Your search keyword '"*LIMENITIS"' showing total 83 results

1. The Red Admiral (Vanessa atalanta) (Lepidoptera, Nymphalidae) continues to expand its range in Eurasia

Author

Sergey V. Chumakov, Dmitry V. Goshko, Alexey V. Korshunov, and Roman V. Yakovlev

Subjects

butterflies, east siberia, pamir, tajikistan, area dynamics, vanessa, limenitis, apatura, maniola, Biology (General), QH301-705.5

Abstract

The article describes the distribution dynamics of the widely spread species Vanessa atalanta (Linnaeus, 1758) (Lepidoptera, Nymphalidae), which is for the first time reliably noted for a number of Siberian regions (Krasnoyarsk Territory, the Republic of Khakassia, Kemerovo Territory) and for Tajikistan (Western Pamir, the Bartang river valley).

Published

2024

2. Flying Colors.

Author

STONE, KIERSTEN

Subjects

BUTTERFLIES, SPRING, LIMENITIS, PAPILIONIDAE

Abstract

The article discusses the variety of butterflies in the Oklahoma landscape in springtime, including the Gulf Fritillary, originally named Papilio vanillae, which is more common in eastern Oklahoma. The Limenitis arthemis butterfly is divided into two groups: the red-spotted purple and the white admiral, with the former mimicking the appearance of the poisonous pipevine swallowtail. The Polygonia interrogationis is named for the silver mark on its hindwing resembling a question mark.

Published

2024

3. Estimating range disjunction time of the Palearctic Admirals (Limenitis L.) with COI and histone H1 genes.

Author

Solovyev, Vladimir I., Dubatolov, Vladimir V., Vavilova, Valeriya Y., and Kosterin, Oleg E.

Subjects

*PALEARCTIC, *ADMIRALS, *GENES, *MOLECULAR cloning, *DNA copy number variations, *GENE clusters, *HISTONES

Abstract

Three species of the genus Limenitis (Nymphalidae) (L. camilla, L. helmanni, L. sydyi) have split ranges in the Palearctic. Their disjunction was dated either to the Pleistocene or to the Subboreal time of the Holocene. This genus also exhibits an amphiberingean disjunction, L. populi vs four Nearctic species. To evaluate the disjunction time in Eurasia, we analysed a fragment of the mitochondrial COI gene and a major part of the histone H1 gene. The former was sequenced in 51 specimens of three species with Palearctic disjunctions. We detected a diverged nuclear copy of the COI gene in L. camilla. The histone H1 gene was sequenced in 64 specimens of 8 species. In five species, intra-species and intra-individual nucleotide substitutions and variation in the number of intra-genic repeats were observed and studied by cloning of individual gene copies, with individuals found with more than two variants. With 30–80 copies of histone H1 gene in Limenitis genomes, as estimated by real time PCR, this was interpreted as cis-heterogeneity across the histone gene cluster. No fixed differences between the western and eastern range parts were found in L. helmanni, L. camilla and L. sydyi, although in the former more alleles of both sequences were found in the eastern part. This suggests the range disjunctions to be too recent to be dated by molecular means and they may only be estimated to have taken place not more than 77–100 tya. This fits their provisional dating by Dubatolov and Kosterin (Entomologica Fennica 11(3), 141-161, 2000) to the Subboreal time of the Holocene. [ABSTRACT FROM AUTHOR]

Published

2022

4. Multi‐surveyor capture‐mark‐recapture as a powerful tool for butterfly population monitoring in the pre‐imaginal stage.

Author

Hinneberg, Heiko, Döring, Jörg, Hermann, Gabriel, Markl, Gregor, Theobald, Jennifer, Aust, Ines, Bamann, Thomas, Bertscheit, Ralf, Budach, Daniela, Niedermayer, Jana, Rissi, Alicia, and Gottschalk, Thomas K.

Subjects

*BUTTERFLIES, *SESSILE organisms, *ESTIMATES, *TEST validity, *CLEARCUTTING, *HABITATS, *SPECIES, *CORALS

Abstract

For many elusive insect species, which are difficult to cover by standard monitoring schemes, innovative survey methods are needed to gain robust data on abundance and population trends. We suggest a monitoring of overwintering larvae for the endangered nymphalid butterfly Limenitis reducta. We tested different removal and capture‐mark‐recapture (CMR) approaches in a field study in the "Alb‐Donau" region, Germany. Classical removal and CMR studies require movement of the organisms under study, but in our approach, we replaced movement of the study organisms by random movement of multiple different surveyors. We tested the validity of the approach by comparing detection frequencies from our field data with simulated detections. Our results indicate that multi‐surveyor removal/CMR techniques are suitable for estimating abundance of overwintering L. reducta larvae. Depending on surveyor experience, the average detection probability ranged between 16% for novices and 35% for experts. The uncertainty of population estimates increased with a decrease in personnel expenditure. Estimated larval densities on a spruce clear‐cut varied between one and three individuals per 100 m2, probably related to habitat conditions. We suggest a CMR approach with three to four trained surveyors for the monitoring of L. reducta populations in the overwintering stage. Compared with previous sampling methods, our approach is a powerful tool with clear advantages: long survey period, estimates of the absolute population size accompanied by uncertainty measures, and estimates of overwinter mortality. The proposed method can be adapted and used for several different butterfly species, other insect taxa with specific immobile life stages, and some sessile organisms, for example, elusive plants, fungi, or corals. [ABSTRACT FROM AUTHOR]

Published

2022

5. Multi‐surveyor capture‐mark‐recapture as a powerful tool for butterfly population monitoring in the pre‐imaginal stage

Author

Heiko Hinneberg, Jörg Döring, Gabriel Hermann, Gregor Markl, Jennifer Theobald, Ines Aust, Thomas Bamann, Ralf Bertscheit, Daniela Budach, Jana Niedermayer, Alicia Rissi, and Thomas K. Gottschalk

Subjects

caterpillar, detection probability, Lepidoptera, Limenitis, overwinter mortality, population size, Ecology, QH540-549.5

Abstract

Abstract For many elusive insect species, which are difficult to cover by standard monitoring schemes, innovative survey methods are needed to gain robust data on abundance and population trends. We suggest a monitoring of overwintering larvae for the endangered nymphalid butterfly Limenitis reducta. We tested different removal and capture‐mark‐recapture (CMR) approaches in a field study in the “Alb‐Donau” region, Germany. Classical removal and CMR studies require movement of the organisms under study, but in our approach, we replaced movement of the study organisms by random movement of multiple different surveyors. We tested the validity of the approach by comparing detection frequencies from our field data with simulated detections. Our results indicate that multi‐surveyor removal/CMR techniques are suitable for estimating abundance of overwintering L. reducta larvae. Depending on surveyor experience, the average detection probability ranged between 16% for novices and 35% for experts. The uncertainty of population estimates increased with a decrease in personnel expenditure. Estimated larval densities on a spruce clear‐cut varied between one and three individuals per 100 m2, probably related to habitat conditions. We suggest a CMR approach with three to four trained surveyors for the monitoring of L. reducta populations in the overwintering stage. Compared with previous sampling methods, our approach is a powerful tool with clear advantages: long survey period, estimates of the absolute population size accompanied by uncertainty measures, and estimates of overwinter mortality. The proposed method can be adapted and used for several different butterfly species, other insect taxa with specific immobile life stages, and some sessile organisms, for example, elusive plants, fungi, or corals.

Published

2022

6. A test of fundamental questions in mimicry theory using long‐term datasets

Author

Long, Elizabeth C, Edwards, Kyle F, and Shapiro, Arthur M

Subjects

Biotechnology, Adelpha, Batesianmimicry, Chlosyne, Euphydryas, female-limited polymorphic mimicry, Limenitis, long-term ecological surveys, Biological Sciences, Evolutionary Biology

Abstract

Since the phenomenon of mimicry was first described by Bates in 1862 it has become one of the foundational examples of adaptive evolution. Numerous subcategories of mimicry and dozens of hypotheses pertaining to its evolution and maintenance have been proposed. Many of these hypotheses, however, are difficult to test in experimental settings, and data from natural observations are often inadequate. Here we use data from a long-term survey of butterfly presence and abundance to test several hypotheses pertaining to Batesian and female-limited polymorphic mimicry (FPM; a special case of Batesian mimicry). We found strong evidence that models outnumber mimics in both mimicry systems, but no evidence for an increase in relative abundance of FPM mimics to their Batesian counterparts. Tests of the early-emergence/model first hypothesis showed strong evidence that the Batesian mimic routinely emerges after the model, while emergence timing in the FPM system was site specific, suggesting that other ecological factors are at play. These results demonstrate the importance of long-term field observations for testing evolutionary and ecological hypotheses.

