Contents 1 Male mating tactics 2 Roles 3 Characteristics 4 Sexual pheromones 5 Acoustic and visual signals 6 References

Male mating tactics[edit] Bee swarm The amount of space accessible and the time both male and female usually determines the site of copulation. Many hymenopteran males constantly fly around specific sites, usually the tops of tall trees, summits, or along hedges, where approachable females are found as they can also be resources visited by females for the purpose of feeding. In honey bee the queens join the mating area alone and are then pursued by a dynamic swarm of males. Those located in the front of the line usually achieve reproduction success. A queen usually mates with twelve males on an average of two mating flights and stores the sperm throughout her entire lifetime. Colonies sustain thousands of males but only a few queens, so only very few males are able to successfully mate with the queen.[3]

Roles[edit] Abedus indentatus belostomatid male with eggs on its back Males can be choosier than females. As an offering, males are capable of providing nuptial gifts secretions, which can be more expensive than female reproductive investment,[1] parental care, where the reproductive costs in males are higher than in females because they invest large quantities of resources and time after egg fertilization, and foraging and nesting sites to the females. Moreover, these factors decrease their subsequent male reproductive opportunities, and the availability of males. An example of male parental care can be found in belostomatid water bugs, where the male, after fertilizing the eggs, allows the female to glue her eggs onto his back. He broods them until the nymphs hatch 2–4 weeks later. The eggs are large and reduce the ability of the male to fertilize other females and catch prey, and increases its predation risk.[4] Females are usually in conflict over the acquisition of resources and also tend to compete for male provided resources, thus generating a sex role reversal. Females compete to monopolize parental care,[5] and displace rivals with claspers that appear to be specialized in keeping their hold on males, avoiding takeover attempts by other females.

Characteristics[edit] Male-to-male competition for access to females and for resources that the females require for themselves and their offspring is common and can explain the morphological phenotypic traits and behaviors, such as large body size, weapons, territoriality, and early sexual maturation that increase their possibilities of gaining access to the females.[6] In many social insects, larger males are more competitive and tend to monopolize females or the resources that they need. In bees, females may choose males who are faster, more agile, or more persistent fliers. Sequestering of females and forced copulation may also favor large male size. Males with longer horns and mandibles can use them to fight, or for take over attempts when rivals are copulating. In beetle species, the male horns can be as long as the male’s body. Early sexually mature males can start their reproductive life before the rest of the male population. Under scramble competition to inseminate females, the early matured males are smaller but can be favored in some cases where courtship occurs on the ground and attain the highest reproductive success. Thus, in the fly Drosophila suboscura, smaller males are better than large males at tracking females during the courtship dance.[7] Green-veined white butterfly Mantis The effect of mating on female fitness may vary depending upon the kind of benefit that the females receive from males through of their choices. Direct benefits include nutritional resources to be used by females, donation of foods to mates, males offering prey to the female, seen in scorpion flies and dance flies. Several orthopteran species, butterflies, flies, and beetle males can donate secretions or nutritional substances to the females which are transferred in the ejaculate or produced by male glands which can contribute to increase female fecundity. In the green-veined white (Pieris napi), a virgin male can transfer an ejaculate containing 14% nitrogen by dry mass. Females utilize the nutrients transferred from the male in order to increase their nutrients. These nutrients essentially contribute to ensure successful egg production. A positive relationship between the amount of ejaculate material received and lifetime reproductive output, as male-transferred material increases female longevity. Male-transferred material also increases female longevity. In some insect species, males can donate some body parts to females such as the leg spurs or the fleshy hindwings of jumped-winged crickets, or they may be completely cannibalized, as occurs in mantis and some dipterous, as well as in some Arachnida scorpions and spider species.[2]

Sexual pheromones[edit] Queen butterfly Sexual pheromones are defined as odors and are one of the prevalent ways in which social male insects find females to mate with. They can be produced in either males or females. The central roles of pheromones are to trigger behavioral interactions between the two sexes.[8] Ultimately, this brings the sexes together for mating purposes. In addition, females discriminate against mates by the judgment of their sex pheromones.[9] Courtship pheromones are issued in many cases by males. In the queen butterfly Danaus gilippus and the Arctic moth Utetheisa ornatrix, the chemical stimulation of the female is necessary for male mating success.[1]

Acoustic and visual signals[edit] Firefly See also: Signalling theory In species such as the Coleopteran family Lampyridae, the males fly in the darkness and emit a species-species specific pattern of light flashes, which are answered by perching receptive females. The color and temporal variation of the flash contribute to the success in attracting females.[10] Acoustic signals are produced by many groups including several orthopeteran species, neuropterida, cicadas, flies, cave planthroppers, leaf hoppers, and tree hoppers. In crickets and other Orthopeterans, loudness and/or uninterrupted songs often attract more females. In other insects, females may choose a mate in relation to aspects of his songs. In any case, it is possible that females compare the songs of several males before making a choice.[11] Female calling syndrome occurs when female social insects emit a typical call to the males in close proximity to their natal nests. Males that are attracted by the callings fly extensively in pursuit of potential mates. Their gasters raise and stings start to protrude. The venom glands are a basis of a chemical male attractant. In Xenomyrmex floridanus, the queen’s venom glands and gasters both attracted males and prompted copulation.[9]

References[edit] ^ a b c Castillo, R. C. M ES PL C E O – PL C E O –. VI, ^ a b Sturtevant, B. Y. A. H. Essays on Evolution in Social Insects. On The Effects of Selection on Social Insects. 13, 74–76 (2013) ^ Guide, T. R. Social Insects : Bees, Wasps, Ants and Termites Teacher Resource Guide. (2011) ^ Press, C. & Sciences, B. Selection and Social Insects Social insects provide the most surprising predictions and satisfying. 48, 165–175 (2013) ^ Island, S. Sex Ratios in Field Populations of Reticulitermes spp. (Isoptera) ^ Nonacs, P. Kinship, greenbeards, and runaway social selection in the evolution of social insect cooperation. 2011, (2011) ^ Baer, B. Bumblebees as model organisms to study male sexual selection in social insects. Behavioral Ecology and Sociobiology 54, 521–533 (2003) ^ Couvillon, M. J. et al. Sexual selection in honey bees: colony variation and the importance of size in male mating success. Behavioral Ecology 21, 520–525 (2010) ^ a b Herbers, J. M. Darwin’s “one special difficulty”: celebrating Darwin 200. Biology letters 5, 214–7 (2009) ^ Couvillon, M. J. et al. Sexual selection in honey bees: colony variation and the importance of size in male mating success. Behavioral Ecology 21, 520–525 (2010 ^ Tarpy, D. R., Nielsen, R. & Nielsen, D. I. A scientific note on the revised estimates of effective paternity frequency in Apis. Insectes Sociaux 51, 203–204 (2004) v t e Eusociality Topics Evolution of eusociality Presociality Social insects Gamergate Group selection Haplodiploidy Identity in social insects Kin recognition Kin selection Sexual selection in social insects Thelytoky Worker policing Groups Hymenoptera Ant Apidae Crabronidae Halictidae Honey bee Vespidae Mammalia Blesmol Dwarf mongoose Meerkat Crustacea Synalpheus Thysanoptera Kladothrips Hemiptera Aphididae Coleoptera Austroplatypus incompertus Isoptera In culture Bee (mythology) Pioneers, works Karl von Frisch The Dancing Bees 1927 Charles Duncan Michener The Bees of the World 2000 E. O. Wilson The Ants 1990 Sociobiology: The New Synthesis 1975 Retrieved from "" Categories: Sexual selectionInsect behavior

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