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Wolf spider

January 01, 1970

Wolf spiders are members of the family Lycosidae (from Ancient Greek λύκος (lúkos) 'wolf'). They are robust and agile hunters with excellent eyesight. They live mostly in solitude, hunt alone, and usually do not spin webs. Some are opportunistic hunters, pouncing upon prey as they find it or chasing it over short distances; others wait for passing prey in or near the mouth of a burrow.

Wolf spiders
Temporal range: Paleogene–present
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Araneae
Infraorder: Araneomorphae
Superfamily: Lycosoidea
Family: Lycosidae
Sundevall, 1833
Diversity
129 genera, 2457 species
      approximate global range

Wolf spiders resemble nursery web spiders (family Pisauridae), but wolf spiders carry their egg sacs by attaching them to their spinnerets, while the Pisauridae carry their egg sacs with their chelicerae and pedipalps. Two of the wolf spider's eight eyes are large and prominent; this distinguishes them from nursery web spiders, whose eyes are all of roughly equal size. This can also help distinguish them from the similar-looking grass spiders.

Description edit

 
Eye configuration of a Hogna species

The many genera of wolf spiders range in body size (legs not included) from less than 10 to 35 mm (0.4 to 1.38 in).[1][2] They have eight eyes arranged in three rows. The bottom row consists of four small eyes, the middle row has two very large eyes (which distinguishes them from the Pisauridae), and the top row has two medium-sized eyes. Unlike most other arachnids, which are generally blind or have poor vision, wolf spiders have excellent eyesight.

The tapetum lucidum is a retroreflective tissue found in eyes. This reflective tissue is only found in four[3] secondary eyes of the wolf spider. Flashing a beam of light over the spider produces eyeshine; this eyeshine can be seen when the lighting source is roughly coaxial with the viewer or sensor.[4] The light from the light source (e.g., a flashlight or sunlight) has been reflected from the spider's eyes directly back toward its source, producing a "glow" that is easily noticed. Wolf spiders possess the third-best eyesight of all spider groups, bettered by jumping spiders of the family Salticidae (which can distinguish colors) and the huntsman spiders of the family Sparassidae.

 
Dorsal aspect of Hogna lenta, a typical wolf spider
 
A female wolf spider carrying her young on her back

Wolf spiders are unique in the way that they carry their eggs. The egg sac, a round, silken globe, is attached to the spinnerets at the end of the abdomen, allowing the spider to carry her unhatched young with her. The abdomen must be held in a raised position to keep the egg case from dragging on the ground. Despite this handicap, they are still capable of hunting. Another aspect unique to wolf spiders is their method of care of young. Immediately after the spiderlings emerge from their protective silken case, they clamber up their mother's legs and crowd onto the dorsal side of her abdomen. The mother carries the spiderlings for several weeks before they are large enough to disperse and fend for themselves.

Because they depend on camouflage for protection, they do not have the flashy appearance of some other kinds of spiders. In general, their coloration is appropriate to their favorite habitat.

Hogna is the genus with the largest of the wolf spiders. Among the Hogna species in the U.S., the nearly solid dark brown H. carolinensis (Carolina wolf spider) is the largest, with a body that can be more than 2.5 cm (1 in) long. It is sometimes confused with H. helluo, which is somewhat smaller and different in coloration. The underside of H. carolinensis is solid black, but the underside of H. helluo is variegated and has reds, oranges, and yellows with shades of black.

Some members of the Lycosidae, such as H. carolinensis, make deep, tubular burrows in which they lurk much of the time. Others, such as H. helluo, seek shelter under rocks and other shelters as nature may provide. As with spiders in general, males of almost any species can sometimes be found inside homes and buildings as they wander in search for females during the autumn.

Wolf spiders play an important role in natural population control of insects and are often considered "beneficial bugs" due to their predation of pest species within farms and gardens.[5]

Venom edit

Wolf spiders inject venom if continually provoked. Symptoms of their bites include swelling, mild pain, and itching. In the past, necrotic bites have been attributed to some South American[6] and Australian[7] species, but further investigation has indicated that those problems that did occur were probably due to bites by members of other families[6] or did not induce those effects.[7]

Genera edit

Main article: List of Lycosidae species

As of June 2022, the World Spider Catalog accepts these genera:[8]