Published

2015

7. Opsin Clines in Butterflies Suggest Novel Roles for Insect Photopigments

Author

Frentiu, Francesca D, Yuan, Furong, Savage, Wesley K, Bernard, Gary D, Mullen, Sean P, and Briscoe, Adriana D

Subjects

Neurosciences, Genetics, Biotechnology, Eye Disease and Disorders of Vision, Animals, Butterflies, Drosophila, Insect Proteins, Polymorphism, Single Nucleotide, Rod Opsins, Selection, Genetic, Limenitis, natural selection, rhodopsin, vision, thermal adaptation, spectral tuning, Biochemistry and Cell Biology, Evolutionary Biology

Abstract

Opsins are ancient molecules that enable animal vision by coupling to a vitamin-derived chromophore to form light-sensitive photopigments. The primary drivers of evolutionary diversification in opsins are thought to be visual tasks related to spectral sensitivity and color vision. Typically, only a few opsin amino acid sites affect photopigment spectral sensitivity. We show that opsin genes of the North American butterfly Limenitis arthemis have diversified along a latitudinal cline, consistent with natural selection due to environmental factors. We sequenced single nucleotide (SNP) polymorphisms in the coding regions of the ultraviolet (UVRh), blue (BRh), and long-wavelength (LWRh) opsin genes from ten butterfly populations along the eastern United States and found that a majority of opsin SNPs showed significant clinal variation. Outlier detection and analysis of molecular variance indicated that many SNPs are under balancing selection and show significant population structure. This contrasts with what we found by analysing SNPs in the wingless and EF-1 alpha loci, and from neutral amplified fragment length polymorphisms, which show no evidence of significant locus-specific or genome-wide structure among populations. Using a combination of functional genetic and physiological approaches, including expression in cell culture, transgenic Drosophila, UV-visible spectroscopy, and optophysiology, we show that key BRh opsin SNPs that vary clinally have almost no effect on spectral sensitivity. Our results suggest that opsin diversification in this butterfly is more consistent with natural selection unrelated to spectral tuning. Some of the clinally varying SNPs may instead play a role in regulating opsin gene expression levels or the thermostability of the opsin protein. Lastly, we discuss the possibility that insect opsins might have important, yet-to-be elucidated, adaptive functions in mediating animal responses to abiotic factors, such as temperature or photoperiod.

Published

2015

8. Foliage consumption of the Honshu white admiral Limenitis glorifica Fruhstorfer, 1909 (Lepidoptera : Nymphalidae) on Japanese honeysuckle Lonicera japonica Thunb. (Dipsacales: Caprifoliaceae) in Aotearoa / New Zealand

Author

Parkinson, Adam

Published

2022

9. Umbrella of protection: spatial and temporal dynamics in a temperate butterfly Batesian mimicry system.

Author

Prusa, Louis A and Hill, Ryan I

Subjects

*MIMICRY (Biology), *HABITAT conservation, *BUTTERFLIES, *UMBRELLAS, *HABITATS

Abstract

Batesian mimicry involves both spatial and temporal interactions between model, mimic and predator. Fundamental predictions in Batesian mimicry involve space, time and abundance; specifically, that the model and mimic are found in sympatry and that protection for the mimic is increased when predators interact with the model first and more frequently. Research has generally confirmed these predictions for Batesian mimicry at large spatial scales, with recent work on two nymphalid butterflies in western North America, the mimic Limenitis lorquini (Boisduval, 1852) and its model Adelpha californica (Butler, 1865) in western North America indicating that the mimic generally has lower abundance and emerges later in the season among widely separated populations in the California Coast Ranges and Sierra Nevada. However, no studies have investigated model–mimic dynamics at small scales in the temperate zone to test whether temporal habitat use and movements conform to predictions. If mimicry is as important a part of the biology of these temperate species as it is for their tropical counterparts, then in addition to emerging later and being less abundant overall, the mimic should be less widespread, should be less abundant in each habitat and should move less among available habitats. Our results using mark–release–recapture methods confirm these predictions and indicate that the mimic, L. lorquini , is enjoying an umbrella of protection against habitat specialist and generalist predators alike. [ABSTRACT FROM AUTHOR]

Published

2021

10. Adult Feeding as a Potential Mechanism for Unprofitability in Neotropical Adelpha (Limenitidini, Limenitidinae, Nymphalidae).

Author

Hill, Ryan I. and Mullen, Sean P.

Subjects

*NYMPHALIDAE, *ANIMAL feeding, *LIFE sciences, *MONARCH butterfly, *HONEY plants

Published

2019

11. Unravelling relationships among the shared stripes of sailors: Mitogenomic phylogeny of Limenitidini butterflies (Lepidoptera, Nymphalidae, Limenitidinae), focusing on the genera Athyma and Limenitis.

Author

Wu, Li-Wei, Chiba, Hideyuki, Lees, David C., Ohshima, Yasuhiro, and Jeng, Ming-Luen

Subjects

*NYMPHALIDAE, *LEPIDOPTERA, *LIMENITIS, *PHYLOGENY, *PHYLOGENETIC models

Abstract

Graphical abstract Highlights • Mitogenomic data provides well-resolved relationships of the tribe Limenitidini. • The genus Athyma is split into two major groups: one of them is nested within Limenitis. • Some Limenitidini genera in Asia are grouped either within Athyma or Limenitis. Abstract The phylogenetic relationships of the nymphalid butterfly tribe Limenitidini are best known for the genera Limenitis and Adelpha , model taxa for evolutionary processes such as Batesian mimicry and rapid adaptive radiations. Whereas these American limenitidines have received the most attention, phylogenetic relationships of their Asian relatives are still controversial and largely unexplored. Even one of the largest genera in Asia, Athyma , is polyphyletic. To clarify the phylogenetic relationships of these Asian Limenitidini, a total of 53 representatives were sampled; 37 have their mitogenomes sequenced for the first time. Our phylogenetic results confirm that mitogenomic data provides well-resolved relationships at most major levels of the phylogeny, even using different partition schemes or different inference methods. Interestingly, our results show that some Athyma taxa are embedded within the genus Limenitis , whereas the genus Tacola , previously considered to be a synonym of Athyma , needs to be recognized as a valid clade. Additionally, the other Limenitidini genera in Asia (namely Tarattia , Litinga , Sumalia , Pandita and Patsuia) are now grouped either within Athyma or Limenitis , so these genera need to be sunk. Importantly, we also show that the mainly Old World Limenitis and entirely New World Adelpha are sister groups, confirming the relevance of Asian lineages to global studies of Limenitis evolution. [ABSTRACT FROM AUTHOR]

Published

2019

12. Higher DNA insert fragment sizes improve mitogenomic assemblies from metagenomic pyrosequencing datasets: an example using Limenitidinae butterflies (Lepidoptera, Nymphalidae).

Author

Chen, Yung-Chih, Wang, Chieh-Ting, Lees, David C., and Wu, Li-Wei

Subjects

*BUTTERFLIES, *INSECTS, *MITOCHONDRIAL DNA, *METAGENOMICS, *LEPIDOPTERA, *INSECT phylogeny

Abstract

A large number of diverse mitogenomic sequences can be obtained more easily and affordably via mitochondrial metagenomics, which generates high-throughput sequences directly from sheared DNA extractions and assembles mitogenomic sequences using a few bioinformatic processing steps. However, following de novo assembly analysis, the optimal DNA fragment insert size is unclear. In this study, four extracted Limenitidinae butterfly DNA samples were sonically fragmented, and two fragment size ranges (200-400 and 400-600 bp) of each sample were tagged with different barcodes, producing pyrosequencing datasets. The results show that the datasets generated from longer DNA insert fragments result in better coverage and more complete mitogenomic sequences, and the phylogenetic analysis shows high support at nodes, revealing that Athyma butterflies do not represent a monophyletic group. Therefore, we recommend using longer insert DNA fragment sizes to generate high-throughput datasets for obtaining complete mitogenomic sequences which can improve phylogenetic studies. [ABSTRACT FROM AUTHOR]

Published

2018

13. Disentangling Population History and Character Evolution among Hybridizing Lineages

Author

Adriana D. Briscoe, Sumitha Nallu, Wei Zhang, Evan B. Kristiansen, Marcus R. Kronforst, Sean P. Mullen, Nicholas W. VanKuren, Ryan I. Hill, Kevin Liu, and Qiqige Wuyun

Subjects

Male, Character evolution, Genome, Insect, Population, Introgression, Biology, Limenitis arthemis, Genetic Introgression, Balancing selection, Coalescent theory, Genetics, Animals, Selection, Genetic, education, Molecular Biology, Discoveries, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Biological Mimicry, biology.organism_classification, Biological Evolution, Batesian mimicry, Limenitis, Phylogeography, Haplotypes, Evolutionary biology, North America, Female, Butterflies

Abstract

Understanding the origin and maintenance of adaptive phenotypic novelty is a central goal of evolutionary biology. However, both hybridization and incomplete lineage sorting can lead to genealogical discordance between the regions of the genome underlying adaptive traits and the remainder of the genome, decoupling inferences about character evolution from population history. Here, to disentangle these effects, we investigated the evolutionary origins and maintenance of Batesian mimicry between North American admiral butterflies (Limenitis arthemis) and their chemically defended model (Battus philenor) using a combination of de novo genome sequencing, whole-genome resequencing, and statistical introgression mapping. Our results suggest that balancing selection, arising from geographic variation in the presence or absence of the unpalatable model, has maintained two deeply divergent color patterning haplotypes that have been repeatedly sieved among distinct mimetic and nonmimetic lineages of Limenitis via introgressive hybridization.

