niches, the lack of extensive availability of monocots comprised an extrinsic limitation for niche exploration. The shifts in diversification rate coincided with paleoclimatic events during which grasses and forest monocots were diversified.

Published

2017

38. Conserved patterns of integrated developmental plasticity in a group of polyphenic tropical butterflies.

Author

van Bergen E, Osbaldeston D, Kodandaramaiah U, Brattström O, Aduse-Poku K, and Brakefield PM

Subjects

Adaptation, Physiological, Animals, Biological Evolution, Body Size, Butterflies chemistry, Butterflies genetics, Environment, Female, Life Cycle Stages, Male, Butterflies anatomy & histology, Butterflies growth & development, Wings, Animal anatomy & histology

Abstract

Background: Developmental plasticity is thought to have profound macro-evolutionary effects, for example, by increasing the probability of establishment in new environments and subsequent divergence into independently evolving lineages. In contrast to plasticity optimized for individual traits, phenotypic integration, which enables a concerted response of plastic traits to environmental variability, may affect the rate of local adaptation by constraining independent responses of traits to selection. Using a comparative framework, this study explores the evolution of reaction norms for a variety of life history and morphological traits across five related species of mycalesine butterflies from the Old World tropics., Results: Our data indicate that an integrated response of a suite of key traits is shared amongst these species. Interestingly, the traits that make up the functional suite are all known to be regulated by ecdysteroid signalling in Bicyclus anynana, one of the species included in this study, suggesting the same underlying hormonal regulator may be conserved within this group of polyphenic butterflies. We also detect developmental thresholds for the expression of alternative morphs., Conclusions: The phenotypic plasticity of a broad suite of morphological and life history traits is integrated and shared among species from three geographically independent lineages of mycalesine butterflies, despite considerable periods of independent evolution and exposure to disparate environments. At the same time, we have detected examples of evolutionary change where independent traits show different patterns of reaction norms. We argue that the expression of more robust phenotypes may occur by shifting developmental thresholds beyond the boundaries of the typical environmental variation.

Published

2017

39. Pupal colour plasticity in a tropical butterfly, Mycalesis mineus (Nymphalidae: Satyrinae).

Author

Mayekar HV and Kodandaramaiah U

Subjects

Adaptation, Physiological, Animals, Butterflies growth & development, Female, Humidity, Male, Pupa growth & development, Sex Characteristics, Time Factors, Tropical Climate, Butterflies physiology, Eye Color physiology, Pupil physiology

Abstract

Lepidopteran insects have provided excellent study systems for understanding adaptive phenotypic plasticity. Although there are a few well-studied examples of adult plasticity among tropical butterflies, our understanding of plasticity of larval and pupal stages is largely restricted to temperate butterflies. The environmental parameters inducing phenotypic plasticity and the selective pressures acting on phenotypes are likely to differ across tropical and temperate climate regimes. We tested the influence of relative humidity (RH), a prominent yet under-appreciated tropical climatic component, along with pupation substrate, larval development time, pupal sex and weight in determining pupal colour in the tropical satyrine butterfly Mycalesis mineus. Pupae of this butterfly are either brown or green or very rarely intermediate. Larvae were reared at high (85%) and low (60%) RH at a constant temperature. Proportions of green and brown pupae were expected to vary across low and high RH and pupation substrates in order to enhance crypsis. Brown pupae were more common at low RH than at high RH, as predicted, and developed faster than green pupae. Pupal colour was correlated with pupation substrate. Choice of pupation substrate differed across RH treatments. It is unclear whether pupal colour influences substrate selection or whether substrate influences pupal colour. Our study underscores the need for further work to understand the basis of pupal plasticity in tropical butterflies., Competing Interests: The authors have declared that no competing interests exist.

Published

2017

40. Ten genes and two topologies: an exploration of higher relationships in skipper butterflies (Hesperiidae).

Author

Sahoo RK, Warren AD, Wahlberg N, Brower AV, Lukhtanov VA, and Kodandaramaiah U

Abstract

Despite multiple attempts to infer the higher-level phylogenetic relationships of skipper butterflies (Family Hesperiidae), uncertainties in the deep clade relationships persist. The most recent phylogenetic analysis included fewer than 30% of known genera and data from three gene markers. Here we reconstruct the higher-level relationships with a rich sampling of ten nuclear and mitochondrial markers (7,726 bp) from 270 genera and find two distinct but equally plausible topologies among subfamilies at the base of the tree. In one set of analyses, the nuclear markers suggest two contrasting topologies, one of which is supported by the mitochondrial dataset. However, another set of analyses suggests mito-nuclear conflict as the reason for topological incongruence. Neither topology is strongly supported, and we conclude that there is insufficient phylogenetic evidence in the molecular dataset to resolve these relationships. Nevertheless, taking morphological characters into consideration, we suggest that one of the topologies is more likely., Competing Interests: The authors declare that they have no competing interests.

