scholarly journals tartan underlies the evolution of male Drosophila genital morphology

2018 ◽  
Author(s):  
Joanna F. D. Hagen ◽  
Cláudia C. Mendes ◽  
Amber Blogg ◽  
Alex Payne ◽  
Kentaro M. Tanaka ◽  
...  
Keyword(s):  
Sexual Selection ◽  
Rapid Evolution ◽  
Organ Size ◽  
Phenotypic Change ◽  
Genital Organ ◽  
Phenotypic Differences ◽  
Bristle Number ◽  
Evolutionary Changes ◽  
Drosophila Mauritiana ◽  
Male Genital

AbstractMale genital structures are among the most rapidly evolving morphological traits and are often the only features that can distinguish closely related species. This process is thought to be driven by sexual selection and may reinforce species separation. However, while the genetic basis of many phenotypic differences have been identified, we still lack knowledge about the genes underlying evolutionary differences in male genital organs and organ size more generally. The claspers (surstyli) are periphallic structures that play an important role in copulation in insects. Here we show that natural variation in clasper size and bristle number between Drosophila mauritiana and D. simulans is caused by evolutionary changes in tartan (trn), which encodes a transmembrane leucine-rich repeat domain protein that mediates cell-cell interactions and affinity differences. There are no fixed amino acid differences in trn between D. mauritiana and D. simulans but differences in the expression of this gene in developing genitalia suggest cis-regulatory changes in trn underlie the evolution of clasper morphology in these species. Finally, analysis of reciprocal hemizyotes that are genetically identical, except for which species the functional allele of trn is from, determined that the trn allele of D. mauritiana specifies larger claspers with more bristles than the allele of D. simulans. Therefore we have identified the first gene underlying evolutionary change in the size of a male genital organ, which will help to better understand the rapid diversification of these structures and the regulation and evolution of organ size more broadly.Significance StatementThe morphology of male genital organs evolves rapidly driven by sexual selection. However, little is known about the genes underlying genitalia differences between species. Identifying these genes is key to understanding how sexual selection acts on development to produce rapid phenotypic change. We have found that the gene tartan underlies differences between male Drosophila mauritiana and D. simulans in the size and bristle number of the claspers - genital projections that grasp the female during copulation. Moreover, since tartan encodes a protein that is involved in cell affinity, this may represent a new developmental mechanism for morphological change. Therefore, our study provides new insights into genetic and developmental bases for the rapid evolution of male genitalia and organ size more generally.

scholarly journals tartan underlies the evolution of Drosophila male genital morphology

2019 ◽  
Vol 116 (38) ◽  
pp. 19025-19030 ◽  
Author(s):  
Joanna F. D. Hagen ◽  
Cláudia C. Mendes ◽  
Amber Blogg ◽  
Alexander Payne ◽  
Kentaro M. Tanaka ◽  
...  
Keyword(s):  
Organ Size ◽  
Genital Organ ◽  
Closely Related Species ◽  
Phenotypic Differences ◽  
Regulatory Changes ◽  
Bristle Number ◽  
Evolutionary Changes ◽  
Repeat Domain ◽  
Rapid Diversification ◽  
Male Genital

Male genital structures are among the most rapidly evolving morphological traits and are often the only features that can distinguish closely related species. This process is thought to be driven by sexual selection and may reinforce species separation. However, while the genetic bases of many phenotypic differences have been identified, we still lack knowledge about the genes underlying evolutionary differences in male genital organs and organ size more generally. The claspers (surstyli) are periphallic structures that play an important role in copulation in insects. Here, we show that divergence in clasper size and bristle number between Drosophila mauritiana and Drosophila simulans is caused by evolutionary changes in tartan (trn), which encodes a transmembrane leucine-rich repeat domain protein that mediates cell–cell interactions and affinity. There are no fixed amino acid differences in trn between D. mauritiana and D. simulans, but differences in the expression of this gene in developing genitalia suggest that cis-regulatory changes in trn underlie the evolution of clasper morphology in these species. Finally, analyses of reciprocal hemizygotes that are genetically identical, except for the species from which the functional allele of trn originates, determined that the trn allele of D. mauritiana specifies larger claspers with more bristles than the allele of D. simulans. Therefore, we have identified a gene underlying evolutionary change in the size of a male genital organ, which will help to better understand not only the rapid diversification of these structures, but also the regulation and evolution of organ size more broadly.