Published

2020

14. The Mechanism for Mimicry: Instant Biosemiotic Selection or Gradual Darwinian Fine-Tuning Selection?

Author

Victoria N. Alexander

Subjects

0106 biological sciences, 0303 health sciences, education.field_of_study, Natural selection, biology, Communication, Population, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Nymphalidae, Language and Linguistics, Müllerian mimicry, Limenitis, 03 medical and health sciences, Evolutionary biology, Mimicry, Darwinism, education, Social Sciences (miscellaneous), Biological Mimicry, 030304 developmental biology

Abstract

Biological mimicry is regarded by many as a textbook illustration of Darwin’s idea of evolution by random mutation followed by differential selection of reproductively fit specimens, resulting in gradual phenotypic change in a population. In this paper, I argue that some cases of so-called mimicry are probably merely look-a-likes and do not gain an advantage due to their similarity in appearance to something else. In cases where a similar appearance does provide a benefit, I argue that it is possible that these forms of mimicry were created in a single generation. An interpretive response to an appearance as a sign can make a new structure perform drastically differently in an environment. In such cases, Darwin’s natural selection mechanism only helps to explain gradual the spread of these new forms, not the creation of them. I argue that biosemiosis should be regarded as a much more powerful mechanism for affecting evolutionary trajectories than the gradualist view allows. I focus on two cases of butterfly mimicry: the Viceroy (Nymphalidae: Limenitis archippus) and Monarch (Nymphalidae: Danaus plexippus) butterflies, supposed Mullerian mimics, and deadleaf mimic butterflies (Kallima).

Published

2019

15. Unravelling relationships among the shared stripes of sailors: Mitogenomic phylogeny of Limenitidini butterflies (Lepidoptera, Nymphalidae, Limenitidinae), focusing on the genera Athyma and Limenitis

Author

Hideyuki Chiba, Ming-Luen Jeng, Yasuhiro Ohshima, Li Wei Wu, and David C. Lees

Subjects

0106 biological sciences, 0301 basic medicine, Asia, Genome, Insect, 010603 evolutionary biology, 01 natural sciences, Nymphalidae, 03 medical and health sciences, Phylogenetics, Polyphyly, Genetics, Animals, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Adelpha, biology.organism_classification, Limenitis, Athyma, 030104 developmental biology, Sister group, Evolutionary biology, Genome, Mitochondrial, Butterflies, Limenitidinae

Abstract

The phylogenetic relationships of the nymphalid butterfly tribe Limenitidini are best known for the genera Limenitis and Adelpha, model taxa for evolutionary processes such as Batesian mimicry and rapid adaptive radiations. Whereas these American limenitidines have received the most attention, phylogenetic relationships of their Asian relatives are still controversial and largely unexplored. Even one of the largest genera in Asia, Athyma, is polyphyletic. To clarify the phylogenetic relationships of these Asian Limenitidini, a total of 53 representatives were sampled; 37 have their mitogenomes sequenced for the first time. Our phylogenetic results confirm that mitogenomic data provides well-resolved relationships at most major levels of the phylogeny, even using different partition schemes or different inference methods. Interestingly, our results show that some Athyma taxa are embedded within the genus Limenitis, whereas the genus Tacola, previously considered to be a synonym of Athyma, needs to be recognized as a valid clade. Additionally, the other Limenitidini genera in Asia (namely Tarattia, Litinga, Sumalia, Pandita and Patsuia) are now grouped either within Athyma or Limenitis, so these genera need to be sunk. Importantly, we also show that the mainly Old World Limenitis and entirely New World Adelpha are sister groups, confirming the relevance of Asian lineages to global studies of Limenitis evolution.

Published

2019

16. A single origin of Batesian mimicry among hybridizing populations of admiral butterflies (Limenitis arthemis) rejects an evolutionary reversion to the ancestral phenotype.

Author

Wesley K. Savage

Subjects

*MIMICRY (Biology), *LIMENITIS, *INSECT evolution, *SPECIES hybridization, *PHENOTYPES, *ANIMAL adaptation, *NATURAL selection, *GENETIC polymorphisms

Abstract

Batesian mimicry is a fundamental example of adaptive phenotypic evolution driven by strong natural selection. Given the potentially dramatic impacts of selection on individual fitness, it is important to understand the conditions under which mimicry is maintained versus lost. Although much empirical and theoretical work has been devoted to the maintenance of Batesian mimicry, there are no conclusive examples of its loss in natural populations. Recently, it has been proposed that non-mimetic populations of the polytypic Limenitis arthemis species complex represent an evolutionary loss of Batesian mimicry, and a reversion to the ancestral phenotype. Here, we evaluate this conclusion using segregating amplified fragment length polymorphism markers to investigate the history and fate of mimicry among forms of the L. arthemis complex and closely related Nearctic Limenitis species. In contrast to the previous finding, our results support a single origin of mimicry within the L. arthemis complex and the retention of the ancestral white-banded form in non-mimetic populations. Our finding is based on a genome-wide sampling approach to phylogeny reconstruction that highlights the challenges associated with inferring the evolutionary relationships among recently diverged species or populations (i.e. incomplete lineage sorting, introgressive hybridization and/or selection). [ABSTRACT FROM AUTHOR]

Published

2009

17. A RARE MODEL LIMITS THE DISTRIBUTION OF ITS MORE COMMON MIMIC: A TWIST ON FREQUENCY-DEPENDENT BATESIAN MIMICRY.

Author

Ries, Leslie and Mullen, Sean P.

Subjects

*MIMICRY (Biology), *NATURAL selection, *SPECIES hybridization, *BIOLOGICAL evolution, *LIMENITIS, *PHENOTYPES

Abstract

Batesian mimics are predicted to lose their fitness advantage not only in the absence of an unpalatable model, but also when the mimic becomes relatively abundant. The phenotypic hybrid zone between mimetic and nonmimetic admiral butterflies, comprising the polytypic Limenitis arthemis species complex, offers an ideal opportunity to test these predictions because the position of the hybrid zone is hypothesized to be controlled by the geographic range of Battus philenor, the chemically defended model. We used 29 years of observational field data from a continental-scale butterfly monitoring program, the 4th of July Butterfly Counts, to show that (1) the advantage of mimicry does not extend beyond the range of the model, (2) in contrast to expectations, the mimicry complex is maintained even where the model is rare and (3) the sharp phenotypic transition between mimetic and nonmimetic admiral populations occurs over a very narrow spatial scale corresponding to the limit of the model's range. These results suggest that, even at very low densities, there is selection for Batesian mimicry and it maintains the geographic position of this hybrid zone. Our findings highlight the value of large-scale, long-term citizen science monitoring programs for answering basic ecological and evolutionary questions. [ABSTRACT FROM AUTHOR]

Published

2008

18. HYBRID ZONE ORIGINS, SPECIES BOUNDARIES, AND THE EVOLUTION OF WING-PATTERN DIVERSITY IN A POLYTYPIC SPECIES COMPLEX OF NORTH AMERICAN ADMIRAL BUTTERFLIES (NYMPHALIDAE: LIMENITIS).

Author

Mullen, Sean P., Dopman, Erik B., and Harrison, Richard G.

Subjects

*HYBRID zones, *LIFE zones, *SPECIES, *BIOLOGICAL classification, *WINGS (Anatomy), *BUTTERFLIES, *NYMPHALIDAE, *LIMENITIS

Abstract

Hybrid zones present opportunities to study the effects of gene flow, selection, and recombination in natural populations and, thus, provide insights into the genetic and phenotypic changes that occur early in speciation. Here we investigate a hybrid zone between mimetic ( Limenitis arthemis astyanax) and nonmimetic ( Limenitis arthemis arthemis) populations of admiral butterflies using DNA sequence variation from mtDNA and seven nuclear gene loci. We find three distinct mitochondrial clades within this complex, and observe a strong overall concordance between wing-pattern phenotypes and mitochondrial variation. Nuclear gene genealogies, in contrast, revealed no evidence of exclusivity for either wing-pattern phenotype, suggesting incomplete barriers to gene exchange and/or insufficient time for lineage sorting. Coalescent simulations indicate that gene flow between these two subspecies is highly asymmetric, with the majority of migration occurring from mimetic into nonmimetic populations. Selective sweeps of alleles responsible for mimetic phenotypes may have occurred more than once when mimetic and nonmimetic Limenitis occurred together in the presence of the model ( Battus philenor). [ABSTRACT FROM AUTHOR]

Published

2008

19. Adaptive evolution of color vision as seen through the eyes of butterflies.

Author

Frentiu, Francesca D., Bernard, Gary D., Cuevas, Cristina I., Sison-Mangus, Marilou P., Prudic, Kathleen L., and Briscoe, Adriana D.

