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Superregnum: Eukaryota
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Cladus: Protostomia
Cladus: Ecdysozoa
Cladus: Panarthropoda
Phylum: Arthropoda
Subphylum: Hexapoda
Classis: Insecta
Cladus: Dicondylia
Subclassis: Pterygota
Cladus: Metapterygota
Infraclassis: Neoptera
Cladus: Eumetabola
Cladus: Paraneoptera
Superordo: Condylognatha
Ordo: Hemiptera
Subordo: Heteroptera
Infraordo: Gerromorpha
Superfamilia: Gerroidea

Familia: Gerridae
Subfamilia: Gerrinae
Tribus: Gerrini
Genus: Gerris
Subgenera: Gerris – Gerriselloides
Name

Gerris Johann Christian Fabricius, 1794: 187

Type species: Cimex lacustris Linnaeus, 1758; fixation: subsequent designation by Latreille 1810: 434 BHL

References
Primary references

Fabricius, J.C. 1794. Entomologia systematica emendata et aucta. Secundum classes, ordines, genera, species adjectis synonimis, locis, observationibus, descriptionibus. 4 Christ. Gottl. Proft, Hafniae. 472 pp. BHL Reference page.
Latreille, P.A. 1810. Considérations générales sur l'ordre naturel des animaux composant les classes des crustacés, des arachnides, et des insectes : avec un tableau méthodique de leurs genres, disposés en familles. Paris: Schoell, 444 pp. BHL Reference page.

Links

Gerris Taxon details on Fauna Europaea

Gerris is a bug genus in the family Gerridae (water striders).[1][2]

Species

The genus Gerris contains 43 species in 3 subgenera:[3]
Subgenus Gerris

Gerris alacris Hussey, 1921
Gerris angulatus Lundblad, 1934
Gerris argentatus Schummel, 1832
Gerris argenticollis Parshley, 1916
Gerris babai Miyamoto, 1958
Gerris brasili Poisson, 1941
Gerris buenoi Kirkaldy, 1911
Gerris caucasicus Kanyukova, 1982
Gerris comatus Drake and Hottes, 1925
Gerris costae (Herrich-Schäffer, 1850)
Gerris curvus Tran & J.T. Polhemus, 2012
Gerris firmus Drake & Harris, 1938
Gerris gibbifer Schummel, 1832
Gerris gillettei Lethierry and Severin, 1896
Gerris gobanus Poisson, 1940
Gerris incognitus Drake and Hottes, 1925
Gerris incurvatus Drake and Hottes, 1925
Gerris insperatus Drake and Hottes, 1925
Gerris kabaishanus Linnavuori, 1998
Gerris lacustris (Linnaeus, 1758)
Gerris latiabdominis Miyamoto, 1958
Gerris lobatus Andersen & Chen, 1993
Gerris maculatus Tamanini, 1946
Gerris marginatus Say, 1832
Gerris nepalensis Distant, 1910
Gerris odontogaster (Zetterstedt, 1828)
Gerris pingreensis Drake and Hottes, 1925
Gerris sphagnetorum Gaunitz, 1947
Gerris thoracicus Schummel, 1832
Gerris zuqualanus Poisson, 1949

Subgenus Gerriselloides

Gerris asper (Fieber, 1860)
Gerris brachynotus Horváth, 1907
Gerris kiritshenkoi Kanyukova, 1979
Gerris lateralis Schummel, 1832

Subgenus Macrogerris

Gerris cui Esaki, 1925
Gerris gracilicornis Horváth, 1879
Gerris insularis Motschulsky, 1866
Gerris issikii Miyamoto, 1961
Gerris lundbladi Andersen & Chen, 1993
Gerris tigrinus Brown, 1949
Gerris yezoensis Miyamoto, 1958


Mating system
Male grappling on top of the female in an attempt to force copulation

Species of genus Gerris demonstrate a high degree of female control over most aspects of mating and there is significant evidence that supports antagonistic coevolution, and the convenience polyandry hypothesis of multiple matings.[4][5] There is evidence to suggest that the post-copulatory guarding exhibited by Gerris buenoi - and other species of Gerris - is a form of a direct (material) benefit that females take advantage of to reduce superfluous matings.[6][4]
"Moving of mating Water Striders (Gerris argentatus), weigh about 0.00002 lb created surface waves (Ripples) in a pond. The striders are out of focus (on purpose), but you could see their shadows, the hairs at their legs and the sun reflected from their footprints" - Brocken Inaglory. The ripples attract predators.

Male persistence is often detrimental to female fitness as male species of Gerris harass females.[4][5] This is believed to be the result of males having a lower number of available mates and therefore, have a reduced fitness.[7] Females are at risk of predation during mating attempts as males mount the female in an attempt to mate and tap their legs on the surface of the water to attract predators.[8] Females respond in turn, creating a pre-copulatory struggle in which they try to perform backwards somersault-like movements to break free of the male grapple.[9] If unsuccessful, female species of Gerris will resort to mating with the male as the cost of rejecting the male advances (death by predation) outweighs the cost of mating out of convenience.[4][9]
File:Female-Genitalia-Concealment-Promotes-Intimate-Male-Courtship-in-a-Water-Strider-pone.0005793.s007.ogvPlay media
An example of genitalia shielding and the courting that males do instead of the usual forced copulation attempts.