Published

2016

41. Visual Pigments, Ocular Filters and the Evolution of Snake Vision.

Author

Simões BF, Sampaio FL, Douglas RH, Kodandaramaiah U, Casewell NR, Harrison RA, Hart NS, Partridge JC, Hunt DM, and Gower DJ

Subjects

Animals, Evolution, Molecular, Photoreceptor Cells, Phylogeny, Retina metabolism, Rod Opsins genetics, Vision, Ocular genetics, Biological Evolution, Opsins genetics, Retinal Pigments genetics, Snakes genetics

Abstract

Much of what is known about the molecular evolution of vertebrate vision comes from studies of mammals, birds and fish. Reptiles (especially snakes) have barely been sampled in previous studies despite their exceptional diversity of retinal photoreceptor complements. Here, we analyze opsin gene sequences and ocular media transmission for up to 69 species to investigate snake visual evolution. Most snakes express three visual opsin genes (rh1, sws1, and lws). These opsin genes (especially rh1 and sws1) have undergone much evolutionary change, including modifications of amino acid residues at sites of known importance for spectral tuning, with several tuning site combinations unknown elsewhere among vertebrates. These changes are particularly common among dipsadine and colubrine "higher" snakes. All three opsin genes are inferred to be under purifying selection, though dN/dS varies with respect to some lineages, ecologies, and retinal anatomy. Positive selection was inferred at multiple sites in all three opsins, these being concentrated in transmembrane domains and thus likely to have a substantial effect on spectral tuning and other aspects of opsin function. Snake lenses vary substantially in their spectral transmission. Snakes active at night and some of those active by day have very transmissive lenses, whereas some primarily diurnal species cut out shorter wavelengths (including UVA). In terms of retinal anatomy, lens transmission, visual pigment spectral tuning and opsin gene evolution the visual system of snakes is exceptionally diverse compared with all other extant tetrapod orders., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

42. Deceived by stripes: conspicuous patterning on vital anterior body parts can redirect predatory strikes to expendable posterior organs.

Author

Murali G and Kodandaramaiah U

Abstract

Conspicuous coloration, which presumably makes prey more visible to predators, has intrigued researchers for long. Contrastingly coloured, conspicuous striped patterns are common among lizards and other animals, but their function is not well known. We propose and test a novel hypothesis, the 'redirection hypothesis', wherein longitudinal striped patterns, such as those found on the anterior body parts of most lacertilians, redirect attacks away from themselves during motion towards less vulnerable posterior parts, for example, the autotomous tail. In experiments employing human 'predators' attacking virtual prey on a touchscreen, we show that longitudinal striped patterns on the anterior half of prey decreased attacks to the anterior and increased attacks to the posterior. The position of stripes mattered-they worked best when they were at the anterior. By employing an adaptive psychophysical procedure, we show that prey with striped patterning are perceived to move slower, offering a mechanistic explanation for the redirective effect. In summary, our results suggest that the presence of stripes on the body (i.e. head and trunk) of lizards in combination with caudal autotomy can work as an effective anti-predator strategy during motion.

Published

2016

43. Systematics and historical biogeography of the old world butterfly subtribe Mycalesina (Lepidoptera: Nymphalidae: Satyrinae).

Author

Aduse-Poku K, Brattström O, Kodandaramaiah U, Lees DC, Brakefield PM, and Wahlberg N

Subjects

Africa, Animals, Asia, Australia, Biological Evolution, Ecosystem, Phylogeny, Phylogeography, Butterflies classification, Butterflies genetics