Subjects

*LIMENITIS, *VISUAL pigments, *BUTTERFLIES, *PRIMATES, *ANIMAL pigments, *COLOR vision

Abstract

Butterflies and primates are interesting for comparative color vision studies, because both have evolved middle- (M) and long- wavelength- (L) sensitive photopigments with overlapping absorbance spectrum maxima (λmax values). Although positive selection is important for the maintenance of spectral variation within the primate pigments, it remains an open question whether it contributes similarly to the diversification of butterfly pigments. To examine this issue, we performed epimicrospectrophotometry on the eyes of five Limenitis butterfly species and found a 31-nm range of variation in the λmax values of the L-sensitive photopigments (514-545 nm). We cloned partial Limenitis L opsin gene sequences and found a significant excess of replacement substitutions relative to polymorphisms among species. Mapping of these L photopigment λmax values onto a phylogeny revealed two instances within Lepidoptera of convergently evolved L photopigment lineages whose λmax values were blue-shifted. A codon-based maximum-likelihood analysis indicated that, associated with the two blue spectral shifts, four amino acid sites (Ile17Met, Ala64Ser, Asn70Ser, and Ser137Ala) have evolved substitutions in parallel and exhibit significant dN/ds >1. Homology modeling of the full-length Limenitis arthemis astyanax L opsin placed all four substitutions within the chromophore-binding pocket. Strikingly, the Ser137Ala substitution is in the same position as a site that in primates is responsible for a 5- to 7-nm blue spectral shift. Our data show that some of the same amino acid sites are under positive selection in the photopigments of both butterflies and primates, spanning an evolutionary distance > 500 million years. [ABSTRACT FROM AUTHOR]

Published

2007

20. Wing pattern evolution and the origins of mimicry among North American admiral butterflies (Nymphalidae: Limenitis)

Author

Mullen, Sean P.

Subjects

*NYMPHALIDAE, *BUTTERFLIES, *BAYESIAN analysis

Abstract

Abstract: The evolution of wing pattern diversity in butterflies has emerged as a model system for understanding the origins and maintenance of adaptive phenotypic novelty. Admiral butterflies (genus Limenitis) are an attractive system for studying wing pattern diversity because mimicry is common among the North American species and hybrid zones occur wherever mimetic and non-mimetic wing pattern races meet. However, the utility of this system has been limited because the evolutionary relationships among these butterflies remain unclear. Here I present a robust species-level phylogeny of Limenitis based on 1911bp of two mitochondrial genes (COI and COII) and 904bp of EF1-α for all five of the Nearctic species/wing pattern races, the majority of the Palearctic species, and three outgroup genera; Athyma, Moduza (Limenitidini), and Neptis (Limenitidinae: Neptini). Maximum-likelihood and Bayesian analyses indicate that the North American species are a well-supported, monophyletic lineage that is most closely related to the widespread, Palearctic, Poplar admiral (L. populi). Within North America, the Viceroy (L. archippus) is the basal lineage while the relationships among the remaining species are not well resolved. A combined maximum-likelihood analysis, however, indicates that the two western North America species (L. lorquini and L. weidemeyerii) are sister taxa and closely related to the wing pattern subspecies of the polytypic Limenitis arthemis species complex. These results are consistent with (1) an ancestral host-shift to Salicaceae by the common ancestor of the Poplar admiral and the Nearctic admiral lineage, (2) a single colonization of the Nearctic, and (3) a subsequent radiation of the North American forms leading to at least three independent origins of mimicry. [Copyright &y& Elsevier]

Published

2006

21. The Western Viceroy butterfly (Nymphalidae: Limenitis archippus obsoleta): an indicator for riparian restoration in the arid southwestern United States?

Author

Nelson, S. Mark

Subjects

*LIMENITIS, *LIFE cycles (Biology)

Abstract

Life history characteristics of the Western Viceroy (Limenitis archippus obsoleta), an obligate riparian nymphalid butterfly in the desert southwestern United States, are described and related to Colorado River riparian restoration efforts. Riverine disturbance regimes and associated fluvial and hydrological dynamics may provide resources critical to this butterfly. Puddling by adult butterflies may require flood-cleared surfaces and an obligate riparian plant, Gooddings willow, was a larval host plant. This butterfly needs a variety of resources that are only found in close proximity in naturally functioning riparian ecosystems. Habitat heterogeneity required for colony persistence depends largely upon the natural dynamic character of flowing water systems. Because of the links between this butterfly and riparian structure and function it may be a useful indicator for monitoring riparian ecosystem restoration in the area. [Copyright &y& Elsevier]

Published

2003

22. Evaluating a putative mimetic relationship between two butterflies, Adelpha bredowii and Limenitis lorquini.

Author

Prudic, Kathleen L, Shapiro, Arthur M, and Clayton, Nicola S

Subjects

*BUTTERFLIES, *LIMENITIS

Abstract

Abstract 1. A laboratory bioassay experiment was performed in order to investigate a long-standing putative mimetic relationship between two butterflies, the Lorquin's admiral Limenitis lorquini and the California sister Adelpha bredowii (Lepidoptera, Nymphalidae). These butterfly species are commonly sympatric in their broad distribution on the west coast of the United States. The wing colour pattern of L. lorquini differs from the patterns exhibited by its North American congeners, resembling A. bredowii instead. 2. The feeding responses of California scrub jays Aphelocoma californica (Passeriformes, Corvidae) to these prey types and a known palatable control, the buckeye butterfly Junonia coenia (Lepidoptera, Nymphalidae), were examined quantitatively. The birds usually demonstrated long handling times of A. bredowii before consumption, while L. lorquini was manipulated and consumed at the same rate as the control butterfly. The birds also exhibited feather ruffling and bill wiping after consuming A. bredowii while they did not exhibit such behaviours after consuming L. lorquini and J. coenia . 3. The birds did not discriminate between the dorsal colour patterns of the two species in a choice experiment. 4. Because A. bredowii was moderately unpalatable to the captive scrub jays and the birds were not discriminating in their choice, this suggests a Batesian mimetic relationship between L. lorquini and A. bredowii . [ABSTRACT FROM AUTHOR]

Published

2002

23. Emmanouil Limenitis’in 'Rodos’ta veba (to thanatikon tis Rodou)' adlı eserinin çevirisi ve incelenmesi

Author

Dede, Bıousra, Kırlıdökme Mollaoğlu, Ferhan, and Sosyal Bilimler Enstitüsü

Subjects

Pierre d’Aubusson, Yunan Edebiyatı, Ortaçağ, Rodos Adası, Emmanouil Limenitis, Veba, Şövalyeler

Abstract

Emmanouil Limenitis XV. yüzyılda Rodos adasında yaşamış bir şairdir. Toplamda ona atfedilen üç şiir vardır. Tezimin çeviri ve inceleme konusu olan “Rodos’ta Veba” isimli son eseri, 1500 yılında, Osmanlı fethi öncesi Rodos’ta yazılan en önemli eserlerden biri sayılmaktadır. Eserin adından da anlaşılacağı üzere, yazar, Rodos adasını iki yıl boyunca etkisi altına alan veba salgını hakkında bilgiler sunmaktadır. 1498-1500 yıllarında Rodos’ta yaşanan veba salgını yazarın ailesinden de olmak üzere adada yaşayan pek çok kişinin hayatını kaybetmesine sebep olmuştur. Şüphesiz ki bu trajik olay yazarı bu şiiri yazmaya teşvik etmiştir, ancak eseri bu kadar mühim kılan vebaya ek olarak adanın tarihi ve geleneksel yaşantısı hakkında bilgiler içermesidir. Yunanların, Katolik Latin Saint Jean Şövalyeleri yönetimi altında Rodos adasında hangi şartlar altında yaşadıklarını, yazarın Latinlere ve Türklere bakış açısını, Ortaçağ Hıristiyan dünyasının dini ve sosyal yaşantısını, vebanın Ortaçağ edebiyatı ve sanatına yansımalarını ve yazarın kullandığı dil özellikleri gibi birçok konu çalışmamızda ele alınmıştır. Eser içerdiği bu bilgilerle XV. yüzyılda On İki Adalar kültürüne ışık tutmuştur. Emmanouil Limenitis was a poet who lived in the 15th century on the island of Rhodes. Three poems are attributed to him. The title of my dissertation is the translation and analysis of his last poem titled “The Plague of Rhodes”. The work was written in 1500 and is one of the most important works written on Rhodes before the Ottomans captured the island. As can be seen from the name of the poem, the author gave information about the plague epidemic that struck for two years the island of Rhodes. This epidemic took place in 1498-1500 and caused death to the inhabitants of the island even from the family of the poet. Undoubtedly this tragic event became the reason for writing this poem but the thing that makes the work so remarkable is the information the poet gave us about the history and the traditional life of the island. The work includes topics such as the life of the Greeks under the domination of the Catholic Knights Hospitaller, the poet’s view of the Latins and the Turks, the religious and social life of the Christian inhabitants of the island in the Middle Ages, the influence of plague on literature and the art in the Middle Ages and properties of the medieval Greek language. The information contained in the work illuminates the 15th century Dodecanese culture.