  • Acantholycosa Dahl, 1908—Asia, Europe, North America
  • Adelocosa Gertsch, 1973—Hawaii
  • Agalenocosa Mello-Leitão, 1944—South America, Oceania, Mexico, India
  • Aglaoctenus Tullgren, 1905—South America
  • Algidus New York, 1975—USA
  • Allocosa Banks, 1900—Oceania, North America, Africa, South America, Costa Rica, Asia, Europe
  • Allotrochosina Roewer, 1960—Australia, New Zealand
  • Alopecosa Simon, 1885—Asia, Europe, South America, Africa, North America, Oceania
  • Amblyothele Simon, 1910—Africa
  • Anomalomma Simon, 1890—Pakistan, Indonesia, Zimbabwe
  • Anomalosa Roewer, 1960—Australia
  • Anoteropsis L. Koch, 1878—New Zealand, Papua New Guinea
  • Arctosa C. L. Koch, 1847—Africa, Europe, Asia, South America, North America, Vanuatu
  • Arctosippa Roewer, 1960—Peru
  • Arctosomma Roewer, 1960—Ethiopia
  • Artoria Thorell, 1877—Oceania, Africa, Asia
  • Artoriellula Roewer, 1960—South Africa, Indonesia
  • Artoriopsis Framenau, 2007—Australia, New Zealand
  • Aulonia C. L. Koch, 1847—Turkey
  • Auloniella Roewer, 1960—Tanzania
  • Birabenia Mello-Leitão, 1941—Argentina, Uruguay
  • Bogdocosa Ponomarev & Belosludtsev, 2008—Asia
  • Brevilabus Strand, 1908—Ivory Coast, Senegal, Ethiopia
  • Bristowiella Saaristo, 1980—Comoros, Seychelles
  • Camptocosa Dondale, Jiménez & Nieto, 2005—United States, Mexico
  • Caporiaccosa Roewer, 1960—Ethiopia
  • Caspicosa Ponomarev, 2007—Kazakhstan, Russia
  • Costacosa Framenau & Leung, 2013—Australia
  • Crocodilosa Caporiacco, 1947—India, Myanmar, Egypt
  • Cynosa Caporiacco, 1933—North Africa
  • Dejerosa Roewer, 1960—Mozambique
  • Deliriosa Kovblyuk, 2009—Ukraine
  • Diahogna Roewer, 1960—Australia
  • Diapontia Keyserling, 1877—South America
  • Dingosa Roewer, 1955—Australia, Peru, Brazil
  • Dolocosa Roewer, 1960—St. Helena
  • Donacosa Alderweireldt & Jocqué, 1991—Spain
  • Dorjulopirata Buchar, 1997—Bhutan
  • Draposa Kronestedt, 2010—Asia
  • Dzhungarocosa Fomichev & Marusik, 2017—Kazakhstan
  • Edenticosa Roewer, 1960—Equatorial Guinea
  • Evippa Simon, 1882—Africa, Asia, Spain
  • Evippomma Roewer, 1959—Africa, Asia
  • Foveosa Russell-Smith, Alderweireldt & Jocqué, 2007
  • Geolycosa Montgomery, 1904—Africa, South America, Asia, North America, Oceania
  • Gladicosa Brady, 1987—North America
  • Gnatholycosa Mello-Leitão, 1940—Argentina
  • Gulocosa Marusik, Omelko & Koponen, 2015
  • Hesperocosa Gertsch & Wallace, 1937—United States
  • Hippasa Simon, 1885—Africa, Asia
  • Hippasella Mello-Leitão, 1944—Argentina, Peru, Bolivia
  • Hoggicosa Roewer, 1960—Australia
  • Hogna Simon, 1885—Asia, Africa, South America, North America, Caribbean, Europe, Oceania, Central America
  • Hognoides Roewer, 1960—Tanzania, Madagascar
  • Hyaenosa Caporiacco, 1940—Asia, Africa
  • Hygrolycosa Dahl, 1908—Asia, Greece
  • Karakumosa Logunov & Ponomarev, 2020—Asia
  • Kangarosa Framenau, 2010—Australia
  • Katableps Jocqué, Russell-Smith & Alderweireldt, 2011
  • Knoelle Framenau, 2006—Australia
  • Lobizon Piacentini & Grismado, 2009—Argentina
  • Loculla Simon, 1910—Iran, Africa
  • Lycosa Latreille, 1804—North America, Africa, Caribbean, Asia, Oceania, South America, Central America, Europe