scholarly journals Females prefer to associate with males with longer intromittent organs in mosquitofish

2009 ◽  
Vol 6 (1) ◽  
pp. 55-58 ◽  
Author(s):  
Andrew T. Kahn ◽  
Brian Mautz ◽  
Michael D. Jennions
Keyword(s):  
Sexual Selection ◽  
Rapid Evolution ◽  
Visual Signals ◽  
Slight Reduction ◽  
Gambusia Holbrooki ◽  
Genital Morphology ◽  
Eastern Mosquitofish ◽  
Association Time ◽  
Male Genital Morphology ◽  
Male Genital

Sexual selection is a major force behind the rapid evolution of male genital morphology among species. Most within-species studies have focused on sexual selection on male genital traits owing to events during or after copulation that increase a male's share of paternity. Very little attention has been given to whether genitalia are visual signals that cause males to vary in their attractiveness to females and are therefore under pre-copulatory sexual selection. Here we show that, on average, female eastern mosquitofish Gambusia holbrooki spent more time in association with males who received only a slight reduction in the length of the intromittent organ (‘gonopodium’) than males that received a greater reduction. This preference was, however, only expressed when females chose between two large males; for small males, there was no effect of genital size on female association time.

scholarly journals Global urban signatures of phenotypic change in animal and plant populations

2017 ◽  
Vol 114 (34) ◽  
pp. 8951-8956 ◽  
Author(s):  
Marina Alberti ◽  
Cristian Correa ◽  
John M. Marzluff ◽  
Andrew P. Hendry ◽  
Eric P. Palkovacs ◽  
...  
Keyword(s):  
Urban Development ◽  
Biotic Interactions ◽  
Well Being ◽  
Ecosystem Functions ◽  
Phenotypic Change ◽  
Functional Roles ◽  
Phenotypic Changes ◽  
Evolutionary Changes ◽  
Multiple Regions ◽  
Anthropogenic Systems

Humans challenge the phenotypic, genetic, and cultural makeup of species by affecting the fitness landscapes on which they evolve. Recent studies show that cities might play a major role in contemporary evolution by accelerating phenotypic changes in wildlife, including animals, plants, fungi, and other organisms. Many studies of ecoevolutionary change have focused on anthropogenic drivers, but none of these studies has specifically examined the role that urbanization plays in ecoevolution or explicitly examined its mechanisms. This paper presents evidence on the mechanisms linking urban development patterns to rapid evolutionary changes for species that play important functional roles in communities and ecosystems. Through a metaanalysis of experimental and observational studies reporting more than 1,600 phenotypic changes in species across multiple regions, we ask whether we can discriminate an urban signature of phenotypic change beyond the established natural baselines and other anthropogenic signals. We then assess the relative impact of five types of urban disturbances including habitat modifications, biotic interactions, habitat heterogeneity, novel disturbances, and social interactions. Our study shows a clear urban signal; rates of phenotypic change are greater in urbanizing systems compared with natural and nonurban anthropogenic systems. By explicitly linking urban development to traits that affect ecosystem function, we can map potential ecoevolutionary implications of emerging patterns of urban agglomerations and uncover insights for maintaining key ecosystem functions upon which the sustainability of human well-being depends.

scholarly journals Sperm removal during copulation confirmed in the oldest extant damselfly,Hemiphlebia mirabilis

PeerJ ◽  
2016 ◽  
Vol 4 ◽  
pp. e2077 ◽  
Author(s):  
Adolfo Cordero-Rivera
Keyword(s):  
Sexual Selection ◽  
Sperm Competition ◽  
Short Range ◽  
Body Position ◽  
Reproductive Behaviour ◽  
Scramble Competition ◽  
Stage I ◽  
Female Genitalia ◽  
Second Stage ◽  
Male Genital