Published

2019

24. Bilabial compression force discrimination by human subjects.

Author

Williams, W. N., Vaughn, A. O., and Cornell, C. E.

Subjects

*CEREBRAL cortex, *NYMPHALIDAE, *LIMENITIS, *COMPRESSION (Audiology), *SENSORIMOTOR cortex, *HUMAN beings

Abstract

This study examined and compared bilabial compression force difference limen (DL) values (the minimally perceivable difference between two compression forces) for a group of twenty normal-speaking female subjects (mean age, 25 years) under conditions with and without the teeth clenched. In addition, measures of maximum bilabial compression force under conditions with and without the teeth clenched were obtained. Mean DL values obtained against a standard of 100 gm were 36 gm for the clenched condition and 38 gm with no clenching. Discrimination performance under these two conditions was not significantly different (P>005) Mean maximum bilabial compression force was 411 gm with the teeth clenched and 568 gm without clenching. This difference in performance was significant (P0.01). This study provides initial normal data against which individuals with labial sensorimotor dysfunction can be compared. [ABSTRACT FROM AUTHOR]

Published

1988

25. Proboscis morphology suggests reduced feeding abilities of hybrid Limenitis butterflies (Lepidoptera: Nymphalidae)

Author

Kristen E. Reiter, Valerie R. Kramer, and Matthew S. Lehnert

Subjects

0106 biological sciences, 0301 basic medicine, biology, Zoology, Morphology (biology), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Nymphalidae, Proboscis (genus), Limenitis, Lepidoptera genitalia, 03 medical and health sciences, 030104 developmental biology, Ecology, Evolution, Behavior and Systematics

Published

2018

26. A test of fundamental questions in mimicry theory using long-term datasets

Author

Kyle F. Edwards, Arthur M. Shapiro, and Elizabeth C. Long

Subjects

Limenitis, Evolutionary biology, Ecology, Chlosyne, Mimicry, Adelpha, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Batesian mimicry, Term (time), Test (assessment), Adaptive evolution

Abstract

Since the phenomenon of mimicry was first described by Bates in 1862 it has become one of the foundational examples of adaptive evolution. Numerous subcategories of mimicry and dozens of hypotheses pertaining to its evolution and maintenance have been proposed. Many of these hypotheses, however, are difficult to test in experimental settings, and data from natural observations are often inadequate. Here we use data from a long-term survey of butterfly presence and abundance to test several hypotheses pertaining to Batesian and female-limited polymorphic mimicry (FPM; a special case of Batesian mimicry). We found strong evidence that models outnumber mimics in both mimicry systems, but no evidence for an increase in relative abundance of FPM mimics to their Batesian counterparts. Tests of the early-emergence/model first hypothesis showed strong evidence that the Batesian mimic routinely emerges after the model, while emergence timing in the FPM system was site specific, suggesting that other ecological factors are at play. These results demonstrate the importance of long-term field observations for testing evolutionary and ecological hypotheses.

Published

2015

27. Barcoding old Korean lepidopteran specimens using newly designed specific primer pairs

Author

Young-Bo Lee, Seunghwan Lee, Wonhoon Lee, Nam-Jung Kim, Taeman Han, and Haechul Park

Subjects

Genetics, biology, biology.organism_classification, Barcode, DNA barcoding, law.invention, Limenitis, law, Insect Science, Brenthis ino, Primer (molecular biology), Brenthis daphne, Argynnis nerippe, Polymerase chain reaction

Abstract

Currently, DNA barcodes are often required to be analyzed using old museum specimens when they are the only available specimens for rare or endangered species, or even type series. In this study, using eight universal primers and newly designed 315 species-specific primers, we tried to recover full-length barcode sequences from 45 dried specimens of 36 butterfly species collected between 1959 and 1980 in Korea. The eight universal primers failed entirely in the PCR amplification and sequencing of all the specimens. On the other hand, 284 primer pairs consisting of the 315 primers, targeting fragments of 71–417 bp, amplified various lengths of barcode sequences from all specimens. The fragments were successfully combined to generate the barcode sequences ranging from 444 bp to 658 bp. Notably, of the 284 primer pairs, 26 primer pairs designed for Limenitis camilla , Argynnis niobe , and Brenthis daphne successfully amplified the barcode sequences of congeneric species, Limenitis doerriesi , Argynnis nerippe , and Brenthis ino , suggesting that the species-specific primers can be available for analyzing barcode sequences of closely related species. Our study reveals that the newly designed species-specific primers will be effective in acquiring COI sequences from old butterfly specimens.

Published

2014

28. MIMETIC VERSUS DISRUPTIVE COLORATION IN INTERGRADING POPULATIONS OF LIMENITIS ARTHEMIS AND ASTYANAX BUTTERFLIES

Author

Austin P. Platt and Lincoln P. Brower

Subjects

0106 biological sciences, 0301 basic medicine, Zoology, Biology, Limenitis arthemis, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Limenitis, 03 medical and health sciences, Disruptive coloration, 030104 developmental biology, Genetics, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Published

2017

29. ON LIMENITIS BREDOWII GEYER (LEP., NYMPHALIDAE) WITH DESCRIPTION OF A NEW SUBSPECIES AND REVIVAL OF ANOTHER. A STUDY IN GEOGRAPHICAL DISTHIBUTION AND SPECIATION

Author

B. M. Hobby and G. D. Hale Carpenter

Subjects

Limenitis, Ecology, Evolutionary biology, Insect Science, Genetic algorithm, Subspecies, Biology, biology.organism_classification, Nymphalidae

Published

2009

30. XXI. Mimetic North American species of the Genus Limenitis (s. l.) and their models

Author

Edward B. Poulton

Subjects

Limenitis, Ecology, biology, Genus, Insect Science, Zoology, biology.organism_classification

Published

2009

31. Adaptive evolution of color vision as seen through the eyes of butterflies

Author

Adriana D. Briscoe, Marilou P. Sison-Mangus, Francesca D. Frentiu, Gary D. Bernard, Kathleen L. Prudic, and Cristina I. Cuevas

Subjects

Opsin, Multidisciplinary, biology, Color vision, Human evolutionary genetics, Ecology, Colloquium Papers, Molecular Sequence Data, Rod Opsins, Pigments, Biological, Limenitis arthemis, Eye, biology.organism_classification, Adaptation, Physiological, Biological Evolution, Limenitis, Evolutionary biology, Phylogenetics, Animals, Photopigment, Selection, Genetic, Adaptation, Butterflies, Color Perception

Abstract

Butterflies and primates are interesting for comparative color vision studies, because both have evolved middle- (M) and long-wavelength- (L) sensitive photopigments with overlapping absorbance spectrum maxima (λ max values). Although positive selection is important for the maintenance of spectral variation within the primate pigments, it remains an open question whether it contributes similarly to the diversification of butterfly pigments. To examine this issue, we performed epimicrospectrophotometry on the eyes of five Limenitis butterfly species and found a 31-nm range of variation in the λ max values of the L-sensitive photopigments (514–545 nm). We cloned partial Limenitis L opsin gene sequences and found a significant excess of replacement substitutions relative to polymorphisms among species. Mapping of these L photopigment λ max values onto a phylogeny revealed two instances within Lepidoptera of convergently evolved L photopigment lineages whose λ max values were blue-shifted. A codon-based maximum-likelihood analysis indicated that, associated with the two blue spectral shifts, four amino acid sites (Ile17Met, Ala64Ser, Asn70Ser, and Ser137Ala) have evolved substitutions in parallel and exhibit significant d N /d S >1. Homology modeling of the full-length Limenitis arthemis astyanax L opsin placed all four substitutions within the chromophore-binding pocket. Strikingly, the Ser137Ala substitution is in the same position as a site that in primates is responsible for a 5- to 7-nm blue spectral shift. Our data show that some of the same amino acid sites are under positive selection in the photopigments of both butterflies and primates, spanning an evolutionary distance >500 million years.

Published

2007

32. The causes and consequences of mimicry in Limenitis butterflies in western North America

Author

Kristiansen, Evan Breaux

Subjects

Biology, Admiral, Batesian mimicry, Color pattern, Hybridization, Limenitis, Species boundary

Abstract

Batesian mimicry is a classic example of adaptation wherein the benefit of bearing the mimetic trait is directly and positively correlated with fitness. This tangible fitness benefit makes mimicry an excellent model system for addressing one of the largest remaining questions in evolutionary biology, that of the origin and maintenance of adaptive phenotypic diversity. Here I set out to answer a small part of this larger question - namely, what maintains color pattern polymorphism between two hybridizing species of admiral butterflies (genus Limenitis) in western North America. I address this question by examining both predator-mediated selection on the phenotype, and by investigating phenotype-genotype association across the genome. In chapter one, I demonstrate the adaptive significance of the mimetic orange apical forewing patch (AFP) phenotype in Limenitis lorquini through the use of a large-scale predation experiment. In the chapter two, I localize the genomic region responsible for this color pattern variation using a mapping cross and quantitative trait locus (QTL) analysis. Finally, in chapter three I identify putative causal variants that are associated with the phenotype using linear modeling in a genome wide association study (GWAS). Collectively, my results suggest that the presence or absence of the orange AFP phenotype is associated two separate regions of the genome. The first region includes an undescribed gene, while the second contains variation near the known color patterning gene optix. Studies of the functional relationship between these gene regions and phenotype will be necessary to confirm this hypothesis and examine how selection acting on these regions of the genome impact patterns of introgression and gene flow across the species boundary between these two hybridizing admiral lineages.