Abstract

Background: Butterflies of the subtribe Mycalesina have radiated successfully in almost all habitat types in Africa, Madagascar, the Indian subcontinent, Indo-China and Australasia. Studies aimed at understanding the reasons behind the evolutionary success of this spectacular Old World butterfly radiation have been hampered by the lack of a stable phylogeny for the group. Here, we have reconstructed a robust phylogenetic framework for the subtribe using 10 genes from 195 exemplar taxa., Results: We recovered seven well supported clades within the subtribe corresponding to the five traditional genera (Lohora, Heteropsis, Hallelesis, Bicyclus, Mycalesis), one as recently revised (Mydosama) and one newly revised genus (Culapa). The phylogenetic relationships of these mycalesine genera have been robustly established for the first time. Within the proposed phylogenetic framework, we estimated the crown age of the subtribe to be 40 Million years ago (Mya) and inferred its ultimate origin to be in Asia. Our results reveal both vicariance and dispersal as factors responsible for the current widespread distribution of the group in the Old World tropics. We inferred that the African continent has been colonized at least twice by Asian mycalesines within the last 26 and 23 Mya. In one possible scenario, an Asian ancestor gave rise to Heteropsis on continental Africa, which later dispersed into Madagascar and most likely back colonised Asia. The second colonization of Africa by Asian ancestors resulted in Hallelesis and Bicyclus on continental Africa, the descendants of which did not colonise other regions but rather diversified only in continental Africa. The genera Lohora and Mydosama are derivatives of ancestors from continental Asia., Conclusion: Our proposed time-calibrated phylogeny now provides a solid framework within which we can implement mechanistic studies aimed at unravelling the ecological and evolutionary processes that culminated in the spectacular radiation of mycalesines in the Old World tropics.

Published

2015

44. What makes eyespots intimidating-the importance of pairedness.

Author

Mukherjee R and Kodandaramaiah U

Subjects

Animals, Birds, Butterflies genetics, Female, Male, Pigmentation genetics, Predatory Behavior, Biological Evolution, Butterflies anatomy & histology, Wings, Animal anatomy & histology

Abstract

Background: Many butterflies possess striking structures called eyespots on their wings, and several studies have sought to understand the selective forces that have shaped their evolution. Work over the last decade has shown that a major function of eyespots is their ability to reduce predation by being intimidating to attacking predators. Two competing hypotheses seek to explain the cause of intimidation, one suggesting 'eye-mimicry' and the other their 'conspicuousness' as the reason. There is an on-going debate about which of these better explains the effectiveness of eyespots against predation. We undertook a series of indoor experiments to understand the relative importance of conspicuousness and eye-mimicry, and therefore how predator perception may have influenced the evolution of eyespots. We conducted choice tests where artificial paper models mimicking Junonia almana butterflies were presented to chickens and their preference of attack recorded., Results: We first established that birds avoided models with a pair of eyespots. However, contrary to previous, outdoor experiments, we found that the total area of eyespots did not affect their effectiveness. Non-eye-like, fan shaped patterns derived from eyespots were found to be just as effective as eye-like circular patterns. Furthermore, we did not find a significant effect of symmetry of patterns, again in discordance with previous work. However, across all experiments, models with a pair of patterns, symmetric or asymmetric, eyelike or non-eye-like, suffered from fewer attacks compared with other models., Conclusions: The study highlights the importance of pairedness of eyespots, and supports the hypothesis that two is a biologically significant number that is important in prey-predator signalling. We discuss the implications of our results for the understanding of eyespot evolution.

Published

2015

45. Deceptive single-locus taxonomy and phylogeography: Wolbachia-associated divergence in mitochondrial DNA is not reflected in morphology and nuclear markers in a butterfly species.

Author

Kodandaramaiah U, Simonsen TJ, Bromilow S, Wahlberg N, and Sperling F

Abstract

The satyrine butterfly Coenonympha tullia (Nymphalidae: Satyrinae) displays a deep split between two mitochondrial clades, one restricted to northern Alberta, Canada, and the other found throughout Alberta and across North America. We confirm this deep divide and test hypotheses explaining its phylogeographic structure. Neither genitalia morphology nor nuclear gene sequence supports cryptic species as an explanation, instead indicating differences between nuclear and mitochondrial genome histories. Sex-biased dispersal is unlikely to cause such mito-nuclear differences; however, selective sweeps by reproductive parasites could have led to this conflict. About half of the tested samples were infected by Wolbachia bacteria. Using multilocus strain typing for three Wolbachia genes, we show that the divergent mitochondrial clades are associated with two different Wolbachia strains, supporting the hypothesis that the mito-nuclear differences resulted from selection on the mitochondrial genome due to selective sweeps by Wolbachia strains.