As a result of the tactics employed by both species there is evidence of rapid evolution between the sexes in a persistence-resistance form of sexual conflict.[5] The sexes of species of genus Gerris compete between each other in an "arms race" behaviour where males and females have varying traits that serve to increase their own fitness over the other.[5] Males evolved to harass females by chasing and lunging in an attempt to grapple the female for copulation, and females evolved mechanisms such as genital shielding, evasive maneuvers, and attempting to fight even when grappled. However, evading and fighting are quite costly for females and will give in if the costs of resistance outweigh the cost of mating.[5][4] Genital shielding can best be seen in G. gracilicornis and a male will have a hard time at inserting his genitalia unless the female protrudes her genitalia out.[10] Males have evolved to overcome this mechanism by attempting an intimate courtship instead of forceful mating, as well as a more hostile approach: attracting predators to force mating with females.[4][10][5] The rationale behind attracting predators to force mating is due to how copulation occurs: a male will attempt to mount a female on the surface water;it is the female that is at most risk from insect-eating fish and water dwelling predators.[4][10][5][9]

After copulation, males continue to rest on top of females for some period of time - this is what is known as guarding duration.[4][7] It can be hypothesized that when superfluous matings are plenty, females will extend this guarding duration by allowing the male to rest upon her for some time which in turn prevents harassment from other males. It is worth noting that this also incurs costs for the female as they must exert energetic costs to compensate for the passive male on her back, and that this might not be an effective tactic for females in the long run.[7][11]

Water striders, and more specifically those that fall under the genus Gerris are a model organism for studying sexual conflict as they have clear costs associated with their actions. They have great use as a control group when comparing to other organisms where it is more unclear as what is occurring.
Former species

Gerris ampla reclassified as Aquarius amplus (Drake and Harris, 1938)
Gerris canaliculatus reclassified as Limnoporus canaliculatus (Say, 1832)
Gerris conformis reclassified as Aquarius conformis (Uhler, 1878)
Gerris dissortis reclassified as Limnotrechus dissortis (Drake and Harris, 1930)
Gerris mantis reclassified as Emesa mantis (Fabricius, 1794)
Gerris najas reclassified as Aquarius najas (De Geer, 1773)
Gerris nebularis reclassified as Aquarius nebularis (Drake and Hottes, 1925)
Gerris nyctalis reclassified as Aquarius nyctalis (Drake and Hottes, 1925) (now synonymized with A. remigis)
Gerris remigis reclassified as Aquarius remigis (Say, 1832)
Gerris rufoscutellatus reclassified as Limnoporus rufoscutellatus (Latreille, 1807)

References

"Gerris (Gerris) Fabricius 1794" at the Encyclopedia of Life
"Taxon profile: genus Gerris Fabricius, 1794". BioLib.
Damgaard, Jakob; Moreira, Felipe Ferraz Figuiredo; Weir, Tom A.; Zettel, Herbert (2014). "Molecular phylogeny of the pond skaters (Gerrinae), discussion of the fossil record and a checklist of species assigned to the subfamily (Hemiptera: Heteroptera: Gerridae)". Insect Systematics & Evolution. 45 (3): 251–281. doi:10.1163/1876312X-44042105.
Rowe, Locke (19 September 1991). "Convenience polyandry in a water strider: foraging conflicts and female control of copulation frequency and guarding duration". Animal Behaviour. 44: 189–202. doi:10.1016/0003-3472(92)90025-5. S2CID 53185546.
Rowe, Locke; Arnqvist, Goran (2002). "Sexually Antagonistic Coevolution in a Mating System: Combining Experimental and Comparative Approaches to Address Evolutionary Processes". Evolution. 56 (4): 754–767. doi:10.1111/j.0014-3820.2002.tb01386.x. PMID 12038533.
Pandey, Omkar P. (2010). "Benefits of polyandry in Parthenium beetle, Zygogramma bicolorata Pallister (Coleoptera: Chrysomelidae)". Journal of Asia-Pacific Entomology. 13 (2): 151–155. doi:10.1016/j.aspen.2010.01.001.
Arnqvist, Goran (1992). "Pre-copulatory fighting in a water strider - inter-sexual conflict or mate assessment". Animal Behaviour. 43 (4): 559–567. doi:10.1016/s0003-3472(05)81016-4. S2CID 53173218.
Han, Chang S.; Jablonski, Piotr G. (2010). "Male water striders attract predators to intimidate females into copulation". Nature Communications. 1: 52. doi:10.1038/ncomms1051. PMC 2964456. PMID 20975717.
Arnqvist, Goran (1989). "Sexual selection in a water strider: the function, nature of selection and heritability of a male grasping apparatus". Oikos. 56: 344–350. doi:10.2307/3565619. JSTOR 3565619.
Han, Chang S.; Jablonski, Piotr G. (2009). "Female Genitalia Concealment Promotes Intimate Male Courtship in a Water Strider". PLOS ONE. 4 (6): e5793. doi:10.1371/journal.pone.0005793. PMC 2686155. PMID 19516886.
Arnqvist, Goran (1989). "Arnqvist, G. 1989b. Multiple mating in a water strider: mutual benefits or intersexual conflict?". Animal Behaviour. 38: 749–856. doi:10.1016/s0003-3472(89)80107-1. S2CID 54254489.

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