Your search keyword '"Mating behavior"' showing total 27,034 results

1. Sublethal Effects of α-Cypermethrin on the Behavioral Asymmetries and Mating Success of Alphitobius diaperinus.

Author

Gidari, Demeter Lorentha S., Kavallieratos, Nickolas G., and Boukouvala, Maria C.

Subjects

*ANIMAL sexual behavior, *PEST control, *PYRETHROIDS, *WAREHOUSE management, *INSECTICIDES, *CYPERMETHRIN

Abstract

Simple Summary: This study investigated the behavioral asymmetries and mating success of Alphitobius diaperinus (Panzer) (Coleoptera: Tenebrionidae) under sublethal exposures to α-cypermethrin. Control males exhibited a right-side bias, which increased the likelihood of successful copulation, especially when head butts preceded mounting. A similar pattern was observed for LC10-exposed males, though their success rate slightly declined. In females, the right-side approach also enhanced copulation success. The direction of approach and mounting influenced the time required for key mating behaviors like mate detection and mounting. Males exposed to LC30 of α-cypermethrin needed a longer time for mate detection compared to control and LC10, especially when approaching from the back or front side. Females of the LC30 group were also influenced, with shorter copulation times when approaching from the right. These findings demonstrate that α-cypermethrin affects both mating success and the duration of related behaviors. Sublethal exposure to insecticides can adversely impact various biological and behavioral characteristics of insects. Although α-cypermethrin has been previously tested for its effects on control of Alphitobius diaperinus, there is no knowledge about the effect of this insecticide on its behavioral asymmetries and mating success. Μales at all exposures (control, LC10, and LC30), that first approached their mate, showed right-biased tendency (approached their mate from their right side) in mate recognition. Females, however, showed variation in this behavior between the three exposures. Right-biased tendency of males in all treatment scenarios led to a higher percentage of successful copulations compared to the three other directions. For males that first approached their mate, the insecticide did not affect their lateralization of the first approach but did affect their copulation success. The duration of copulation time was reduced after the exposure to the insecticide, with the longest duration noted in the control females (63.0 s) and the lowest in the α-cypermethrin LC30 females (46.9 s). Moreover, at the α-cypermethrin LC10 exposure, mate recognition time was reduced, as opposed to α-cypermethrin LC30 exposure where mate recognition time was increased. These results can be further utilized to uncover the behavioral impacts of insecticides, enhancing the effectiveness of pest management in warehouses and poultry production facilities. [ABSTRACT FROM AUTHOR]

Published

2024

2. A filmed copulation of Ctenoplectra (Ctenoplectrini, Apidae) bees suggests that males may chemically mark females.

Author

Renner, Susanne S., Zhang, Meng, Aguiar, Antonio J. C., and Huang, Shuang-Quan

Abstract

Recent fieldwork on tropical bees has revealed that males of Ctenoplectrini, Tapinotaspidini, and Tetrapediini collect floral oils, but it remains unknown for which purpose. Observations and chemical tests in Yunnan show that at least 31 species of Dendrobium and two of Galeola orchids have oil hairs on their petals attracting male Ctenoplectra cornuta who collect the secretion in the same way as do females, which however prefer cucurbit flowers. We observed territoriality and mating on flowers and present a filmed copulation sequence during which the male grasps the female’s scutellum with his mandibles and repeatedly brushes her metasomal fringes with his hind legs and her hind scopae with his mid legs. We hypothesize that male Ctenoplectra scent-mark females during mating, which would explain why the males collect floral oils. Mating behavior has so far been documented in but a few dozen solitary bees, and it is for this reason that we here make available the first filmed copulation of any Ctenoplectrini. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fiber quality and fertility in male alpacas in the Cusco region of Peru.

Author

Pacheco, Joel, Bengtsson, Fanny, Killander, Jakob, Franco, Francisco, Lundeheim, Nils, Varga, Csaba, Båge, Ren´ee, and Morrell, Jane M.

Subjects

ALPACA, FERTILITY, FIBERS, TESTOSTERONE, ANIMAL sexual behavior

Abstract

Introduction: High testosterone levels might be associated with coarser fiber in alpacas, a [ABSTRACT FROM AUTHOR]

Published

2024

4. Genomic Data Characterize Reproductive Ecology Patterns in Michigan Invasive Red Swamp Crayfish (Procambarus clarkii).

Author

Adams, Nicole E., Homola, Jared J., Sard, Nicholas M., Nathan, Lucas R., Roth, Brian M., Robinson, John D., and Scribner, Kim T.

Subjects

*BIOTIC communities, *PROCAMBARUS clarkii, *SINGLE nucleotide polymorphisms, *ANIMAL sexual behavior, *BIOLOGICAL fitness

Abstract

The establishment and spread of invasive species are directly related to intersexual interactions as dispersal and reproductive success are related to distribution, effective population size, and population growth. Accordingly, populations established by r‐selected species are particularly difficult to suppress or eradicate. One such species, the red swamp crayfish (Procambarus clarkii) is established globally at considerable ecological and financial costs to natural and human communities. Here, we develop a single nucleotide polymorphism (SNP) loci panel for P. clarkii using restriction‐associated DNA‐sequencing data. We use the SNP panel to successfully genotype 1800 individuals at 930 SNPs in southeastern Michigan, USA. Genotypic data were used to reconstruct pedigrees, which enabled the characterization of P. clarkii's mating system and statistical tests for associations among environmental, demographic, and phenotypic predictors and adult reproductive success estimates. We identified juvenile cohorts using genotype‐based pedigrees, body size, and sampling timing, which elucidated the breeding phenology of multiple introduced populations. We report a high prevalence of multiple paternity in each surveyed waterbody, indicating polyandry in this species. We highlight the use of newly developed rapid genomic assessment tools for monitoring population reproductive responses, effective population sizes, and dispersal during ongoing control efforts. [ABSTRACT FROM AUTHOR]

Published

2024

5. CRISPR/Cas9‐mediated knockout of a male accessory glands‐specific gene takeout1 decreases the fecundity of Zeugodacus cucurbitae female.

Author

Wang, Yun, Xu, Hui‐Qian, Han, Hong‐Liang, Chen, Dong, Jiang, Hongbo, Smagghe, Guy, Wang, Jin‐Jun, and Wei, Dong

Subjects

FRUIT flies, ANIMAL sexual behavior, TEPHRITIDAE, GENOME editing, FERTILITY, MESODERM

Abstract

BACKGROUND: The melon fly, Zeugodacus cucurbitae (Coquillett), is an invasive Tephritidae pest with robust fertility. The male accessory glands (MAGs) form a vital organ that ensures insect reproductive efficiency. Most of the secreted proteins by MAGs exhibit a male bias expression. Takeout, one of these proteins, is abundantly present in the MAGs of many insects. RESULTS: In this study, we identified 32 takeout genes in Z. cucurbitae. The phylogenetic analysis and multiple sequence alignment results showed that Zctakeout1 is the most related homolog to the MAGs‐specific takeout in Tephritidae. The real‐time quantitative PCR results showed that Zctakeout1 was exclusively expressed in the male adult stage, and its expression level gradually increased with the increase in age and then remained stable at the sexually matured stage. The distribution among tissues demonstrated the specific expression of Zctakeout1 in the MAGs, and fluorescence immunohistochemical results confirmed the presence of Zctakeout1 in close proximity to binuclear cells of the mesoderm epidermal MAGs. In continuation, CRISPR/Cas9‐mediated genome editing was employed, resulting in successfully generating a homozygous strain with an +8 bp insertion. The mating experiments with the Zctakeout1−/− males resulted in significant reductions in both the mating rate and egg production of females. CONCLUSION: These findings prove that the MAGs‐specific Zctakeout1 is essential in regulating fecundity in female Z. cucurbitae fruit flies. Our data suggests its utilization in future essential insect‐specific gene‐directed sterility insect technique (SIT) by the genetic manipulation to keep these important Tephritidae populations under control. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

6. The role of substrate‐borne vibrational signals in the sexual communication of the painted bug, Bagrada hilaris.

Author

Scala, Marica, Peccerillo, Chiara, Fouani, Jalal M., Nieri, Rachele, Baser, Nuray, Verrastro, Vincenzo, Cristofaro, Massimo, Anfora, Gianfranco, and Mazzoni, Valerio

Subjects

*LASER Doppler vibrometer, *STINKBUGS, *ANIMAL sexual behavior, *AGRICULTURAL pests, *SEARCHING behavior

Abstract

The invasive alien stink bug Bagrada hilaris (Burmeister) (Hemiptera: Pentatomidae), native to eastern‐southern Africa and central‐southern Asia, poses significant economic threats to agroecosystems due to its polyphagous diet with a preference for brassicaceous crops. Current control methods using broad‐spectrum insecticides are expensive and often result in significant negative ecological impacts, as well as posing a health risk to consumers. This study provides a detailed description of the mating behavior of B. hilaris, with the aim to ascertain whether substrate‐borne vibrations have a role in premating phases. Such knowledge may contribute to the development of alternative biorational control techniques employing vibrational strategies. Virgin adults were tested individually or in pairs on different substrates, that is, a loudspeaker membrane and a bean plant. Vibrations emitted by males and females were recorded using a laser Doppler vibrometer, and the following spectral and temporal parameters were analyzed: fundamental frequency, emission time, repetition time, and signal modulation. Three distinct types of vibration emitted by males and females were identified: a male vibrotype (MV‐1), a female vibrotype (FV), and a copula signal exclusively emitted by males (MS‐2). MV‐1 and FV were emitted prior to genitalia contact, whereas MS‐2 was emitted within the mounting and engagement phases. Statistical analysis revealed significant transitions in behavioral phases for couples that achieved mating. By analyzing the walking behavior, there was an inverse relationship between motility and signal emission when comparing the two sexes, which suggests that males might engage in a form of searching behavior. These findings provide insight into the crucial role of vibrational communication to achieve mating in B. hilaris. [ABSTRACT FROM AUTHOR]

Published

2024

7. Herbicide changes the role of body condition in mating interactions of a wolf spider but courtship is primarily affected by female immunity.