Published

2019

33. A test of fundamental questions in mimicry theory using long-term datasets

Author

Long, EC, Edwards, KF, and Shapiro, AM

Subjects

Evolutionary Biology, female-limited polymorphic mimicry, Limenitis, Batesianmimicry, Adelpha, Chlosyne, Biological Sciences, long-term ecological surveys, Euphydryas, Biotechnology

Abstract

© 2015 The Linnean Society of London. Since the phenomenon of mimicry was first described by Bates in 1862 it has become one of the foundational examples of adaptive evolution. Numerous subcategories of mimicry and dozens of hypotheses pertaining to its evolution and maintenance have been proposed. Many of these hypotheses, however, are difficult to test in experimental settings, and data from natural observations are often inadequate. Here we use data from a long-term survey of butterfly presence and abundance to test several hypotheses pertaining to Batesian and female-limited polymorphic mimicry (FPM; a special case of Batesian mimicry). We found strong evidence that models outnumber mimics in both mimicry systems, but no evidence for an increase in relative abundance of FPM mimics to their Batesian counterparts. Tests of the early-emergence/model first hypothesis showed strong evidence that the Batesian mimic routinely emerges after the model, while emergence timing in the FPM system was site specific, suggesting that other ecological factors are at play. These results demonstrate the importance of long-term field observations for testing evolutionary and ecological hypotheses.

Published

2015

34. Limenitis camilla

Author

Bonelli, Simona, Barbero, Francesca, Casacci, Luca Pietro, Cerrato, Cristiana, and Balletto, Emilio

Subjects

Lepidoptera, Insecta, Arthropoda, Limenitis, Limenitis camilla, Animalia, Nymphalidae, Biodiversity, Taxonomy

Abstract

Limenitis camilla (Linnaeus, 1764) Papilio camilla Linnaeus, 1764: 304. FIRST RECORD FOR THE VALDIERI AREA. — Cassulo L. 2001 pers. coll. (Andonno, 900 m). CHOROTYPE. — European; NE China and Amur to Japan (disjunct). ECOLOGY. — Nemoral, lowland-lower montane, mesophilous, mesophilous. EDIT PROJECT SAMPLING. — Not found., Published as part of Bonelli, Simona, Barbero, Francesca, Casacci, Luca Pietro, Cerrato, Cristiana & Balletto, Emilio, 2015, The butterfly fauna of the Italian Maritime Alps: results of the EDIT project, pp. 139-167 in Zoosystema 37 (1) on page 158, DOI: 10.5252/z2015n1a6, http://zenodo.org/record/5154896, {"references":["LINNAEUS C. 1764. - Museum S: ae R: ae M: tis Ludovicae Ulricae Reginar Svecorum. Laur. Salvii: [i-vi], 1 - 713 [+ index]."]}

Published

2015

35. Wing pattern evolution and the origins of mimicry among North American admiral butterflies (Nymphalidae: Limenitis)

Author

Sean P. Mullen

Subjects

Species complex, Neptis, Base Sequence, Behavior, Animal, biology, Ecology, Lineage (evolution), Limenitis arthemis, biology.organism_classification, Biological Evolution, Nymphalidae, Poplar admiral, Limenitis, Evolutionary biology, Genetics, Animals, Wings, Animal, Butterflies, Molecular Biology, Ecology, Evolution, Behavior and Systematics, DNA Primers, Limenitidinae

Abstract

The evolution of wing pattern diversity in butterflies has emerged as a model system for understanding the origins and maintenance of adaptive phenotypic novelty. Admiral butterflies (genus Limenitis) are an attractive system for studying wing pattern diversity because mimicry is common among the North American species and hybrid zones occur wherever mimetic and non-mimetic wing pattern races meet. However, the utility of this system has been limited because the evolutionary relationships among these butterflies remain unclear. Here I present a robust species-level phylogeny of Limenitis based on 1911 bp of two mitochondrial genes (COI and COII) and 904 bp of EF1-alpha for all five of the Nearctic species/wing pattern races, the majority of the Palearctic species, and three outgroup genera; Athyma, Moduza (Limenitidini), and Neptis (Limenitidinae: Neptini). Maximum-likelihood and Bayesian analyses indicate that the North American species are a well-supported, monophyletic lineage that is most closely related to the widespread, Palearctic, Poplar admiral (L. populi). Within North America, the Viceroy (L. archippus) is the basal lineage while the relationships among the remaining species are not well resolved. A combined maximum-likelihood analysis, however, indicates that the two western North America species (L. lorquini and L. weidemeyerii) are sister taxa and closely related to the wing pattern subspecies of the polytypic Limenitis arthemis species complex. These results are consistent with (1) an ancestral host-shift to Salicaceae by the common ancestor of the Poplar admiral and the Nearctic admiral lineage, (2) a single colonization of the Nearctic, and (3) a subsequent radiation of the North American forms leading to at least three independent origins of mimicry.

Published

2006

36. Rapid diversification associated with ecological specialization in Neotropical Adelpha butterflies

Author

Sean P. Mullen, Emily R. Ebel, Adriana D. Briscoe, Ryan I. Hill, Michael D. Sorenson, Keith R. Willmott, and Jeffrey M. DaCosta

Subjects

0106 biological sciences, Genetic Speciation, Subspecies, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Phylogenetics, Genus, Genetics, Animals, Wings, Animal, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, Ecological niche, 0303 health sciences, Phylogenetic tree, biology, Models, Genetic, Ecology, Pigmentation, Bayes Theorem, Adelpha, Sequence Analysis, DNA, biology.organism_classification, Limenitis, Phenotype, Mimicry, Butterflies

Abstract

Rapid diversification is often associated with morphological or ecological adaptations that allow organisms to radiate into novel niches. Neotropical Adelpha butterflies, which comprise over 200 species and subspecies, are characterized by extraordinary breadth in host plant use and wing colour patterns compared to their closest relatives. To examine the relationship between phenotypic and species diversification, we reconstructed the phylogenetic history of Adelpha and its temperate sister genus Limenitis using genomewide restriction-site-associated DNA (RAD) sequencing. Despite a declining fraction of shared markers with increasing evolutionary distance, the RAD-Seq data consistently generated well-supported trees using a variety of phylogenetic methods. These well-resolved phylogenies allow the identification of an ecologically important relationship with a toxic host plant family, as well as the confirmation of widespread, convergent wing pattern mimicry throughout the genus. Taken together, our results support the hypothesis that evolutionary innovations in both larvae and adults have permitted the colonization of novel host plants and fuelled adaptive diversification within this large butterfly radiation.

Published

2014

37. The Western Viceroy butterfly (Nymphalidae: Limenitis archippus obsoleta): an indicator for riparian restoration in the arid southwestern United States?

Author

S. Mark Nelson

Subjects

geography.geographical_feature_category, Ecology, Obligate, biology, General Decision Sciences, biology.organism_classification, Arid, Nymphalidae, Spatial heterogeneity, Limenitis, Geography, Butterfly, Ecosystem, Ecology, Evolution, Behavior and Systematics, Riparian zone

Abstract

Life history characteristics of the Western Viceroy (Limenitis archippus obsoleta), an obligate riparian nymphalid butterfly in the desert southwestern United States, are described and related to Colorado River riparian restoration efforts. Riverine disturbance regimes and associated fluvial and hydrological dynamics may provide resources critical to this butterfly. Puddling by adult butterflies may require flood-cleared surfaces and an obligate riparian plant, Gooddings willow, was a larval host plant. This butterfly needs a variety of resources that are only found in close proximity in naturally functioning riparian ecosystems. Habitat heterogeneity required for colony persistence depends largely upon the natural dynamic character of flowing water systems. Because of the links between this butterfly and riparian structure and function it may be a useful indicator for monitoring riparian ecosystem restoration in the area.

Published

2003

38. A record of Limenitis rileyi Tytler, 1940 (Lepidoptera, Nymphalidae, Limenitidinae) from Arunachal Pradesh, India

Author

Purnendu Roy

Subjects

Lepidoptera genitalia, Limenitis, Geography, biology, Zoology, Animal Science and Zoology, Management, Monitoring, Policy and Law, biology.organism_classification, Nymphalidae, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Limenitidinae

Abstract

Limenitis rileyi is recorded for the first time in India from Upper Dibang Valley District, Arunachal Pradesh.