  • Lycosella Thorell, 1890—Indonesia
  • Lysania Thorell, 1890—China, Malaysia, Indonesia
  • Mainosa Framenau, 2006—Australia
  • Malimbosa Roewer, 1960—West Africa
  • Margonia Hippa & Lehtinen, 1983—India
  • Megarctosa Caporiacco, 1948—Africa, Asia, Argentina, Greece
  • Melecosa Marusik, Omelko & Koponen, 2015
  • Melocosa Gertsch, 1937—North America, Brazil
  • Minicosa Alderweireldt & Jocqué, 2007—South Africa
  • Molitorosa Roewer, 1960—Brazil
  • Mongolicosa Marusik, Azarkina & Koponen, 2004—Mongolia, China
  • Mustelicosa Roewer, 1960—Ukraine, Asia
  • Navira Piacentini & Grismado, 2009—Argentina
  • Notocosa Vink, 2002—New Zealand
  • Nukuhiva Berland, 1935—Marquesas Is.
  • Oculicosa Zyuzin, 1993—Kazakhstan, Uzbekistan, Turkmenistan
  • Ocyale Audouin, 1826—Africa, Peru, Asia
  • Orinocosa Chamberlin, 1916—South America, Africa, Asia
  • Ovia Sankaran, Malamel & Sebastian, 2017—India, China, Taiwan
  • Paratrochosina Roewer, 1960—Argentina, North America, Russia
  • Pardosa C. L. Koch, 1847—Asia, Europe, South America, North America, Africa, Caribbean, Oceania, Central America
  • Pardosella Caporiacco, 1939—Ethiopia, Tanzania
  • Passiena Thorell, 1890—Africa, Asia
  • Pavocosa Roewer, 1960—Argentina, Brazil, Thailand
  • Phonophilus Ehrenberg, 1831—Libya
  • Pirata Sundevall, 1833—South America, Africa, North America, Asia, Cuba, Central America
  • Piratula Roewer, 1960—Asia, North America, Ukraine
  • Portacosa Framenau, 2017—Australia
  • Proevippa Purcell, 1903—Africa
  • Prolycosides Mello-Leitão, 1942—Argentina
  • Pseudevippa Simon, 1910—Namibia
  • Pterartoria Purcell, 1903—South Africa, Lesotho
  • Pyrenecosa Marusik, Azarkina & Koponen, 2004—Europe
  • Rabidosa Roewer, 1960—United States
  • Satta Lehtinen & Hippa, 1979—Papua New Guinea
  • Schizocosa Chamberlin, 1904—South America, Asia, Africa, North America, Vanuatu, Central America
  • Shapna Hippa & Lehtinen, 1983—India
  • Sibirocosa Marusik, Azarkina & Koponen, 2004—Russia
  • Sosippus Simon, 1888—North America, Central America
  • Syroloma Simon, 1900—Hawaii
  • Tapetosa Framenau, Main, Harvey & Waldock, 2009
  • Tasmanicosa Roewer, 1959—Australia
  • Tetralycosa Roewer, 1960—Australia
  • Tigrosa Brady, 2012—North America
  • Trabea Simon, 1876—Africa, Spain, Turkey
  • Trabeops Roewer, 1959—North America
  • Trebacosa Dondale & Redner, 1981—Europe, North America
  • Tricassa Simon, 1910—Namibia, South Africa, Madagascar
  • Trochosa C. L. Koch, 1847—North America, Asia, Africa, South America, Oceania, Central America, Europe, Caribbean
  • Trochosippa Roewer, 1960—Africa, Indonesia, Argentina
  • Tuberculosa Framenau & Yoo, 2006—Australia
  • Varacosa Chamberlin & Ivie, 1942—North America
  • Venator Hogg, 1900—Australia
  • Venatrix Roewer, 1960—Oceania, Philippines
  • Venonia Thorell, 1894—Asia, Oceania
  • Vesubia Simon, 1910—Italy, Russia, Turkmenistan
  • Wadicosa Zyuzin, 1985—Africa, Asia
  • Xerolycosa Dahl, 1908—Asia, Tanzania
  • Zantheres Thorell, 1887—Myanmar
  • Zenonina Simon, 1898—Africa
  • Zoica Simon, 1898—Asia, Oceania
  • Zyuzicosa Logunov, 2010—Asia