Author

Godfrey, Jake A., Culbertson, Katrina, Archdeacon, Megan, and Rypstra, Ann L.

Subjects

*WOLF spiders, *HERBICIDES, *COURTSHIP, *AGRICULTURAL chemicals, *AGRICULTURE, *FEMALES

Abstract

Animals that live in human‐impacted landscapes experience an onslaught of novel stimuli that may interfere with natural communication pathways. During mating, this interference may alter the criteria deployed to assess potential mates as males and females find they must shift their focus and emphasize alternative sensory modalities. The wolf spider, Tigrosa helluo (Araneae, Lycosidae) is common in agricultural fields where commercial formulations of herbicides with glyphosate as the active ingredient are regularly applied. With the development of genetically resistant crops, glyphosate‐based herbicides have become among the most widely used and heavily applied agricultural chemicals in the world. In a laboratory experiment, we explored the effects of this herbicide on male—female interactions during courtship, mating, and sexual cannibalism. We expected that it might impact assessment such that there was a shift in the features that were important to the outcome of mating interactions. When herbicide was present, female body condition, an indication of recent feeding success, became important to mating success. This result was, in part, due to higher rates of sexual cannibalism in parings of males and females with low body condition values. The leg raises and pedipalp waves that males perform in courtship were not affected by herbicide nor were they related to mating success but, across all treatments, they were negatively correlated with lytic activity of females as measured just prior to pairing. This result indicates that males detected this aspect of the female's physiology and that a strong immune response made the female less attractive, possibly because it indicated a current or recent infection. Taken together, these results verify that a common herbicide shifts mating criteria used by an agribiont spider and, separate from the herbicide, the immune status of females affects the reactions of courting males. [ABSTRACT FROM AUTHOR]

Published

2024

8. The loss of female sperm storage ability as a potential driver for increased extinction in Chondrichthyes.

Author

Lamarca, Felipe, Carvalho, Pedro Hollanda, and Netto-Ferreira, André Luiz

Subjects

BIOLOGICAL extinction, ANIMAL sexual behavior, CHONDRICHTHYES, SPECIES diversity, PATERNITY

Abstract

Female sperm storage (FSS) has been reported in Chondrichthyans species, and involves the prolonged maintenance of viable sperm after mating events, prior to egg fertilization. Along with multiple paternity (MP–female producing offspring of multiple males within the same litter), FSS has been hypothesized to be related to the increased reproductive fitness of cartilaginous fish lineages. The present study aimed to investigate if: (1) are FSS and MP evolutionarily related and share the same evolutionary history in Chondrichthyes? (2) How is the presence of FSS implied by extinction and speciation rates and thus related to the current species diversity of the group? To answer these questions, we obtained FSS and MP records for Chondrichthyes species from the literature and performed ancestral reconstruction analyses for each character in the phylogenetic tree. We employed MEDUSA and MiSSE to determine if the shifts in diversification rates were related to the characters along the phylogeny. Finally, we utilized HiSSE to calculate the net diversity rates for observed and unobserved states. The ancestral reconstruction indicates that both characters are plesiomorphic for the group; FSS is suggested to be absent in Lamniformes and Rhinopristiformes, whereas MP may be absent in Galeocerdo cuvier. MEDUSA and MiSSE revealed that all clades lacking FSS showed no increase in rates, while there was a higher diversification rates in clades with FSS. HiSSE identified lower net diversity rates in clades lacking FSS associated with hidden states. Therefore, FSS absence seems to contribute to increased extinction rates by reducing diversity among the Chondrichthyes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Neuropeptide natalisin regulates reproductive behaviors in Spodoptera frugiperda.

Author

Gong, Wei, Linghu, Jun-Hong, Xu, Hui-Min, Luo, Li-Lin, Smagghe, Guy, Liu, Tong-Xian, and Gui, Shun-Hua

Subjects

*FALL armyworm, *ANIMAL sexual behavior, *RNA interference, *ANIMAL courtship, *SMALL interfering RNA, *SPERMATOGENESIS, *SEXUAL intercourse

Abstract

Natalisin (NTL) is a conserved neuropeptide, only present in insects, that has been reported to regulate their sexual activity. In this study, we investigated the involvement of NTL in the reproductive behaviors of a major invasive pest, Spodoptera frugiperda. We identified NTL precursor-encoded transcripts, and evaluated their transcript levels in different stages and tissues of S. frugiperda. The results showed that the NTL transcript level was expressed in both male and female pupae and both male and female adults in the later stage. It was highly expressed in male pupae, 3-day-old male and female adults, and 5-day-old male adults. In different tissues, the expression level is higher in the male and female adult brain and male testis. Immunohistochemical staining of the brain of S. frugiperda female and male adults revealed that three pairs of brain neurons of S. frugiperda adults of both sexes secreted and expressed NTL. To study the role of NTL in reproductive behaviors, NTL was silenced in S. frugiperda male and female adults by RNA interference (RNAi) technology, the results showed that silencing NTL could significantly affect the sexual activity behavior of the adults, reducing the calling rate of females, the courtship rate of males, and the mating rate. In summary, this study emphasizes the important role of NTL in regulating the mating behavior and sexual activity of S. frugiperda in both male and female adults, potentially laying a foundation to employ NTL as a new insect-specific target to control populations of pest insects. [ABSTRACT FROM AUTHOR]

Published

2024

10. Can developmental plasticity shape sexual competition and promote reproductive isolation?

Author

Hubakk, Kristin, Wylde, Zachariah, and Bonduriansky, Russell

Subjects

*SEXUAL selection, *BODY size, *ANIMAL sexual behavior, *SEXUAL dimorphism, REPRODUCTIVE isolation

Abstract

Environmental factors, such as dietary nutrients, can shape the expression of developmentally plastic sexual traits in many species. However, while there has been extensive research into the developmental plasticity of sexual traits at the individual level, the broader consequences of this variation at the population scale remain poorly understood. Here, we asked whether plastic responses to the developmental environment can shape sexual competition and initiate reproductive isolation between populations. We reared neriid flies, Telostylinus angusticollis , on nutrient-rich and nutrient-poor larval diets, generating adult flies that differed in body size and secondary sexual trait expression. We then investigated sexual competition in experimental populations from each developmental environment and tested for reproductive isolation between flies from mismatched environments. We found that, compared with poor-diet populations, rich-diet populations exhibited more frequent and escalated male–male combat and more frequent mating and mate-guarding. However, we found no evidence that sexual selection was affected by the developmental environment. Mismatched female–male pairs tended to take longer to mate and rich-diet females often rejected poor-diet males, but mismatched pairs were not less likely to mate within 1 h or produce viable offspring. Our findings suggest that developmental plasticity could generate dramatic differences in sexual competition between populations and could contribute to reproductive isolation. [ABSTRACT FROM AUTHOR]

Published

2024

11. Notes on the ecology, activity patterns and behavior of the kinkajou (Potos flavus).

Author

Galvis, Nelson F., Link, Andrés, Mosquera, Diego, Vinueza-Hidalgo, Gabriela, Carrillo, Lisa, Mopán-Chilito, Alex Mauricio, and Montilla, Sebastián O.

Subjects

*DIETARY patterns, *ANIMAL sexual behavior, *COURTSHIP, *MORACEAE, *DIET

Abstract

Kinkajous are one of the most widely distributed Neotropical mammals, nonetheless, their nocturnal habits have posed challenges on the study of their ecology and behavior. Here, we used arboreal camera trapping in a pristine Amazonian forest in Ecuador, and ad libitum data from direct encounters in a lowland and a highland forest in Colombia to describe their activity patterns and describe anecdotal data on their diet and reproductive behaviors. As expected, kinkajous are strictly nocturnal and seem to be active throughout the entire night, although in our study there was less activity towards the beginning and the end of the night. Kinkajous were observed to be mostly solitary, rarely in groups of two to three adult individuals. Although their diet has not been described in detail, fruits from Moraceae and Urticaceae appear to be important components of their diet. Their reproductive behavior involves an isolated pair of kinkajous, and may be interrupted by other males. Pairs seem to meet for reproductive purposes and range together for several hours, during which courtship may take place, ending in copulation, which lasts for approximately 3 min. After copulation, the male and female appear to separate and return to their solitary habits. The results of this study complement the scarce information on the elusive kinkajous in the Neotropical forests. [ABSTRACT FROM AUTHOR]

Published

2024

12. Inferring precocial Chinook Salmon production through single‐parentage assignments.

Author

Steele, Craig A., Harris, Audrey, Campbell, Matthew, and Venditti, David A.