Published

2017

39. Opsin clines in butterflies suggest novel roles for insect photopigments

Author

Gary D. Bernard, Adriana D. Briscoe, Francesca D. Frentiu, Sean P. Mullen, Furong Yuan, and Wesley K. Savage

Subjects

vision, Opsin, genetic structures, Limenitis, spectral tuning, Single-nucleotide polymorphism, Biology, Balancing selection, Polymorphism, Single Nucleotide, Genetic, thermal adaptation, Genetics, Animals, Photopigment, Polymorphism, Selection, Genetic, Selection, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Evolutionary Biology, Natural selection, Rod Opsins, natural selection, Single Nucleotide, Cline (biology), biology.organism_classification, eye diseases, rhodopsin, Insect Proteins, Drosophila, Biochemistry and Cell Biology, sense organs, Butterflies

Abstract

© The Author 2014. Published by Oxford University Press on behalf of the society for Molecular Biology and Evolution.. Opsins are ancient molecules that enable animal vision by coupling to a vitamin-derived chromophore to form light-sensitive photopigments. The primary drivers of evolutionary diversification in opsins are thought to be visual tasks related to spectral sensitivity and color vision. Typically, only a few opsin amino acid sites affect photopigment spectral sensitivity. We show that opsin genes of the North American butterfly Limenitis arthemis have diversified along a latitudinal cline, consistent with natural selection due to environmental factors. We sequenced single nucleotide (SNP) polymorphisms in the coding regions of the ultraviolet (UVRh), blue (BRh), and long-wavelength (LWRh) opsin genes from ten butterfly populations along the eastern United States and found that a majority of opsin SNPs showed significant clinal variation. Outlier detection and analysis of molecular variance indicated that many SNPs are under balancing selection and show significant population structure. This contrasts with what we found by analysing SNPs in the wingless and EF-1 alpha loci, and from neutral amplified fragment length polymorphisms, which show no evidence of significant locus-specific or genome-wide structure among populations. Using a combination of functional genetic and physiological approaches, including expression in cell culture, transgenic Drosophila, UV-visible spectroscopy, and optophysiology, we show that key BRh opsin SNPs that vary clinally have almost no effect on spectral sensitivity. Our results suggest that opsin diversification in this butterfly is more consistent with natural selection unrelated to spectral tuning. Some of the clinally varying SNPs may instead play a role in regulating opsin gene expression levels or the thermostability of the opsin protein. Lastly, we discuss the possibility that insect opsins might have important, yet-to-be elucidated, adaptive functions in mediating animal responses to abiotic factors, such as temperature or photoperiod.

Published

2014

40. Sperm Precedence and Competition in Doubly-Mated Limenitis arthemis-astyanax Butterflies (Rhopalocera: Nymphalidae)

Author

J. F. Allen and A. P. Platt

Subjects

biology, Sire, Zoology, Limenitis arthemis, biology.organism_classification, Nymphalidae, Limenitis, Insect Science, Spermatophore, Botany, behavior and behavior mechanisms, Mating, Sperm precedence, Sperm competition, reproductive and urinary physiology

Abstract

Reciprocal double mating experiments were done between the northern banded (disruptively colored) form [Limenitis arthemis arthemis (Drury)] and the southern unbanded mimetic form [L. arthemis astyanax (F.)] of the banded purple butterfly. The results showed that following a second mating (and the successful transfer of a second spermatophore into the bursa copulatrix of each female), the first male continued to sire the subsequent progeny in five of 17 (29%) cases. The sequential double matings of these 17 different females with 34 different males resulted in full, partial, and unbanded wing phenotypes which were used as paternal genetic markers in this intergrading complex of butterflies. The containment of the spermatozoa within separate spermatophores at the time of mating normally resulted in only one effective sire. Among three broods (all one of four cross types) some sperm mixing may have occurred following the second matings, as evidenced by the occurrence of a few unbanded insects among...

Published

2001

41. Mimicry-related Predation on Two Viceroy Butterfly (Limenitis archippus) Phenotypes

Author

David B. Ritland

Subjects

Limenitis, Danaus, animal structures, biology, Ecology, Foraging, Butterfly, Mimicry, Subspecies, biology.organism_classification, Phenotype, Ecology, Evolution, Behavior and Systematics, Predation

Abstract

In the eastern United States, the mimetic viceroy butterfly (Limenitis archippus) exhibits clinal variation in wing color, ranging from a tawny orange phenotype (L. a. archippus) in the N to a dark mahogany phenotype (L. a. floridensis) in Florida. Geographic distributions of these two subspecies are roughly coincident with the ranges of the viceroy's two eastern mimicry models: the monarch (Danaus plexippus) in the N, and the queen (D. gilippus) in the S. This coincidence has historically been attributed to “model-switching”: presumably, southern viceroys have switched from mimicking the monarch to mimicking the locally predominant queen, due to selective pressure exerted by visually foraging predators. As an initial test of this hypothesis, I sought evidence of selective predation on light and dark viceroys by captive red-winged blackbirds previously exposed to either monarchs or queens. Results were consistent with the model-switching hypothesis: queen-conditioned birds preferentially avoided ...

Published

1998

42. Comparative unpalatability of mimetic viceroy butterflies (Limenitis archippus) from four south-eastern United States populations

Author

David B. Ritland

Subjects

Limenitis, South carolina, Lepidoptera genitalia, biology, Ecology, Mimicry, Chemical defense, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Müllerian mimicry, Batesian mimicry, Predation

Abstract

Viceroy butterflies (Limenitis archippus), long considered palatable mimics of distasteful danaine butterflies, have been shown in studies involving laboratoryreared specimens to be moderately unpalatable to avian predators. This implies that some viceroys are Müllerian co-mimics, rather than defenseless Batesian mimics, of danaines. Here, I further test this hypothesis by assessing the palatability of wild-caught viceroys from four genetically and ecologically diverse populations in the southeastern United States. Bioassays revealed that viceroys sampled from three sites in Florida and one in South Carolina were all moderately unpalatable to captive redwinged blackbird predators, which ate fewer than half of the viceroy abdomens presented. Red-wings commonly exhibited long manipulation times and considerable distress behavior when attempting to eat a viceroy abdomen, and they taste-rejected over one-third of viceroys after a single peck. These findings, the first based on wild-caught butterflies, support the hypothesis that the viceroy-danaine relationship in some areas represents Müllerian mimicry, prompting a reassessment of selective forces shaping the interaction. Moreover, considerable variation in palatability of individual viceroys, and in behavior of individual birds, contributes to the complexity of chemical defense and mimicry in this system.

Published

1995

43. Variation in Palatability of Queen Butterflies (Danaus Gilippus) and Implications Regarding Mimicry

Author

David B. Ritland

Subjects

Ecology, Biology, biology.organism_classification, Nymphalidae, Batesian mimicry, Müllerian mimicry, Limenitis, chemistry.chemical_compound, Danaus, chemistry, Cardenolide, Mimicry, Ecology, Evolution, Behavior and Systematics, Asclepias

Abstract

This study documents the existence of a food plant related palatability spectrum in Florida queen butterflies (Danaus gilippus). Abdomens of butterflies reared on four asclepiad food plants differed significantly in cardenolide content and palatability to a generalist avian predator (Red—winged Blackbird). However, unpalatability did not directly parallel food plant or butterfly cardenolide content. Queens reared on Sarcostemma clausum were cardenolide free and essentially palatable (85% eaten). Butterflies reared on Asclepias tuberosa and A. incarnata were also virtually cardenolide free, but were weakly and moderately unpalatable, respectively (62 and 46% eaten). Queens reared on the high cardenolide Asclepias curassavica contained 101—753 mg cardenolide and were very unpalatable (8% eaten). This results suggest that in addition to cardenolides, other asclepiad phytochemicals are directly or indirectly utilized by queens as components of their systemic chemical defense. The demonstrated variation in queen palatability is predicted to affect the aversive conditioning of predators and thus the outcome of queen—predator encounters. Queen populations feeding on more than one asclepiad species must exhibit automimicry, with attack rates on individual butterflies dependent upon both the proportion of palatable automimics and the noxiousness of unpalatable automodels in the population. The verification of a queen palatability spectrum also contributes to understanding the dynamics of mimicry between queens and viceroy butterflies (Limenitis archippus). This study predicts that, as a consequence of regional differences in asclepiad floras, the viceroy queen mimicry relationship in Florida switches between the Batesian and Mullerian mimicry modes. In the extreme, queens feeding on certain food plants may be Batesian mimics of sympatric, moderately unpalatable viceroys, reversing the traditionally cited mimicry roles of these butterflies.