Published

2013

46. Deflective and intimidating eyespots: a comparative study of eyespot size and position in Junonia butterflies.

Author

Kodandaramaiah U, Lindenfors P, and Tullberg BS

Abstract

Eyespots are conspicuous circular features found on the wings of several lepidopteran insects. Two prominent hypotheses have been put forth explaining their function in an antipredatory role. The deflection hypothesis posits that eyespots enhance survival in direct physical encounters with predators by deflecting attacks away from vital parts of the body, whereas the intimidation hypothesis posits that eyespots are advantageous by scaring away a potential predator before an attack. In the light of these two hypotheses, we investigated the evolution of eyespot size and its interaction with position and number within a phylogenetic context in a group of butterflies belonging to the genus Junonia. We found that larger eyespots tend to be found individually, rather than in serial dispositions. Larger size and conspicuousness make intimidating eyespots more effective, and thus, we suggest that our results support an intimidation function in some species of Junonia with solitary eyespots. Our results also show that smaller eyespots in Junonia are located closer to the wing margin, thus supporting predictions of the deflection hypothesis. The interplay between size, position, and arrangement of eyespots in relation to antipredation and possibly sexual selection, promises to be an interesting field of research in the future. Similarly, further comparative work on the evolution of absolute eyespot size in natural populations of other butterfly groups is needed.

Published

2013

47. Investigating concordance among genetic data, subspecies circumscriptions and hostplant use in the nymphalid butterfly Polygonia faunus.

Author

Kodandaramaiah U, Weingartner E, Janz N, Leski M, Slove J, Warren A, and Nylin S

Subjects

Animals, Butterflies microbiology, Cluster Analysis, DNA, Mitochondrial genetics, Genetic Variation genetics, Microsatellite Repeats genetics, Phylogeography, Species Specificity, Wolbachia physiology, Butterflies classification, Butterflies genetics, Magnoliopsida

Abstract

Subspecies are commonly used taxonomic units to formally describe intraspecific geographic variation in morphological traits. However, the concept of subspecies is not clearly defined, and there is little agreement about what they represent in terms of evolutionary units, and whether they can be used as reliably useful units in conservation, evolutionary theory and taxonomy. We here investigate whether the morphologically well-characterized subspecies in the North American butterfly Polygonia faunus are supported by genetic data from mitochondrial sequences and eight microsatellite loci. We also investigate the phylogeographic structure of P. faunus and test whether similarities in host-plant use among populations are related to genetic similarity. Neither the nuclear nor the mitochondrial data corroborated subspecies groupings. We found three well defined genetic clusters corresponding to California, Arizona and (New Mexico+Colorado). There was little structuring among the remaining populations, probably due to gene flow across populations. We found no support for the hypothesis that similarities in host use are related to genetic proximity. The results indicate that the species underwent a recent rapid expansion, probably from two glacial refugia in western North America. The mitochondrial haplotype network indicates at least two independent expansion phases into eastern North America. Our results clearly demonstrate that subspecies in P. faunus do not conform to the structuring of genetic variation. More studies on insects and other invertebrates are needed to better understand the scope of this phenomenon. The results of this study will be crucial in designing further experiments to understand the evolution of hostplant utilization in this species.

Published

2012

48. Phylogenetics and biogeography of a spectacular Old World radiation of butterflies: the subtribe Mycalesina (Lepidoptera: Nymphalidae: Satyrini).

Author

Kodandaramaiah U, Lees DC, Müller CJ, Torres E, Karanth KP, and Wahlberg N

Subjects

Africa, Animals, Australasia, Bayes Theorem, Butterflies genetics, Genes, Insect, Geography, Likelihood Functions, Madagascar, Sequence Analysis, DNA, Butterflies classification, Evolution, Molecular, Genetic Speciation, Phylogeny