Abstract

Objective: Parentage analysis is a routine methodology in fisheries research, but study systems exist where it is impractical to sample both parents. The ability to reliably assign offspring to a single parent is beneficial in these situations. We applied single‐parentage assignments to a naturally spawning population of Chinook Salmon Oncorhynchus tshawytscha to quantify production of anadromous returns by unsampled precocial males. Methods: We used an approach that focused on two important aspects of parentage analyses: (1) addressing the presence of family structure within the set of sampled parents and (2) controlling for false‐positive and false‐negative assignments. Result: Results indicated that 30% of reproductively successful males were precocial males, which produced 20% of the returning anadromous offspring. Conclusion: This study provides a framework for applying single‐parent assignments in a salmonid study system while explicitly addressing sources of assignment errors. Impact statementApplication of single‐parent assignments revealed that a precocial resident population of Chinook Salmon contributed substantially to returns of anadromous adults. [ABSTRACT FROM AUTHOR]

Published

2024

13. Male mate guarding in a polyandrous and sexually cannibalistic praying mantid.

Author

Nishino, Hiroto, Morimoto, Kotaro, Kuroda, Kazuki, and Takami, Yasuoki

Subjects

SPERM competition, ANIMAL sexual behavior, POLYANDRY, INVESTIGATIONAL therapies, MANTODEA

Abstract

Sexually cannibalized males incur a significant fitness cost due to the loss of future mating opportunities and are expected to evolve behaviors to avoid or compensate for such costs. For example, partially cannibalized males may exhibit mate guarding, in which they accompany the female to prevent her from mating with another male. In some species, cannibalized males prolong the duration of copulation. However, little is known about the adaptive significance of the mating behavior of sexually cannibalized males. We hypothesized that mating itself serves a mate guarding function, and that behavioral change caused by cannibalism enhances the mate guarding function. We tested these hypotheses using the polyandrous and sexually cannibalistic praying mantid Tenodera angustipennis, with decapitation as a model of sexual cannibalism. We compared latencies to female mating with a rival male among three experimental treatments: unmated treatment, noncannibalistic mating treatment, and cannibalistic mating treatment. Mating itself delayed female remating, revealing its function in mate guarding. Decapitated males exhibited a higher guarding efficiency against rival males via firmer genital coupling. In addition, spermatophore attached to the female genital opening also delayed female remating, revealing an additional function in postmating mate guarding. Although copulation was prolonged due to decapitation, mating by a rival male was not delayed compared to noncannibalistic mating, probably because of weaker postcopulatory guarding. These findings suggest that greater mate guarding by decapitated males during copulation was offset by processes after copulation. Significance statement: Sexually cannibalized males die and lose the chance for future mating. This means that males that can avoid or compensate for this fitness loss may be favored. We examined this possibility by focusing on the postmating behavior of sexually cannibalized male mantises. Experimental analysis revealed that cannibalized males grasped the female more firmly during copulation to avoid disruption by other males, and prolonged copulation duration compared with noncannibalized males. These behavioral changes by cannibalized males contributed to delaying female remating with other males to the same extent as noncannibalized males. This suggests that sexually cannibalized males did not fully compensate for the loss of future mating opportunities. Stronger mate guarding via firm genital coupling and prolonged copulation duration in cannibalized males may be offset by weaker postcopulatory guarding such as shorter duration of copulatory plug attachment. [ABSTRACT FROM AUTHOR]

Published

2024

14. Mating behavior and responses to sublethal concentrations of imidacloprid in the predator Cyrtorhinus lividipennis.

Author

Hu, Kui, Jia, Husheng, Fu, Baobao, Li, Yao, and Liu, Fang

Subjects

IMIDACLOPRID, ANIMAL sexual behavior, INSECTICIDE application, INSECT size, INSECT populations, INSECT behavior, INSECT reproduction

Abstract

BACKGROUND: Mating is an essential factor that governs the size of insect populations that reproduce sexually. The extensive application of insecticides has both lethal and sublethal effects on the physiology and mating behavior of insect natural enemies. The predatory bug Cyrtorhinus lividipennis is a natural enemy of planthopper and leafhopper populations in the rice ecosystem. Unfortunately, the effects of insecticides on the mating behavior of C. lividipennis are not well‐understood. RESULTS: The mating behavior of C. livdipennis consisted of mounting, antennal touch and mating attempts, genital insertion, adjustment of posture, and separation of the mating pair. Approximately 82.5% of the C. lividipennis mating pairs displayed their first mating at 12–36 h postemergence. Mating activity occurred throughout a 24‐h period, with peak activity at 12:00–14:00 h, and the mean duration of mating was 48.75 min. Sublethal exposure to imidacloprid increased mating latency. Compared with the controls, the duration of courtship, pre‐mating and adjusting posture for males treated with imidacloprid were prolonged. The duration of mating for females treated with imidacloprid was prolonged relative to untreated controls. The fecundity and daily spawning capacity of females treated with imidacloprid were higher than the untreated controls. CONCLUSION: Our results provide insight into the mating process of C. lividipennis. Imidacloprid prolonged the duration of mating, which may explain the enhanced reproductive output in C. lividipennis females treated with imidacloprid. These findings will be useful in both rearing C. lividipennis and deploying this natural enemy in rice fields. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

15. Morphometric changes at terminal molt and reproductive capacity in the kelp crab Pugettia ferox Ohtsuchi & Kawamura, 2019 (Decapoda: Brachyura: Majoidea).

Author

Fukasawa, Aiko and Yasuda, Chiaki I

Subjects

MOLTING, DECAPODA, CRABS, KELPS, ANIMAL sexual behavior, CLAWS

Abstract

It has been assumed that functional maturity and terminal molt occur simultaneously in majoid crabs. Although this assumption seems to be accurate in females, males of some majoids can mate with females even before their terminal molt. Here we describe the morphometric changes at terminal molt and test the reproductive capacity of pre-terminal molt males in the kelp crab Pugettia ferox Ohtsuchi & Kawamura, 2019 (Majoidea, Epialtidae, Epialtinae). We measured the post-pseudorostral carapace length (PCL), claw length (CL), claw height (CH), and pleon (abdomen) width (AW) of crabs to estimate the morphological features distinguishing pre- and post-terminal molt individuals, namely relative claw length (CL/PCL) ≥ 0.660 in males and relative abdominal width (AW/PCL) ≥ 0.487 in females. Males with pre-terminal molt morphological features were observed for behavioral maturity through encounters with mature virgin females under laboratory conditions. More than half of the males copulated with a female and then underwent terminal molt. These females bred clutches, and larvae hatched. These results indicate that pre-terminal molt males of P. ferox can be functionally mature. [ABSTRACT FROM AUTHOR]

Published

2024

16. Genomic Data Characterize Reproductive Ecology Patterns in Michigan Invasive Red Swamp Crayfish (Procambarus clarkii)

Author

Nicole E. Adams, Jared J. Homola, Nicholas M. Sard, Lucas R. Nathan, Brian M. Roth, John D. Robinson, and Kim T. Scribner

Subjects

effective breeding number, invasive species, kinship‐based approaches, mating behavior, pedigree analysis, Procambarus clarkii, Evolution, QH359-425

Abstract

ABSTRACT The establishment and spread of invasive species are directly related to intersexual interactions as dispersal and reproductive success are related to distribution, effective population size, and population growth. Accordingly, populations established by r‐selected species are particularly difficult to suppress or eradicate. One such species, the red swamp crayfish (Procambarus clarkii) is established globally at considerable ecological and financial costs to natural and human communities. Here, we develop a single nucleotide polymorphism (SNP) loci panel for P. clarkii using restriction‐associated DNA‐sequencing data. We use the SNP panel to successfully genotype 1800 individuals at 930 SNPs in southeastern Michigan, USA. Genotypic data were used to reconstruct pedigrees, which enabled the characterization of P. clarkii's mating system and statistical tests for associations among environmental, demographic, and phenotypic predictors and adult reproductive success estimates. We identified juvenile cohorts using genotype‐based pedigrees, body size, and sampling timing, which elucidated the breeding phenology of multiple introduced populations. We report a high prevalence of multiple paternity in each surveyed waterbody, indicating polyandry in this species. We highlight the use of newly developed rapid genomic assessment tools for monitoring population reproductive responses, effective population sizes, and dispersal during ongoing control efforts.

Published

2024

17. Evolution and development of male-specific leg brushes in Drosophilidae

Author

Tanaka, Kohtaro, Barmina, Olga, Thompson, Ammon, Massey, Jonathan H, Kim, Bernard Y, Suvorov, Anton, and Kopp, Artyom

Subjects

Biological Sciences, Evolutionary Biology, Animals, Male, Female, Phylogeny, Biological Evolution, Drosophilidae, Drosophila melanogaster, Phenotype, Sex Characteristics, Drosophila phylogeny, Sexual dimorphism, Dipteran leg ornaments, Convergent evolution, Mating behavior, Bristle development, Genetics, Developmental Biology

Abstract

The origin, diversification, and secondary loss of sexually dimorphic characters are common in animal evolution. In some cases, structurally and functionally similar traits have evolved independently in multiple lineages. Prominent examples of such traits include the male-specific grasping structures that develop on the front legs of many dipteran insects. In this report, we describe the evolution and development of one of these structures, the male-specific "sex brush." The sex brush is composed of densely packed, irregularly arranged modified bristles and is found in several distantly related lineages in the family Drosophilidae. Phylogenetic analysis using 250 genes from over 200 species provides modest support for a single origin of the sex brush followed by many secondary losses; however, independent origins of the sex brush cannot be ruled out completely. We show that sex brushes develop in very similar ways in all brush-bearing lineages. The dense packing of brush hairs is explained by the specification of bristle precursor cells at a near-maximum density permitted by the lateral inhibition mechanism, as well as by the reduced size of the surrounding epithelial cells. In contrast to the female and the ancestral male condition, where bristles are arranged in stereotypical, precisely spaced rows, cell migration does not contribute appreciably to the formation of the sex brush. The complex phylogenetic history of the sex brush can make it a valuable model for investigating coevolution of sex-specific morphology and mating behavior.