Postcopulatory sexual selection may favour mechanisms to reduce sperm competition, like physical sperm removal by males. To investigate the origin of sperm removal, I studied the reproductive behaviour and mechanisms of sperm competition in the only living member of the oldest damselfly family,Hemiphlebia mirabilis, one species that was considered extinct in the 1980s. This species displays scramble competition behaviour. Males search for females with short flights and both sexes exhibit a conspicuous “abdominal flicking”. This behaviour is used by males during an elaborate precopulatory courtship, unique among Odonata. Females use a similar display to reject male attempts to form tandem, but eventually signal receptivity by a particular body position. Males immobilise females during courtship using their legs, which, contrarily to other damselflies, never autotomise. Copulation is short (range 4.1–18.7 min), and occurs in two sequential stages. In the first stage, males remove part of the stored sperm, and inseminate during the second stage, at the end of mating. The male genital ligula matches the size and form of female genitalia, and ends by two horns covered by back-oriented spines. The volume of sperm in females before copulation was 2.7 times larger than the volume stored in females whose copulation was interrupted at the end of stage I, indicative of a significant sperm removal. These results point out that sperm removal is an old character in the evolution of odonates, possibly dating back to the Permian.

Testosterone concentrations and male genital organ morphology in Greenland sledge dogs (Canis familiaris) dietary exposed to organohalogen contaminants

2010 ◽  
Vol 92 (5) ◽  
pp. 955-967 ◽  
Author(s):  
Maja Kirkegaard ◽  
Christian Sonne ◽  
Rune Dietz ◽  
Bjørn Munro Jenssen ◽  
Pall S. Leifsson ◽  
...  
Keyword(s):  
Canis Familiaris ◽  
Genital Organ ◽  
Male Genital Organ ◽  
Male Genital

scholarly journals Losses of female song with changes from tropical to temperate breeding in the New World blackbirds

2009 ◽  
Vol 276 (1664) ◽  
pp. 1971-1980 ◽  
Author(s):  
J. Jordan Price ◽  
Scott M. Lanyon ◽  
Kevin E. Omland
Keyword(s):  
Sexual Selection ◽  
New World ◽  
Female Song ◽  
Complex Song ◽  
Evolutionary Changes ◽  
Apparent Relationship ◽  
Song Production ◽  
Selection For ◽  
The Tropics

Birds in which both sexes produce complex songs are thought to be more common in the tropics than in temperate areas, where typically only males sing. Yet the role of phylogeny in this apparent relationship between female song and latitude has never been examined. Here, we reconstruct evolutionary changes in female song and breeding latitude in the New World blackbirds (Icteridae), a family with both temperate and tropical representatives. We provide strong evidence that members of this group have moved repeatedly from tropical to temperate breeding ranges and, furthermore, that these range shifts were associated with losses of female song more often than expected by chance. This historical perspective suggests that male-biased song production in many temperate species is the result not of sexual selection for complex song in males but of selection against such songs in females. Our results provide new insights into the differences we see today between tropical and temperate songbirds, and suggest that the role of sexual selection in the evolution of bird song might not be as simple as we think.

scholarly journals Inter-species comparison of the orientation algorithm directing larval chemotaxis in the genus Drosophila

2021 ◽  
Author(s):  
Elie Fink ◽  
Matthieu Louis
Keyword(s):  
Neural Circuits ◽  
Rapid Evolution ◽  
Structure And Function ◽  
Olfactory Behavior ◽  
Species Comparison ◽  
Closely Related Species ◽  
Genetic Studies ◽  
Phenotypic Differences ◽  
Peripheral Olfactory System ◽  
And Function

Animals differ in their appearances and behaviors. While many genetic studies have addressed the origins of phenotypic differences between fly species, we are still lacking a quantitative assessment of the variability in the way different fly species behave. We tackled this question in one of the most robust behaviors displayed by Drosophila: chemotaxis. At the larval stage, Drosophila melanogaster navigate odor gradients by combining four sensorimotor routines in a multilayered algorithm: a modulation of the overall locomotor speed and turn rate; a bias in turning during down-gradient motion; a bias in turning toward the gradient; the local curl of trajectories toward the gradient ("weathervaning"). Using high-resolution tracking and behavioral quantification, we characterized the olfactory behavior of eight closely related species of the Drosophila group in response to 19 ecologically-relevant odors. Significant changes are observed in the receptive field of each species, which is consistent with the rapid evolution of the peripheral olfactory system. Our results reveal substantial inter-species variability in the algorithms directing larval chemotaxis. While the basic sensorimotor routines are shared, their parametric arrangements can vary dramatically across species. The present analysis sets the stage for deciphering the evolutionary relationships between the structure and function of neural circuits directing orientation behaviors in Drosophila.