Abstract

Background: Butterflies of the subtribe Mycalesina (Nymphalidae: Satyrinae) are important model organisms in ecology and evolution. This group has radiated spectacularly in the Old World tropics and presents an exciting opportunity to better understand processes of invertebrate rapid radiations. However, the generic-level taxonomy of the subtribe has been in a constant state of flux, and relationships among genera are unknown. There are six currently recognized genera in the group. Mycalesis, Lohora and Nirvanopsis are found in the Oriental region, the first of which is the most speciose genus among mycalesines, and extends into the Australasian region. Hallelesis and Bicyclus are found in mainland Africa, while Heteropsis is primarily Madagascan, with a few species in Africa. We infer the phylogeny of the group with data from three genes (total of 3139 bp) and use these data to reconstruct events in the biogeographic history of the group., Results: The results indicate that the group Mycalesina radiated rapidly around the Oligocene-Miocene boundary. Basal relationships are unresolved, but we recover six well-supported clades. Some species of Mycalesis are nested within a primarily Madagascan clade of Heteropsis, while Nirvanopsis is nested within Lohora. The phylogeny suggests that the group had its origin either in Asia or Africa, and diversified through dispersals between the two regions, during the late Oligocene and early Miocene. The current dataset tentatively suggests that the Madagascan fauna comprises two independent radiations. The Australasian radiation shares a common ancestor derived from Asia. We discuss factors that are likely to have played a key role in the diversification of the group., Conclusions: We propose a significantly revised classification scheme for Mycalesina. We conclude that the group originated and radiated from an ancestor that was found either in Asia or Africa, with dispersals between the two regions and to Australasia. Our phylogeny paves the way for further comparative studies on this group that will help us understand the processes underlying diversification in rapid radiations of invertebrates.

Published

2010

49. Phylogenetics of Coenonymphina (Nymphalidae: Satyrinae) and the problem of rooting rapid radiations.

Author

Kodandaramaiah U, Peña C, Braby MF, Grund R, Müller CJ, Nylin S, and Wahlberg N

Subjects

Animals, Australasia, Bayes Theorem, Butterflies classification, Genes, Insect, Likelihood Functions, Models, Genetic, Sequence Analysis, DNA, Butterflies genetics, Evolution, Molecular, Genetic Speciation, Phylogeny

Abstract

We report a rapid radiation of a group of butterflies within the family Nymphalidae and examine some aspects of popular analytical methods in dealing with rapid radiations. We attempted to infer the phylogeny of butterflies belonging to the subtribe Coenonymphina sensu lato using five genes (4398bp) with Maximum Parsimony, Maximum Likelihood and Bayesian analyses. Initial analyses suggested that the group has undergone rapid speciation within Australasia. We further analyzed the dataset with different outgroup combinations the choice of which had a profound effect on relationships within the ingroup. Modelling methods recovered Coenonymphina as a monophyletic group to the exclusion of Zipaetis and Orsotriaena, irrespective of outgroup combination. Maximum Parsimony occasionally returned a polyphyletic Coenonymphina, with Argyronympha grouping with outgroups, but this was strongly dependent on the outgroups used. We analyzed the ingroup without any outgroups and found that the relationships inferred among taxa were different from those inferred when either of the outgroup combinations was used, and this was true for all methods. We also tested whether a hard polytomy is a better hypothesis to explain our dataset, but could not find conclusive evidence. We therefore conclude that the major lineages within Coenonymphina form a near-hard polytomy with regard to each other. The study highlights the importance of testing different outgroups rather than using results from a single outgroup combination of a few taxa, particularly in difficult cases where basal nodes appear to receive low support. We provide a revised classification of Coenonymphina; Zipaetis and Orsotriaena are transferred to the tribe Eritina., (Copyright (c) 2009. Published by Elsevier Inc.)

Published

2010

50. Nymphalid butterflies diversify following near demise at the Cretaceous/Tertiary boundary.

Author

Wahlberg N, Leneveu J, Kodandaramaiah U, Peña C, Nylin S, Freitas AV, and Brower AV

Subjects

Animals, Base Sequence, Butterflies anatomy & histology, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Biodiversity, Biological Evolution, Butterflies genetics, Extinction, Biological, Fossils, Genetic Speciation, Phylogeny

Abstract

The butterfly family Nymphalidae contains some of the most important non-drosophilid insect model systems for evolutionary and ecological studies, yet the evolutionary history of the group has remained shrouded in mystery. We have inferred a robust phylogenetic hypothesis based on sequences of 10 genes and 235 morphological characters for exemplars of 400 of the 540 valid nymphalid genera representing all major lineages of the family. By dating the branching events, we infer that Nymphalidae originated in the Cretaceous at 90 Ma, but that the ancestors of 10-12 lineages survived the end-Cretaceous catastrophe in the Neotropical and Oriental regions. Patterns of diversification suggest extinction of lineages at the Cretaceous/Tertiary boundary (65 Ma) and subsequent elevated speciation rates in the Tertiary.

Published

2009