Published

2022

18. Infection‐related sexual conflict in mating behaviors of wolf spiders.

Author

Bauer‐Nilsen, Olivia, McConnell, Megan, and Uetz, George

Subjects

*WOLF spiders, *SPIDER behavior, *PSEUDOMONAS aeruginosa, *PATHOGENIC bacteria, *IMMUNE response, *ANIMAL courtship, *JUMPING spiders, *ANIMAL sexual behavior

Abstract

Resistance to mating by females has been hypothesized as a tactic to assess potential mates and avoid undesirable ones. Previous studies show infection with the pathogenic bacteria, Pseudomonas aeruginosa, triggers a costly immune response and negatively impacts fitness in the wolf spider Schizocosa ocreata (Hentz 1844). Studies also show that infection can be transmitted during copulation, suggesting that there are potential fitness costs associated with mating with an infected individual. We examined impacts of infection on mating interactions of male and female S. ocreata. As studies show infection can be detected through chemical cues, we tested whether males or females avoid mating with infected individuals when given the opportunity. We paired infected and uninfected (control) males and females and recorded their behavior. We found that mating outcome was independent of infection for males and females. While higher male courtship rates and more frequent female receptivity displays were associated with successful mating, we saw no direct effect of infection status on mating outcome. However, among spider pairs that did not mate, females were found to be significantly more resistant and aggressive toward infected males than control males. Male aggression, on the other hand, was greater in pairs that did result in mating. These results suggest that sexual conflict in mating can be related to infection status, and that females can recognize infected males and alter their behavior in response. [ABSTRACT FROM AUTHOR]

Published

2024

19. A variance-partitioning approach for assessing mate choice and which sex controls mating behavior.

Author

Han, Chang S and Hyun, Hyoseul

Subjects

*ANIMAL sexual behavior, *ANIMAL courtship, *FEMALES, *COURTSHIP

Abstract

Mating behavior arises from interactions between males and females. The precopulatory stage includes various male and female mating behaviors that are potentially influenced (independently or jointly) by each sex, thereby shaping the dynamics of this stage. However, limited attention has been given to determining the relative contributions of males and females to the expression of precopulatory behaviors. Here, we adopted a variance-partitioning approach to assess which sex controls each precopulatory behavior. This approach also enabled us to evaluate the existence of mate choice by assessing whether the expression of precopulatory behavior depends on the identity of the opposite-sex partner. In our study, using the bean bug Riptortus pedestris , we exposed individual males and females to different opposite-sex partners (i.e. mating assays) up to six times. During the mating assay, we measured multiple precopulatory behaviors (e.g. latency to mount, courtship rate, courtship duration, and duration of position change). Variance partitioning showed that the variation in each precopulatory behavior could be attributed solely to either sex but not to both sexes. Hence, the precopulatory stage of R. pedestris comprises a combination of male-controlled and female-controlled behaviors. We also suggested that mate choice was absent in both sexes of R. pedestris in the postmounting and precopulatory stages. Our findings highlight the importance of the variance-partitioning approach in the study of mating behavior, as it facilitates the investigation of whether mate choice occurs at specific mating stages and enhances our understanding of evolutionary dynamics during mating. [ABSTRACT FROM AUTHOR]

Published

2024

20. Identification and Functional Analysis of the fruitless Gene in a Hemimetabolous Insect, Nilaparvata lugens.

Author

Wang, Biyun, Mao, Zeping, Chen, Youyuan, Ying, Jinjun, Wang, Haiqiang, Sun, Zongtao, Li, Junmin, Zhang, Chuanxi, and Zhuo, Jichong

Subjects

*NILAPARVATA lugens, *INSECT genes, *ANIMAL sexual behavior, *FUNCTIONAL analysis, *GENE expression, *BIRDSONGS, *ANIMAL courtship

Abstract

Simple Summary: Mating behavior plays a crucial role in the survival and reproduction of insect populations. The fruitless (fru) gene, recognized for regulating male mating behaviors in Drosophila melanogaster, acts as a central "tuner", shaping courtship behavior through sex-specific expression patterns within the courtship neural circuit. While fru homologs and sex-specific isoforms have been identified in other holometabolan insects, controlling mating behavior, hemimetabolous insects show the generation of non-sex-specific mRNAs by the fru gene, suggesting potential functional differences. This study focuses on fru homologs (Nlfru) in the Hemiptera species Nilaparvata lugens, utilizing RNAi-mediated knockdown to explore Nlfru functions in male mating behavior and tissue development. Our research contributes to understanding the regulation of mating behavior in N. lugens and sheds light on the evolution of the fru gene across insect species. The fruitless (fru) gene functions as a crucial "tuner" in male insect courtship behavior through distinct expression patterns. In Nilaparvata lugens, our previous research showed doublesex (dsx) influencing male courtship songs, causing mating failures with virgin females. However, the impact of fru on N. lugens mating remains unexplored. In this study, the fru homolog (Nlfru) in N. lugens yielded four spliceosomes: Nlfru-374-a/b, Nlfru-377, and Nlfru-433, encoding proteins of 374aa, 377aa, and 433aa, respectively. Notably, only Nlfru-374b exhibited male bias, while the others were non-sex-specific. All NlFRU proteins featured the BTB conserved domain, with NlFRU-374 and NlFRU-377 possessing the ZnF domain with different sequences. RNAi-mediated Nlfru or its isoforms' knockdown in nymph stages blocked wing-flapping behavior in mating males, while embryonic knockdown via maternal RNAi resulted in over 80% of males losing wing-flapping ability, and female receptivity was reduced. Nlfru expression was Nldsx-regulated, and yet courtship signals and mating success were unaffected. Remarkably, RNAi-mediated Nlfru knockdown up-regulated the expression of flightin in macropterous males, which regulated muscle stiffness and delayed force response, suggesting Nlfru's involvement in muscle development regulation. Collectively, our results indicate that Nlfru functions in N. lugens exhibit a combination of conservation and species specificity, contributing insights into fru evolution, particularly in Hemiptera species. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effects of past mating behavior versus past ejaculation on male mate choice and male attractiveness.

Author

Chung, Meng-Han Joseph, Head, Megan L, Fox, Rebecca J, and Jennions, Michael D

Subjects

*ANIMAL sexual behavior, *MALE ejaculation, *SPERM competition, *FEMALES, *MALES, *EJACULATION, *REPRODUCTIVE history

Abstract

Past reproductive effort allows males to assess their ability to acquire mates, but it also consumes resources that can reduce their future competitive ability. Few studies have examined how a male's reproductive history affects his subsequent mate choice, and, to date, no study has determined the relative contribution of past mating behavior and past ejaculate production because these two forms of investment are naturally highly correlated. Here, we disentangled the relative effects of past mating behavior and past ejaculate production in mosquitofish (Gambusia holbrooki) by experimentally preventing some males from ejaculating when trying to mate. We assessed the effect of mating behavior on mate choice by comparing males that had previously been with or without access to females and male rivals for 8 and 16 weeks and assessed the effect of ejaculation on mate choice by comparing males that either could or could not ejaculate when they had access to females for 16 weeks. Reproductive treatment did not affect male attractiveness, but it did affect male mate choice. Somewhat surprisingly, in five of the six treatment-by-age at testing combinations, males preferred a female in the vicinity of a male rival over a solitary female. This preference was marginally stronger for males that had previously engaged in mating behavior but were unaffected by past ejaculate production. We discuss the potential benefits to males of associating with another male when seeking mates. This is the first study to quantify the relative influence of pre- and post-copulatory reproductive investment on male mate choice. [ABSTRACT FROM AUTHOR]

Published

2024

22. Fiber quality and fertility in male alpacas in the Cusco region of Peru

Author

Joel Pacheco, Fanny Bengtsson, Jakob Killander, Francisco Franco, Nils Lundeheim, Csaba Varga, Renée Båge, and Jane M. Morrell

Subjects

fiber diameter, body condition score, age, testosterone, mating behavior, Veterinary medicine, SF600-1100

Abstract

IntroductionHigh testosterone levels might be associated with coarser fiber in alpacas, affecting fiber quality. In the husbandry systems employed in the Andes, males with higher libido might have an increased frequency of successful matings than males with lower libido. This study aimed to determine some of the factors affecting fiber quality in Peruvian alpacas and to evaluate the association between fiber quality and male mating behavior.MethodsThe study population consisted of 189 adult male alpacas at La Raya, Cusco, Peru, at 4,400 m above sea level, belonging to the National University of San Marcos, Lima, and the National University of San Antonio Abad of Cusco. Fiber samples were collected from male alpacas in September 2015; body condition score (BCS) was evaluated. After washing and drying, the fiber samples were analyzed using an Optical Fiber Diameter Analyser 2000; linear regression analysis between predictor variables (location of alpacas, age, BCS, and fiber color) and fiber quality outcomes was conducted. Fertility data were available only for some males belonging to San Marcos University, consisting of hand-written records from the breeding season January to April 2015; individual fertility quotients were calculated for each male.ResultsAge was associated with fiber quality, young alpacas having the finest fibers (p < 0.05). An increased BCS was associated with increased fiber length, fiber diameter and spinning fineness, but decreased comfort factor (p < 0.05). White fibers were thinner (p = 0.05) than colored fibers, with lower comfort factor and spinning fineness. A significant association between the fertility quotient and fiber curvature was observed (p = 0.018).DiscussionThese results suggest that careful selection of breeding individuals and attention to husbandry could result in improved fiber quality among alpaca herds in Peru. However, it would be advisable to increase the number of males studied, using more reliable methods for evaluating male fertility and pregnancy diagnosis than were available for this study.

Published

2024

23. Sublethal Effects of α-Cypermethrin on the Behavioral Asymmetries and Mating Success of Alphitobius diaperinus

Author

Demeter Lorentha S. Gidari, Nickolas G. Kavallieratos, and Maria C. Boukouvala

Subjects

stored-product insect, courtship, mating behavior, laterality, sublethal concentrations, pyrethroid insecticide, Science

Abstract

Sublethal exposure to insecticides can adversely impact various biological and behavioral characteristics of insects. Although α-cypermethrin has been previously tested for its effects on control of Alphitobius diaperinus, there is no knowledge about the effect of this insecticide on its behavioral asymmetries and mating success. Μales at all exposures (control, LC10, and LC30), that first approached their mate, showed right-biased tendency (approached their mate from their right side) in mate recognition. Females, however, showed variation in this behavior between the three exposures. Right-biased tendency of males in all treatment scenarios led to a higher percentage of successful copulations compared to the three other directions. For males that first approached their mate, the insecticide did not affect their lateralization of the first approach but did affect their copulation success. The duration of copulation time was reduced after the exposure to the insecticide, with the longest duration noted in the control females (63.0 s) and the lowest in the α-cypermethrin LC30 females (46.9 s). Moreover, at the α-cypermethrin LC10 exposure, mate recognition time was reduced, as opposed to α-cypermethrin LC30 exposure where mate recognition time was increased. These results can be further utilized to uncover the behavioral impacts of insecticides, enhancing the effectiveness of pest management in warehouses and poultry production facilities.