Male terminalia morphology of sixteen species of the Drosophila saltans group Sturtevant (Diptera, Drosophilidae)

Zootaxa ◽  
2021 ◽  
Vol 5061 (3) ◽  
pp. 523-544
Author(s):  
BRUNA EMILIA ROMAN ◽  
LILIAN MADI-RAVAZZI
Keyword(s):  
Sexual Selection ◽  
Sibling Species ◽  
Potential Role ◽  
Rapid Evolution ◽  
Variable Structure ◽  
Diagnostic Feature ◽  
Internal Fertilization ◽  
Saltans Group

Male terminalia in insects with internal fertilization evolve more rapidly than other structures. The aedeagus is the most variable structure, making it a valuable diagnostic feature to distinguish species. The saltans group Sturtevant of Drosophila Fallén contains sibling species, that can be distinguished by their aedeagi. Here, we revised and illustrated the morphology of the male terminalia of the following species: Drosophila prosaltans Duda, 1927; D. saltans Sturtevant, 1916; D. lusaltans Magalhães, 1962; D. austrosaltans Spassky, 1957; D. septentriosaltans Magalhães, 1962; D. nigrosaltans Magalhães, 1962; D. pseudosaltans Magalhães, 1956; D. sturtevanti Duda, 1927; D. lehrmanae Madi-Ravazzi et al., 2021; D. dacunhai Mourão & Bicudo, 1967; D. milleri Magalhães, 1962; D. parasaltans Magalhães, 1956; D. emarginata Sturtevant, 1942; D. neoelliptica Pavan & Magalhães in Pavan, 1950; D. neosaltans Pavan & Magalhães in Pavan, 1950 and D. neocordata Magalhães, 1956. We found that phallic structures (e.g., the aedeagus) evolve more rapidly than periphallic structures (e.g., epandrium), being completely different among the subgroups and within them. This rapid evolution may be due to the action of sexual selection or to the potential role of those structures in speciation.  

Rapid evolution by sexual selection in a wild, invasive mammal

Evolution ◽  
2020 ◽  
Vol 74 (4) ◽  
pp. 740-748
Author(s):  
M. Aaron Owen ◽  
David C. Lahti
Keyword(s):  
Sexual Selection ◽  
Rapid Evolution

Interspecific hybridization between Drosophila species group melanogaster sibling species: isozymic patterns and reproductive relationships

Genome ◽  
1989 ◽  
Vol 32 (1) ◽  
pp. 146-154 ◽  
Author(s):  
G. N. Goulielmos ◽  
S. N. Alahiotis
Keyword(s):  
Drosophila Melanogaster ◽  
Sex Ratio ◽  
Interspecific Hybrids ◽  
Aldehyde Oxidase ◽  
Species Group ◽  
Fitness Components ◽  
Phosphogluconate Dehydrogenase ◽  
Evolutionary Changes ◽  
Fertile Hybrids ◽  
Male Genital

In spite of previous consensus that no F1 fertile hybrids (of both sexes) could be produced between any mating combination of Drosophila melanogaster, D. simulans, and D. mauritiana, the present data indicate that such hybrids were obtained. Thus, some crosses between D. mauritiana females and D. simulans or D. melanogaster males yield F1 fertile hybrids (of both sexes) which have been named Masi (or Masi-2 and Masi-3) and Mame, respectively. Electrophoretic studies, using the species-diagnostic genes for 6-phosphogluconate dehydrogenase, alcohol dehydrogenase, and aldehyde oxidase (6-Pgd, Adh, and Aldox, respectively), were used to investigate the hybrid status, taking into consideration (i) their reproductive relationships, (ii) the coexistence of electromorphs from different species in the same hybrid, within the same generation, and (iii) the expression of the above electromorphs in the hybrids as well as in progeny from backcrosses, where unexpected irregularities and abnormalities were observed. These interspecific hybrids have been kept in our laboratory (as stocks) for 50 generations, to date, and have also been tested for various characteristics that contributed to the verification of their hybrid status (mating abilities, enzyme activities, hybrid sex ratio, the morphology of male genital arches and other fitness components). The finding of major genetic phenomena (e.g., allozymic repression) in these hybrid genomes gives some idea of the nature of events that could be associated with strong evolutionary changes, thus controlling speciation processes.Key words: Drosophila, electrophoresis, electromorphs, interspecific hybrids.

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