Published

1994

44. Additional Adaptations Against Predation

Author

Richard H. Yahner

Subjects

Limenitis, Danaus, Asclepias syriaca, biology, Mimicry, Zoology, Aposematism, biology.organism_classification, Predator, Batesian mimicry, Predation

Abstract

As butterflies, monarchs (Danaus plexippus) (Fig. 7.1) do not fight predators or act passively if an attack by a predator is imminent; instead, the monarch uses warning coloration and chemical defenses against predation. As adults, monarchs are brightly colored in orange, black, and white; they, therefore, stand out in the environment to a predator, much like the pattern of a poisonous coral snake (Micrurus fulvius) (Zug et al. 2001). What does the coloration of a monarch signal to a potential predator? That is unpalatable, so stay away. Monarch becomes unpalatable because of toxins that larvae feed upon in milkweed (Asclepias syriaca). These toxins are cardio glycosides, which elicits vomiting in birds that may feed upon them. Only two bird species, the black-headed oriole (Icterus abeillei) and the black-headed grosbeak (Pheucticus melanocephalus) are known to feed on monarch with no ill effect. In fact, the viceroy butterfly (Limenitis archippus) mimics the coloration of the monarch to offset predation on it, which is a form of mimicry known as Batesian.

Published

2011

45. The Colorful Visual World of Butterflies

Author

Francesca D. Frentiu

Subjects

Opsin, genetic structures, biology, Ecology, Color vision, Lycaena, Positive selection, Papilio, biology.organism_classification, eye diseases, Limenitis, Pieris (butterfly), Evolutionary biology, Butterfly, sense organs

Abstract

Butterflies have long inspired evolutionary biologists with the striking diversity of their wing colors. A more recent surprising finding has been the remarkable diversity of their color vision systems. Butterfly photoreceptors, unlike those of bees and moths, have diversified extensively through processes such as opsin gene duplications, positive selection on single opsin loci, and heterogeneous expression of filtering pigments. Further, lineage-specific opsin duplications and expression of filtering pigments have facilitated the evolution of sexually dimorphic butterfly eyes. Although the molecular basis of visual system diversification is relatively well understood, its ecological and evolutionary significance remains to be elucidated.

Published

2010

46. Molecular studies on the ouabain binding site of the Na+, K+-ATPase in milkweed butterflies

Author

Dietrich Mebs, Michael Schneider, and Richard Zehner

Subjects

animal structures, biology, Daphnis nerii, Parantica, biology.organism_classification, Biochemistry, Nymphalidae, Euploea, Limenitis, Danaus, chemistry.chemical_compound, chemistry, Monarch butterfly, Cardenolide, Ecology, Evolution, Behavior and Systematics

Abstract

The Na+, K+-ATPase of the Monarch butterfly (Danaus plexippus) is insensitive to the inhibition by cardiac glycosides due to an amino acid replacement: histidine instead of asparagine at position 122 of the α-subunit representing the ouabain binding site. By PCR amplification of the DNA sequence of this site, a PCR product of 270 bp was obtained from DNA extracted from Danainae species (Danaus plexippus, D. chrysippus, D. gillipus, D. philene, D. genutia, Tirumala hamata, Euploea spp., Parantica weiskei, P. melusine), Sphingidae (Daphnis nerii) and mimics of milkweed butterflies (Hypolimnas missipus, Limenitis archippus and L. arthemis, Nymphalidae). Analysis of the nucleotide sequences revealed that the single point mutation in the ouabain binding domain (AAC-Asn for CAC-His) was present only in Danaus plexippus, but not in the other species investigated. Since these milkweed butterflies also store cardenolides, other structural modifications of the Na+, K+-ATPase may have occurred or other strategies of cardenolide tolerance have been developed.

Published

2000

47. Hybrid zone origins, species boundaries, and the evolution of wing-pattern diversity in a polytypic species complex of North American admiral butterflies (Nymphalidae: Limenitis)

Author

Erik B. Dopman, Richard J. Harrison, and Sean P. Mullen

Subjects

Species complex, Nuclear gene, Molecular Sequence Data, Biology, Limenitis arthemis, Nymphalidae, DNA, Mitochondrial, Gene flow, Coalescent theory, Hybrid zone, Species Specificity, Genetics, Animals, Cluster Analysis, Wings, Animal, Ecology, Evolution, Behavior and Systematics, Phylogeny, DNA Primers, Demography, Base Sequence, Pigmentation, Sequence Analysis, DNA, biology.organism_classification, Biological Evolution, Limenitis, Evolutionary biology, North America, Hybridization, Genetic, General Agricultural and Biological Sciences, Butterflies

Abstract

Hybrid zones present opportunities to study the effects of gene flow, selection, and recombination in natural populations and, thus, provide insights into the genetic and phenotypic changes that occur early in speciation. Here we investigate a hybrid zone between mimetic (Limenitis arthemis astyanax) and nonmimetic (Limenitis arthemis arthemis) populations of admiral butterflies using DNA sequence variation from mtDNA and seven nuclear gene loci. We find three distinct mitochondrial clades within this complex, and observe a strong overall concordance between wing-pattern phenotypes and mitochondrial variation. Nuclear gene genealogies, in contrast, revealed no evidence of exclusivity for either wing-pattern phenotype, suggesting incomplete barriers to gene exchange and/or insufficient time for lineage sorting. Coalescent simulations indicate that gene flow between these two subspecies is highly asymmetric, with the majority of migration occurring from mimetic into nonmimetic populations. Selective sweeps of alleles responsible for mimetic phenotypes may have occurred more than once when mimetic and nonmimetic Limenitis occurred together in the presence of the model (Battus philenor).

Published

2008

48. Once a Batesian mimic, not always a Batesian mimic: mimic reverts back to ancestral phenotype when the model is absent

Author

Jeffrey C. Oliver and Kathleen L. Prudic

Subjects

Character evolution, Genetic Speciation, Zoology, Biology, Limenitis arthemis, Nymphalidae, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Predation, Animals, Wings, Animal, Phylogeny, General Environmental Science, Demography, General Immunology and Microbiology, General Medicine, Plants, biology.organism_classification, Biological Evolution, Batesian mimicry, Limenitis, Predatory Behavior, Mimicry, General Agricultural and Biological Sciences, Butterflies, Research Article

Abstract

Batesian mimics gain protection from predation through the evolution of physical similarities to a model species that possesses anti-predator defences. This protection should not be effective in the absence of the model since the predator does not identify the mimic as potentially dangerous and both the model and the mimic are highly conspicuous. Thus, Batesian mimics should probably encounter strong predation pressure outside the geographical range of the model species. There are several documented examples of Batesian mimics occurring in locations without their models, but the evolutionary responses remain largely unidentified. A mimetic species has four alternative evolutionary responses to the loss of model presence. If predation is weak, it could maintain its mimetic signal. If predation is intense, it is widely presumed the mimic will go extinct. However, the mimic could also evolve a new colour pattern to mimic another model species or it could revert back to its ancestral, less conspicuous phenotype. We used molecular phylogenetic approaches to reconstruct and test the evolution of mimicry in the North American admiral butterflies (Limenitis: Nymphalidae). We confirmed that the more cryptic white-banded form is the ancestral phenotype of North American admiral butterflies. However, one species,Limenitis arthemis, evolved the black pipevine swallowtail mimetic form but later reverted to the white-banded more cryptic ancestral form. This character reversion is strongly correlated with the geographical absence of the model species and its host plant, but not the host plant distribution ofL. arthemis. Our results support the prediction that a Batesian mimic does not persist in locations without its model, but it does not go extinct either. The mimic can revert back to its ancestral, less conspicuous form and persist.

Published

2008

49. Literary antecedents

Author

Arnold Van Gemert

Subjects

Literature, biology, business.industry, Rhyme, media_common.quotation_subject, Art, Humanism, biology.organism_classification, Romance, Limenitis, Greek language, Literary science, Renaissance literature, Oral tradition, business, Classics, media_common

Published

1991

50. Unpalatability of viceroy butterflies (Limenitis archippus) and their purported mimicry models, Florida queens (Danaus gilippus)

Author

David B. Ritland

Subjects

Limenitis, Danaus, biology, Ecology, Butterfly, Mimicry, Zoology, Queen (butterfly), biology.organism_classification, Nymphalidae, Ecology, Evolution, Behavior and Systematics, Müllerian mimicry, Batesian mimicry

Abstract

Understanding the dynamics of defensive mimicry requires accurately characterizing the comparative palatability of putative models and mimics. The Florida viceroy butterfly (Limenitis archippus floridensis) is traditionally considered a palatable Batesian mimic of the purportedly distasteful Florida queen (Danaus gilippus berenice). I re-evaluated this established hypothesis by directly assessing palatability of viceroys and queens to red-winged blackbirds in a laboratory experiment. Representative Florida viceroys were surprisingly unpalatable to red-wings; only 40% of viceroy abdomens were entirely eaten (compared to 98% of control butterfly abdomens), and nearly one-third were immediately tasterejected after a single peck. In fact, the viceroys were significantly more unpalatable than representative Florida queens, of which 65% were eaten and 14% taste-rejected. Thus, viceroys and queens from the sampled populations exemplify Mullerian rather than Batesian mimicry, and the viceroy appears to be the stronger model. These findings prompt a reassessment of the ecological and evolutionary dynamics of this classic mimicry relationship.

Published

1991