Published

2024

24. Molecular phylogeny and ethology of the Family Plagiostomidae (Platyhelminthes, Prolecithophora), with integrative description of a new species, Plagiostomum robusta A. Wang, sp. nov.

Author

Yujia Wang, Jiajie Huang, Yu Zhang, and Antai Wang

Subjects

MOLECULAR phylogeny, MORPHOLOGY, ANIMAL behavior, BIOLOGICAL classification, PLATYHELMINTHES, BEETLE anatomy, CHLOROPLAST DNA

Abstract

The taxon Prolecithophora, which is closely related to the well-known clade Tricladida, is rarely studied, particularly in terms of molecular phylogeny and behavioral characteristics. In this study, we employed an integrative analysis of molecular phylogeny, histology, and ethology to describe a new marine species, Plagiostomum robusta A.Wang, sp. nov. of the order Prolecithophora. Additionally, we obtained its nearly complete mitogenome sequence with annotations of 12 protein-coding genes, two rRNA genes and 22 tRNA genes. P. robusta is characterized by several features, including a pair of short tentacles, a terminal mouth and a terminal gonopore, a large variable pharynx, two extended front ends of the intestine, paired testes located behind the ovaries and outside the vitellaria, a muscular and movable distal sac, and a long tubular penis surrounded by a sheath. The phylogenetic analysis, based on 18S rDNA and 28S rDNA, revealed that the new species formed a clade with six Plagiostomum flatworms, indicating a close kinship with Plagiostomum. Despite contradictions between the traditional morphological classification system and the results of molecular phylogenetics, we chose to assign the new species to Plagiostomum based on comprehensive considerations. Moreover, our study has provided more insights into the behavioral features of Plagiostomidae species, as we found that P. robusta fed on other flatworms and engaged in cannibalism, and unexpectedly it mated via hypodermic inpregnation. This study represents the first comprehensive description of the reproductive behavior of Plagiostomidae species, contributing to the more in-depth understanding of the biological characteristics of this group. [ABSTRACT FROM AUTHOR]

Published

2024

25. Prolonged Exposure to Plant Volatiles does not Significantly Affect Pban Expression and Mating Behavior in Diamondback Moth [Plutella Xylostella (Lepidoptera: Plutellidae)].

Author

Tian, Houjun, Xu, Ruibin, Li, Heng, Lin, Shuo, Chen, Yixin, Chen, Yong, Yang, Guang, and Wei, Hui

Subjects

*ANIMAL sexual behavior, *DIAMONDBACK moth, *PLUTELLIDAE, *INSECT pheromones, *LEPIDOPTERA, *INSECT pest control, *LARVAE

Abstract

Herbivorous insects use plant volatiles to locate hosts, find food, and identify oviposition sites to aid survival and reproduction. Plant volatiles not only regulate the synthesis and release of sex pheromones in insects, but also help them in the search and orientation of sources of sex pheromones. However, after prolonged exposure to plant volatiles, the changes mediating the mating behavior of diamondback moth (DBM) [Plutella xylostella (L.) (Lepidoptera: Plutellidae)] are unclear. DBMs treated with allyl isothiocyanate, a volatile from cruciferous vegetables, did not show improved rates of mating with a limited effect on mating rhythm. This treatment inhibited mating behaviors in 3-day-old DBMs and decreased mating duration in 5-day-old DBMs. After prolonged exposure to allyl isothiocyanate, the total mating duration of DBM was not significantly different from that after prolonged exposure to n-hexane (control). The longest mating duration after emergence in DBM after prolonged exposure to allyl isothiocyanate was delayed by 1 day compared with exposure to n-hexane. Prolonged exposure to plant volatiles intensified the response behavior of DBM to sex pheromones. However, the amount of Z11-16: Ald, a major component of the sex pheromone blend exhibited no change in female pheromone glands. Pheromone biosynthesis activating neuropeptide gene (PBAN) was down-regulated in DBMs after prolonged exposure to plant volatiles. These findings suggest that prolonged exposure (6 h) to plant-derived volatiles have little effect on the mating behavior of DBM. This study provides practical guidance for applying phytochemicals in pest control by regulating insect behavior. [ABSTRACT FROM AUTHOR]

Published

2024

26. The evolution of female-biased genital diversity in bedbugs (Cimicidae).

Author

Roth, Steffen, Siva-Jothy, Michael T., Balvín, Ondřej, Morrow, Edward H., Willassen, Endre, and Reinhardt, Klaus

Subjects

*FEMALE reproductive organs, *BEDBUGS, *ANIMAL sexual behavior, *SEXUAL selection, *GENITALIA, *FEMALES

Abstract

Rapid genitalia evolution is believed to be mainly driven by sexual selection. Recently, noncopulatory genital functions have been suggested to exert stronger selection pressure on female genitalia than copulatory functions. In bedbugs (Cimicidae), the impact of the copulatory function can be isolated from the noncopulatory impact. Unlike in other taxa, female copulatory organs have no function in egg-laying or waste-product expulsion. Males perform traumatic mating by piercing the female integument, thereby imposing antagonistic selection on females and suspending selection to morphologically match female genitalia. We found the location of the copulatory organ evolved rapidly, changing twice between dorsal and ventral sides, and several times along the anteroposterior and the left–right axes. Male genital length and shape varied much less, did not appear to follow the positional changes seen in females, and showed no evidence for coevolution. Female genitalia position evolved 1.5 times faster than male genital length and shape and showed little neutral or geographic signals. Instead, we propose that nonmorphological male traits, such as mating behavior, may drive female genitalia morphology in this taxon. Models of genitalia evolution may benefit from considering morphological genital responses to nonmorphological stimuli, such as male mating behavior or copulatory position. [ABSTRACT FROM AUTHOR]

Published

2024

27. Flight capabilities of invasive yellowjacket Vespula germanica drones: the effect of kinship and nutrition.

Author

Porrino, Agustina P., Martínez, Andrés S., Villacide, José M., and Masciocchi, Maité

Subjects

*LIFE history theory, *KINSHIP, *POPULATION dynamics, *VESPIDAE, *REDUCING diets, *NEST predation, *LARVAL dispersal, *DISPERSAL (Ecology), *NUTRITION

Abstract

Dispersal is a multifactorial process which may influence, among several others, population dynamics, inbreeding likelihood, and mate competition. For species that disperse by flight, many studies have suggested that life‐history traits, such as body size or nutritional condition, could promote variation in flight capabilities and, consequently, on dispersal behavior. Eusocial hymenopterans are likely to experience high densities of related reproductive individuals near their nests, thus increasing probabilities of inbred matings and kin competition. Spatial segregation resulting from differences in flight capabilities of Vespula germanica (Fabricius) (Hymenoptera: Vespidae) nestmate drones could reduce interactions with kin, thus decrease inbreeding and kin competition. Our aim was to characterize, in the laboratory, flight capabilities of sibling drones and elucidate traits that could affect it, focusing on the relevance of carbohydrate intake (diets with different sugar concentration) during early adulthood. Our results indicate that in tethered flight mill assays, V. germanica drones have highly variable flight capabilities within and between nests, with most drones likely to remain relatively close to their nest of origin. The observed flight capabilities are affected by nutrition, with those individuals better nurtured (i.e., with higher nutritional index), flying farther distances. Additionally, diets with variable carbohydrate concentration provided during early adulthood did not affect flight capabilities (only those exposed to a carbohydrate‐free diet had reduced flight distances and speeds), suggesting that nutrition during larval stages is determinant for flight. Our findings contribute to the understanding of the mechanisms underlying V. germanica drone dispersal behavior which, in turn, might influence inbreeding likelihood in the species. [ABSTRACT FROM AUTHOR]

Published

2024

28. Reproductive Behavior and Development of the Global Insect Pest, Cotton Seed Bug Oxycarenus hyalinipennis.

Author

Saveer, Ahmed M., Hu, Jing, Strickland, Jaime, Krueger, Robert, Clafford, Shannon, and Zhang, Aijun

Subjects

*SEXUAL cycle, *ANIMAL sexual behavior, *LIFE cycles (Biology), *INSECT pests, *INSECT development, *COTTONSEED

Abstract

Simple Summary: The cotton seed bug, Oxycarenus hyalinipennis, is an invasive pest native to southern Europe and North Africa. It feeds on plants in the mallow family, including the agricultural commodities cotton, okra, hibiscus, cocoa, and kenaf. The O. hyalinipennis is a major economic threat to the U.S. cotton industry. Based on host and climate availabilities and the lack of natural enemies, O. hyalinipennis has a high likelihood for establishment throughout the southern regions in the U.S. The fundamental life history and reproductive behavior of O. hyalinipennis have been inadequately explored until now; therefore, it is difficult to develop corresponding precautionary measures. In this research, we have conducted a comprehensive study on the life cycle of O. hyalinipennis, including egg development, metamorphosis, adult mating behavior, adult lifespan, and survivorship. Our results provide valuable information for scientists and growers to develop efficient management strategies in IPM for timely infestation intervention to protect the cotton crop and other agricultural commodities from O. hyalinipennis damage. Understanding the fundamental life cycle and reproductive behavior of a pest insect is essential for developing efficient control strategies; however, much of this knowledge remains elusive for a multitude of insects, including the cotton seed bug, Oxycarenus hyalinipennis. Here, we report the results of our comprehensive study on the cotton seed bug's life cycle, including mating behavior, adult lifespan, and egg-to-adulthood development. Our findings showed that adult males and females began mating as early as three days after emerging (75%), and the frequency of mating increased to 100% by the fifth day. Mated females commenced oviposition on cotton seeds as early as two days after mating, with a cumulative mean number of 151 fertile eggs oviposited during the first oviposition cycle. Furthermore, around 10% of eggs from both mated and unmated females remained unfertilized. The first instar nymphs began emerging approximately seven days following oviposition. To track their development, we monitored the newly hatched nymphs daily until they reached adulthood. There were five nymphal stages, which cumulatively took roughly 28 to 30 days. Notably, mating positively influenced the survivorship and lifespan of adult O. hyalinipennis. Mated males and females exhibited median lifespans of 28 and 25 days, respectively. In contrast, unmated males and females only lived for a median lifespan of 9.5 days, about one-third that of the mated O. hyalinipennis. Our study provides key insights into the O. hyalinipennis life history for new IPM strategies. [ABSTRACT FROM AUTHOR]

Published

2024

29. Influence of Food on Reproductive Behavior in Drosophila melanogaster.

Author

Musca, Adriana-Sebastiana, Deac, Alexandru Marius, Baci, Gabriela-Maria, Miclea, Ileana, Coldea, Stefania Dana, and Zahan, Marius

Subjects

*DROSOPHILA melanogaster, *ANIMAL sexual behavior, *FRUIT flies, *NUTRITIONAL requirements, *DEMOGRAPHIC change

Abstract

In a constantly changing environment, animals are forced to make crucial behavioral choices for survival. Food determines whether wild animals evolve, whether populations decline, or how ecological groups are structured. Animals have the ability to adapt their nutritional needs according to the availability of food, they detect and assimilate nutrients. Drosophila melanogaster, the fruit fly, is considered an important model for various studies. For example, in nutrition research and for understanding the mechanisms of human disease. In this study, we have provided an overview of fruit fly feeding behavior, how diet influences mating behavior and what volatiles attract flies. We show that mating behavior is very closely related to food and that egg laying is influenced by yeast, a very important source of protein. [ABSTRACT FROM AUTHOR]

Published

2024

30. 黄杨斑蛾田猎姬蜂 (膜翅目: 姬蜂科) 个 体发育与生殖行为.

Author

王 于, 田良恒, 李 欣, 张锐敏, 尹新明, and 白素芬

Subjects

ANIMAL sexual behavior, GENITALIA, ONTOGENY, OVIPARITY, COURTSHIP

Abstract

Copyright of Forest Research is the property of Forest Research Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

31. Mating Behavior and Sexual Selection in Monochamus saltuarius (Gebler).

Author

Zhang, Chuchu, Wu, Hao, Hou, Zehai, and Zong, Shixiang

Subjects

ANIMAL sexual behavior, SEXUAL selection, HUMAN sexuality, PINEWOOD nematode, FORESTS & forestry, CONIFER wilt

Abstract

The Sakhalin pine sawyer Monochamus saltuarius (Gebler) (Coleoptera: Cerambycidae) is a new vector of pine wood nematode in China, which has caused huge economic losses in the forestry industry. The mating process of M. saltuarius has been described in detail. However, mate choice and sexual selection in this species are not fully understood. In this study, we quantitatively evaluated the characteristics associated with contact between the sexes in mating and inferred the sex-specific characteristics under selection. We detected positive correlations between the morphological characteristics of females and males. Most female traits and all male traits differed significantly between mated and unmated individuals. The results of this study provide evidence for the selection of the mating preferences in M. saltuarius. [ABSTRACT FROM AUTHOR]

Published

2023

32. Cement glands as a second sexual characteristic can help to evaluate the ovarian development and reproductive spawning period of the female crayfish Procambarus clarkii

Author

Jinghao Li, Chen Qian, Wenzong Zhou, Yewen Xi, Yongxu Cheng, and Jiayao Li

Subjects

Cement glands, Red swamp crayfish, Secondary sexual characteristic, Mating behavior, Gonadal index, Proteome profiles, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Procambarus clarkii is an important economic species in freshwater culture. The secondary sexual characteristics of male crayfish have been studied, but little is known about female crayfish. In this study, it is found that cement glands appeared in the abdominal pleopods and telson of female crayfish during spawning period. The relationship between the appearance of cement glands and the ovarian development, mating behavior and spawning was studied, the histological change, proteome profiles of cement glands before and spawning were compared. The results are as follows: Cement glands was also a secondary characteristic of female crayfish. It had no significant promotion on mating behavior. Compared to crayfish without cement glands, female crayfish with cement glands had better developed ovary, manifested in higher gonadal index and oocyte diameter and significant lower VgR gene expression. The cement glands disappeared after the female crayfish spawned. The results of proteome profiles showed that about 312 proteins were identified in cement glands. These proteins possibly participate in maintaining the osmotic pressure of sperm and eggs, protecting and promoting the combination of fertilized eggs, and promoting the adhesion of eggs to the abdomen pleopods during the spawning period. Based on the characteristic of cement glands, it is inferred that the function of cement glands is mainly to prepare for spawning and egg hatching of female crayfish. The cement glands can be used as an indicator to help to evaluate the ovarian development and spawning period of female P.clarkii.

Published

2024

33. Evolution and Biogeographic History of Rubyspot Damselflies (Hetaerininae: Calopterygidae: Odonata)

Author

Standring, Samantha, Sánchez-Herrera, Melissa, Guillermo-Ferreira, Rhainer, Ware, Jessica L, Vega-Sánchez, Yesenia Margarita, Clement, Rebecca, Drury, Jonathan P, Grether, Gregory F, González-Rodríguez, Antonio, Mendoza-Cuenca, Luis, Bota-Sierra, Cornelio A, and Bybee, Seth

Subjects

Biological Sciences, Evolutionary Biology, Genetics, biogeography, Zygoptera, wing coloration, mating behavior, Analytical Chemistry, Environmental Science and Management, Ecology, Distributed Computing, Electrical and Electronic Engineering, Electrical engineering, Electronics, sensors and digital hardware, Environmental management, Distributed computing and systems software

Abstract

The damselflies Hetaerininae, a subfamily of Calopterygidae, comprise four genera distributed from North to South America: Hetaerina, Mnesarete, Ormenophlebia and Bryoplathanon. While several studies have focused on the intriguing behavioral and morphological modifications within Hetaerina, little of the evolutionary history of the group is well understood. Understanding the biogeographical history of Hetaerininae is further complicated by uncertainty in important geological events, such as the closure of the Central American Seaway (CAS). We generated a phylogenetic hypothesis to test the relationships and divergence times within Hetaerininae using IQtree and BEAST2 and found that Mnesarete and Ormenophlebia render Hetaerina paraphyletic. Reclassification of the genera within Hetaerininae is necessary based on our results. We also tested the fit to our dataset of two different hypotheses for the closure of CAS. Our results supported a gradual closure, starting in the Oligocene and ending in the Pliocene. Using Ancestral Character State Reconstruction, we found that the rubyspot, which is associated with higher fecundity in several species, was ancestral for Hetaerininae and subsequently lost four times. Estimates of diversification in association with the rubyspot are needed to understand the plasticity of this important character. Forest habitat was the ancestral state for Hetaerininae, with transitions to generalist species of Hetaerina found primarily in the Mesoamerican region. These results add to our understanding of the relationship between morphology, biogeography and habitat in a charismatic group of damselflies.

Published

2022

34. Sexual Behaviors of Odontocetes in Managed Care

Author

Manitzas Hill, Heather M., Dudzinski, Kalthleen M., Lilley, Malin K., Ham, Jackson R., Würsig, Bernd, editor, and Orbach, Dara N., editor

Published

2023

35. Bowhead Whale Reproductive Strategies

Author

Koski, William R., George, J. Craig, Würsig, Bernd, Würsig, Bernd, editor, and Orbach, Dara N., editor

Published

2023

36. Sexual Behavior and Anatomy in Porpoises

Author

Webber, Marc A., Keener, William, Wahlberg, Magnus, Elliser, Cindy R., MacIver, Katrina, Ortiz, Sara Torres, Jakobsen, Freja, Hamel, Héloïse, Rieger, Alexandra, Siebert, Ursula, Dunn, Holly, Anderson, David, Hall, Anna M., Birdsall, Caitlin, Pielmeier, Kate, Paiu, Romulus-Marian, Boege Tobin, Deborah D., Orbach, Dara N., Würsig, Bernd, editor, and Orbach, Dara N., editor

Published

2023

37. Drone Perspectives on Cetacean Mating and Sex

Author

Ramos, Eric Angel, Hartman, Karin L., Baird, Robin W., Lerma, Jordan K., Missael Rodríguez-González, Fabian, Orbach, Dara N., Würsig, Bernd, editor, and Orbach, Dara N., editor

Published

2023

38. Sociosexual Behavior of Nocturnally Foraging Dusky and Spinner Dolphins

Author

Markowitz, Tim M., Markowitz, Wendy J., Würsig, Bernd, Orbach, Dara N., Würsig, Bernd, editor, and Orbach, Dara N., editor

Published

2023

39. Acoustic Communication in Fruit Flies and Mosquitoes

Author

Su, Matthew P., Kamikouchi, Azusa, and Seki, Yoshimasa, editor

Published

2023

40. The suppression of a selfish genetic element increases a male's mating success in a fly.

Author

Lyth, Sophie, Betancourt, Andrea J., Price, Tom A. R., and Verspoor, Rudi L.

Subjects

*SUPPRESSOR mutation, *MEIOTIC drive, *FEMALES, *X chromosome, *HEREDITY, *FLIES, *FRUIT flies

Abstract

X chromosome meiotic drive (XCMD) kills Y‐bearing sperm during spermatogenesis, leading to the biased transmission of the selfish X chromosome. Despite this strong transmission, some natural XCMD systems remain at low and stable frequencies, rather than rapidly spreading through populations. The reason may be that male carriers can have reduced fitness, as they lose half of their sperm, only produce daughters, and may carry deleterious alleles associated with XCMD. Thus, females may benefit from avoiding mating with male carriers, yielding a further reduction in fitness. Genetic suppressors of XCMD, which block the killing of Y sperm and restore fair Mendelian inheritance, are also common and could prevent the spread of XCMD. However, whether suppressed males are as fit as a wild‐type male remains an open question, as the effect that genetic suppressors may have on a male's mating success is rarely considered. Here, we investigate the mating ability of XCMD males and suppressed XCMD males in comparison to wild‐type males in the fruit fly Drosophila subobscura, where drive remains at a stable frequency of 20% in wild populations where it occurs. We use both competitive and non‐competitive mating trials to evaluate male mating success in this system. We found no evidence that unsuppressed XCMD males were discriminated against. Remarkably, however, their suppressed XCMD counterparts had a higher male mating success compared to wild‐type controls. Unsuppressed XCMD males suffered 12% lower offspring production in comparison to wild‐type males. This cost appears too weak to counter the transmission advantage of XCMD, and thus the factors preventing the spread of XCMD remain unclear. [ABSTRACT FROM AUTHOR]

Published

2023

41. Characterizing Substrate-Borne Vibrational Mating Signals Produced by Pear Psylla, Cacopsylla pyricola (Hemiptera: Psyllidae).

Author

Jocson, Dowen Mae I., Gonzales, Mark T., Horton, David R., Nottingham, Louis B., Beers, Elizabeth H., Oeller, Liesl C., and Crowder, David W.

Subjects

*PEARS, *JUMPING plant-lice, *AGRICULTURE, *INTEGRATED pest control, *HEMIPTERA

Abstract

Tactics that manipulate insect behavior are a component of many pest management strategies. Pheromone-based mating disruption is one such tactic widely used in agricultural systems, but few studies have assessed disrupting other mate communication mechanisms, such as acoustic signals. The most destructive pear pest in the Pacific Northwest USA, pear psylla (Cacopsylla pyricola) is believed to use acoustic signals to find mates, making it a candidate for this type of disruption. This species has two adult morphs, overwintering adults (winterforms) that emerge in the spring and subsequent generations (summerforms). Our study characterized the mating signals for both sexes and morphs of pear psylla, and assessed whether temperature and previous exposure to adult conspecifics altered signals and likelihood of signaling. While there are descriptions for acoustic signals of other psyllid species, this study provides the first evidence that C. pyricola communicates acoustically. The two sexes communicate via duetting; males signal to attract a female and the female signals back if she is receptive for mating. We showed that both morphotypes' male signals contain a group of chirps followed by a trill, while females respond with chirps. Male signal trills differed significantly in frequency (Hz) between winterform and summerform psylla. The signal frequency among morphs also had a positive linear relationship with temperature, suggesting that dissimilarity in signals among morphs had some relationship to temperature. Males were more likely to signal when they had previous exposure to females compared to males without exposure to females. Our results provide new information on how pear psylla communicate acoustically for mating, advancing the potential to develop mating disruption strategies for integrated pest management (IPM). [ABSTRACT FROM AUTHOR]

Published

2023

42. MORPHOLOGY AND REPRODUCTIVITY PROFILING OF MALE SENDURO GOATS BASED ON AGE DIFFERENCES.

Author

DUCHA, Nur, LISDIANA, Lisa, TRIMULYONO, Guntur, MUHAIMIN, Fitriari Izzatunnisa, YUSOF, Nur Nadiah Md, SAMSULRIZAL, Nurdiana, DASIMAN, Razif, FUDHAILI, Ahmad, PRAMESTI, Giyanita Rahma Ayu, and RAHAYU, Johana Dian

Subjects

GOAT milk, AGE differences, GOAT breeds, GOATS, ANIMAL sexual behavior, GERMPLASM conservation

Abstract

Senduro goats, a local breed of meat and dairy goats from Indonesia, are recognized for their significance in improving goat breeding and preserving valuable genetic resources. However, limited information exists regarding the reproductive physiology of Senduro goats, which poses challenges to the development of breeding programs and the preservation of genetic resources. This study aimed to investigate the morphological and reproductive profiles of male Senduro goats at different ages, focusing on morphological characteristics, mating behavior, and sperm quality. Morphological characteristics are assessed through body length measurements, while mating behavior serves as an indicator of reproductive behavior. Macroscopic evaluations of sperm quality include assessments of color, viscosity, pH, and volume, while microscopic examinations encompass motility (mass and individual), viability, and spermatozoa membrane integrity. The results showed morphological similarities between juvenile and adult samples, with their testicular size being the only significant difference. Based on macroscopic and microscopic examinations, no significant differences were found between groups. From the results it was concluded that there were no distinct differences in morphological characteristics, mating behavior, and sperm quality between male Senduro goats in the juvenile and adult stages. [ABSTRACT FROM AUTHOR]

Published

2023

43. Molecular data confirm Monolepta hieroglyphica (Motschulsky, 1858) and M. quadriguttata (Motschulsky, 1860) being synonyms of M. signata (Oliver, 1808).

Author

Ge, Yacong, Shi, Chengmin, Bai, Ming, Cao, Zhiyan, Cao, Liping, Wang, Zhenying, Dong, Jingao, and Wang, Yuyu

Subjects

*SYNONYMS, *ANIMAL sexual behavior, *GENETIC distance, *HAPLOTYPES, *BAYESIAN analysis

Abstract

Monolepta hieroglyphica (Motschulsky, 1858) has been recently revised as the synonym of M. signata (Oliver, 1808) based on morphological characteristics. M. quadriguttata (Motschulsky, 1860) was synonymized with M. signata over 100 years ago. However, this synonymy has not be confirmed by molecular data. This widely distributed and abundant species shows a high variability in coloration patterns that caused numbers of synonyms. We selected color forms typical for the three nominal taxa for phylogenetic analysis. The phylogenetic, haplotype and genetic differentiation analysis of M. hieroglyphica, M. quadriguttata and M. signata were constructed to determine the relationships between them, and we also found mating behavior between them. They were intermixed together on phylogenetic trees, and M. hieroglyphica and M. quadriguttata had shared haplotype. There was no significant difference among them for genetic distance, and the synonymy of the three names based on external and genital characters can be confirmed by molecular data. [ABSTRACT FROM AUTHOR]

Published

2023

44. Lateralized Movements during the Mating Behavior, Which Are Associated with Sex and Sexual Experience, Increase the Mating Success in Alphitobius diaperinus (Coleoptera: Tenebrionidae).

Author

Calla-Quispe, Erika, Irigoin, Esperanza, Mansurova, Madina, Martel, Carlos, and Ibáñez, Alfredo J.

Subjects

*ANIMAL sexual behavior, *TENEBRIONIDAE, *POULTRY diseases, *INSECT behavior, *BEETLES, *HUMAN sexuality, *ANIMAL courtship

Abstract

Simple Summary: Lateralization in mating behavior seems to be a common feature among insects, including some pest species. The poultry pest, Alphitobius diaperinus, has a mating behavior and success that is affected by the interplay between its sexual identity and sexual experience. Although it is expected that the directionality of the displacement (i.e., lateralization and non-lateralization) during the mating display affects the mating success in A. diaperinus, it is unknown whether this is the case. In the present study, we evaluated how lateralized and non-lateralized movements of A. diaperinus adults affect mate success in relation to the sex and sexual experience of the mating pairs. The study highlights the impact of lateralization in mating behavior and the superior skills of experienced males to achieve mating success, which seems to be related to beetle learning. Our study addresses the importance of learning in improving beetle fitness and contributes to the growing understanding of lateralized behavior on insect mating behavior. This finding enhances our comprehension of these pests, potentially contributing to the eventual mitigation of their infestation within the poultry facility. In the present study, we explored the effects of displacement directionality in mating behavior (i.e., lateralized and non-lateralized movements) on mating success (i.e., copulation occurs) and efficiency (i.e., time length at which copulation is achieved), and its association with sex and sexual experience in A. diaperinus. To do so, we carried out mating experiments and recorded the behavior of the mating pair during the whole mating sequence (i.e., precopulatory and copulatory phases). During the precopulatory phase, independently of sex and sexual experience, all beetles performed non-lateralized (i.e., backside or frontside) approaches; however, only sexually experienced beetles showed lateralized approaches (i.e., right-side and left-side). Notably, experienced males exhibited greater mating success than virgin males. After the approach, both virgin and experienced males displayed lateralized and non-lateralized mounts on the females with distinct mating success. Regardless of their sexual experience, 100% of successful mating attempts were achieved when males mounted from the females' right side. Furthermore, the development of lateralized approaches and mounts reduces the time of mating sequence span compared with non-lateralized behaviors. We highlight the importance of lateralization in mating behavior and sexual experience to achieve higher mating success, addressing a potential learning ability of beetles based on experience. [ABSTRACT FROM AUTHOR]

Published

2023

45. GnIH/GnIHR调控卵胎生许氏平鲉交配行为相关基因表达的研究.

Author

姚一甲, 温海深, 吕里康, 王孝杰, 李键爽, 谢颂扬, 左陈鹏, 闫少静, 王志军, and 齐 鑫

Abstract

Copyright of Journal of Hydrobiology is the property of Editorial Department of Journal of Hydrobiology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

46. Phenological Stages of a Soybean Crop Affect the Number of Mating Pairs and Egg Load in Rhyssomatus nigerrimus (Coleoptera: Curculionidae) Females under Natural Conditions.

Author

López-Guillén, G., Ruiz, J. Gómez, Cruz-López, L., Joyce, A., Hernández-Baz, F., Aragón-Robles, E., and Alaniz, R. Hernández

Subjects

*CURCULIONIDAE, *BEETLES, *CROPS, *EGGS, *HUMIDITY

Abstract

The soybean weevil, Rhyssomatus nigerrimus Fahraus (Coleoptera: Curculionidae), is an economically important pest that attacks soybean (Glycine max [L.] Merrill) crops in northern and southern Mexico. Knowledge of bioecological and behavioral aspects of this insect can contribute to developing integrated management strategies for its control. This study aimed to register the number of mating R. nigerrimus pairs during different phenological stages of the soybean crop and at different times of day, as well as to determine the egg load in R. nigerrimus females during different phenological stages of the crop. During the soybean vegetative stages (VE to V5) and reproductive stages (R1 to R3), no copulating R. nigerrimus pairs were observed. The first mating pairs were found from phenological stage R4 to phenological stage R9. Rhyssomatus nigerrimus pairs were observed mating from 7:00 AM to 5:30 PM, with the largest number of mating pairs between 11:30 AM to 2:30 PM. The number of copulating R. nigerrimus pairs correlated positively with the temperature and negatively with relative humidity. In the ovaries of female R. nigerrimus collected in the field at different phenological stages, eggs started appearing at the phenological stage R5. The largest egg load was found in females collected during the phenological stage R7.1. El picudo de la soya, Rhyssomatus nigerrimus Fahraus (Coleoptera: Curculionidae), es una plaga de importancia económica que ataca cultivos de soya (Glycine max [L.] Merrill) del norte y sur de México. Conocer aspectos sobre la bioecología y comportamiento de este insecto puede ayudar a desarrollar estrategias de manejo integrado para su control. El objetivo del presente fue registrar el número de parejas de R. nigerrimus en cópula en diferentes etapas fenológicas del cultivo de soya y en diferentes horas del día; así como determinar carga de huevos corionados en las hembras de R. nigerrimus en diferentes etapas fenológicas del cultivo de soya. Durante las etapas vegetativas del cultivo de soya (VE a V5) y reproductivas (R1 a R3), no se observaron parejas de R. nigerrimus copulando. Las primeras parejas en cópula, se encontraron a partir de la etapa fenológica R4 hasta la etapa fenológica R9. Se observaron parejas de R. nigerrimus en cópula desde las 7:00 a. m. a 5:30 p. m., con la mayor cantidad de parejas en cópula entre 11:30 a. m. y 2:30 p. m. La cantidad de parejas de R. nigerrimus en cópula se correlacionó de manera positiva con la temperatura y de manera negativa con humedad relativa. En los ovarios de las hembras de R. nigerrimus recolectadas en campo en diferentes etapas fenológicas, se comenzaron a encontrar huevos corionados a partir de la etapa fenológica R5. La mayor carga de huevos fue encontrada en hembras recolectadas en la etapa fenológica R7.1. [ABSTRACT FROM AUTHOR]

Published

2023

47. 久米島におけるタイワンシラホシトリバとシラホシトリバ（トリバガ科）の群飛行動 の観察

Author

川畑春佳

Subjects

*ANIMAL sexual behavior, *GRAPES, *MOTHS, *SPECIES, *ISLANDS

Abstract

Two pterophorid species, Deuterocopus socotranus and D. albipunctatus, are recorded from Kumejima Island, Okinawa, Japan for the first time. The two species were exhibiting swarming behavior in Kadekaru, Kumejima Island. Groups of 10-20 moths were observed at a height of 1-2 m above the ground and 10-30 cm above the plants Ampelopsis glandulosa and Vitis ficifolia (Vitaceae). The behavior was documented at 1600-1700 hrs from July to October 2022. The swarming moths were primarily males, with many fewer females observed. It is uncertain whether swarming groups consisted of one or two similar species. The swarming may be mating behavior. [ABSTRACT FROM AUTHOR]

Published

2023

48. Sex Steroid Effects on Sex Differences in Xenopus laevis Brain and Reproductive Behavior

Author

Nguyen, Alina

Subjects

Biology, Endocrinology, Neurosciences, Environmental contaminants, Mating behavior, Sex differences, Sex steroids, Vasotocin, Xenopus laevis

Abstract

Sex steroids such as testosterone (T) and estradiol (E2) establish structural differences between sexes during sensitive periods of development. These structural changes take place in hormone-sensitive tissues such as the gonads, brain, and larynx, and these structural changes lead to differences in sex and behavior depending on the absence or presence of these sex steroid hormones. For example, the presence of E2 during early development of male rodents masculinizes their brain and can lead to sexually dimorphic brain regions such as the SDN-POA. The difference in brain region size indicates the significance of the SDN in sexually dimorphic traits such as male mating behavior.Studying the presence or absence of hormones can be done through exposure to hormone-altering chemical reagents. For example, T levels can be increased by exposure to flutamide (an antiandrogen) or decreased by exposure to DHT. Likewise, E2 levels can be increased through tamoxifen (an E2 antagonist) or increased through atrazine, an aromatase inducer. Altering the hormone exposure of individuals will allow us to then observe differences in brain and behavior. Sex steroid effects of hormones on sex differences can be observed through an environmental context. For example, the species Xenopus laevis is a widely studied model system for development. Male X. laevis treated with atrazine were outcompeted by control males for amplexus with females. However, removing competition allowed atrazine-treated males to engage in amplexus behavior.I observed how altered T and E2 levels affect mating roles in amplexus. In amplexus, the male-typical role is to clasp during mating behavior and the female-typical role is to show receptivity. When treated males were paired with sexually primed females, I tested whether hormone exposure affected the male-typical role to clasp in amplexus. When treated males were sexually primed then paired with males, I tested whether the treated male exhibited the female-typical role (to be receptive in amplexus). Likewise, when treated females were paired with sexually primed females, I tested for alterations to male-typical role in amplexus, and when treated females were sexually primed then paired with males, I tested for alterations to female-typical role in amplexus.Brain neuropeptide differences were explored to link sex steroid effects of hormones on the brain to behavioral sex differences. Sex steroid effects of hormones may impact sex differences in behavior through structural differences within the brain. The neuropeptide of interest, vasotocin (AVT), is involved in amphibian reproductive behaviors and AVT-IR cell size is sexually dimorphic. AVT-IR cell number and individual cell area were compared across sex and exposure groups and correlated with amplexus behavior to link sex steroid effects of hormones on the brain to behavior.Lastly, a study site offered the opportunity to study how environmental factors affect reproductive hormones in X. laevis. Two sources of frogs exist in the same river in San Diego, CA where one source lives treated with run-off downstream of a golf course, and the other source lives untreated upstream of the golf course. Hormone levels of frogs were measured over years to establish hormonal differences between sources. These studies provide insight into year-to-year changes between sites and sexes and emphasize the importance for multi-year studies in research related to studying environmental effects on physiology.The significance of my work on Xenopus laevis will bring attention to the role of sex steroid effects on brain and reproductive behavior in the context of unique study systems through exposure of hormone-altering reagents. Contributions to the fields of endocrinology and reproductive behavior can be made by providing more consideration to sex steroid effects in understudied contexts, such as studying female mating behavior in addition to (and not only) male mating behavior. In addition, careful consideration for multimodal factors of sex that lead to sex differences can encourage studies in research areas that may often overlook or neglect sex differences.

Published

2024

49. Influence of Food on Reproductive Behavior in Drosophila melanogaster

Author

Adriana-Sebastiana Musca, Alexandru Marius Deac, Gabriela Maria Baci, Ileana Miclea, Stefania Dana Coldea, and Marius Zahan

Subjects

drosophila melanogaster, fruit fly, feeding behavior, diet, mating behavior, Agriculture, Technology, Science

Abstract

In a constantly changing environment, animals are forced to make crucial behavioral choices for survival. Food determines whether wild animals evolve, whether populations decline, or how ecological groups are structured. Animals have the ability to adapt their nutritional needs according to the availability of food, they detect and assimilate nutrients. Drosophila melanogaster, the fruit fly, is considered an important model for various studies. For example, in nutrition research and for understanding the mechanisms of human disease. In this study, we have provided an overview of fruit fly feeding behavior, how diet influences mating behavior and what volatiles attract flies. We show that mating behavior is very closely related to food and that egg laying is influenced by yeast, a very important source of protein.

Published

2024

50. Identification and Functional Analysis of the fruitless Gene in a Hemimetabolous Insect, Nilaparvata lugens

Author

Biyun Wang, Zeping Mao, Youyuan Chen, Jinjun Ying, Haiqiang Wang, Zongtao Sun, Junmin Li, Chuanxi Zhang, and Jichong Zhuo

Subjects

Nilaparvata lugen, fruitless, doublesex, wing flapping, mating behavior, Science

Abstract

The fruitless (fru) gene functions as a crucial “tuner” in male insect courtship behavior through distinct expression patterns. In Nilaparvata lugens, our previous research showed doublesex (dsx) influencing male courtship songs, causing mating failures with virgin females. However, the impact of fru on N. lugens mating remains unexplored. In this study, the fru homolog (Nlfru) in N. lugens yielded four spliceosomes: Nlfru-374-a/b, Nlfru-377, and Nlfru-433, encoding proteins of 374aa, 377aa, and 433aa, respectively. Notably, only Nlfru-374b exhibited male bias, while the others were non-sex-specific. All NlFRU proteins featured the BTB conserved domain, with NlFRU-374 and NlFRU-377 possessing the ZnF domain with different sequences. RNAi-mediated Nlfru or its isoforms’ knockdown in nymph stages blocked wing-flapping behavior in mating males, while embryonic knockdown via maternal RNAi resulted in over 80% of males losing wing-flapping ability, and female receptivity was reduced. Nlfru expression was Nldsx-regulated, and yet courtship signals and mating success were unaffected. Remarkably, RNAi-mediated Nlfru knockdown up-regulated the expression of flightin in macropterous males, which regulated muscle stiffness and delayed force response, suggesting Nlfru’s involvement in muscle development regulation. Collectively, our results indicate that Nlfru functions in N. lugens exhibit a combination of conservation and species specificity, contributing insights into fru evolution, particularly in Hemiptera species.

Published

2024