Evolutionary history edit

Wolf spiders likely originated after the K–Pg extinction event sometime in the late Paleocene, with most main subfamilies likely originating during the Eocene and Early Oligocene between 41 and 32 million years ago.[9]

Habitats edit

Wolf spiders are found in a wide range of habitats both coastal and inland. These include shrublands, woodland, wet coastal forest, alpine meadows, suburban gardens, and homes. Spiderlings disperse aerially; consequently, wolf spiders have wide distributions. Although some species have very specific microhabitat needs (such as stream-side gravel beds or montane herb-fields), most are wanderers without permanent homes. Some build burrows which can be left open or have a trap door (depending on species). Arid-zone species construct turrets or plug their holes with leaves and pebbles during the rainy season to protect themselves from flood waters. Often, they are found in man-made locations such as sheds and other outdoor equipment.

Mating behavior edit

 
Female wolf spider carrying her egg sac behind her

Many species of wolf spiders possess very complex courtship behaviors and secondary sexual characteristics, such as tufts of bristles on their legs or special colorations, which are most often found on the males of the species. These sexual characteristics vary by species and are most often found as modifications of the first pair of legs.[10] First-leg modifications are often divided into elongated bristles on the legs, increased swelling of leg segments, or the full elongation of the first pair of legs compared to the other three pairs. Some mating behaviors are common between wolf spider genera, and many more that are species-specific. In the most commonly studied genus of wolf spiders, Schizocosa, researchers found that all males engage in a seismic component of their courtship display, either stridulation, or drumming their fore legs on the ground, but some also dependent on visual cues in their courtship display, as well as the seismic signaling, such as waving the front two legs in the air in front of the female, concluding that some Schizocosa species rely on multimodal courtship behaviors.[11]

The Lycosidae comprise mainly wandering spiders, and as such, population density and male-to-female sex ratio puts selective pressures on wolf spiders when finding mates. Female wolf spiders that have already mated are more likely to eat the next male that tries to mate with them than those that have not mated yet. Males that have already mated have a higher probability of successfully mating again, but females that have already mated have a lower probability of mating again.[12]

Relationship to humans edit

Though wolf spiders do bite humans, their bites are not dangerous. Wolf spider bites often result in mild redness, itching, ulcers, and if the bite wound is not cleaned it could lead to infection. However, wolf spiders usually only bite when they feel threatened or mishandled.[13]

Wolf spiders have been found to be a vital source of natural pest control for many people's personal gardens or even homes, since the wolf spider preys on perceived pests such as crickets, ants, cockroaches, and in some cases lizards and frogs.[14] In recent years, wolf spiders have been utilized as pest control in agriculture to reduce the amount of pesticides needed on crops. A notable example is the use of wolf spiders in cranberry bogs as a means of controlling unwanted crop destruction.[15]

In culture edit

South Carolina designated the Carolina wolf spider (Hogna carolinensis) as the official state spider in 2000 due to the efforts of Skyler B. Hutto, a third-grade student at Sheridan Elementary School in Orangeburg.[16]

At the time, South Carolina was the only U.S. state that recognized a state spider.[17] In 2015, efforts began to name an official state spider for neighboring North Carolina.[18]

Gallery edit

See also edit

References edit

  1. ^ "Wolf Spiders: Lycosidae Sundevall 1833". Australasian Arachnology Society. Retrieved 2 October 2008.
  2. ^ Ubick, Darrell; Paquin, Pierre; Cushing, Paula; Roth, Vincent (2017). Spiders of North America: an identification manual. Illustrated by Nadine Dupérré (2 ed.). Keene, New Hampshire: American Arachnological Society. ISBN 978-0-9980146-0-9.
  3. ^ Smith-Strickland, Kiona (8 February 2015). "This Is How to Find the Spiders That Are Staring At You in the Dark". Gizmodo.com. Retrieved 23 July 2021. Most spiders have eight eyes. In some species — mostly those that hunt for their prey, like wolf spiders — four of those eyes have a iridescent layer behind their retinas, called a tapetum.
  4. ^ 2013: [1] 2020-01-13 at the Wayback Machine "In the lycosoid spiders, the secondary eyes possess a grate-shaped tapetum lucidum that reflects light, causing eyeshine when these spiders are viewed with approximately coaxial illumination."
  5. ^ The Xerces Society (2014). Farming with Native Beneficial Insects: Ecological Pest Control Solutions. North Adams, Massachusetts: Storey Publishing. pp. 204–205. ISBN 9781612122830.
  6. ^ a b Ribeiro, L. A.; Jorge, M. T.; Piesco, R. V.; Nishioka, S. A. (1990). "Wolf spider bites in São Paulo, Brazil: A clinical and epidemiological study of 515 cases". Toxicon. 28 (6): 715–717. doi:10.1016/0041-0101(90)90260-E. PMID 2402765.
  7. ^ a b Isbister, Geoffrey K.; Framenau, Volker W. (2004). "Australian Wolf Spider Bites (Lycosidae): Clinical Effects and Influence of Species on Bite Circumstances". Clinical Toxicology. 42 (2): 153–161. doi:10.1081/CLT-120030941. PMID 15214620. S2CID 24310728.
  8. ^ "Family: Lycosidae Sundevall, 1833". World Spider Catalog. Natural History Museum Bern. Retrieved 2019-04-22.
  9. ^ Piacentini, Luis N.; Ramírez, Martín J. (2019). "Hunting the wolf: A molecular phylogeny of the wolf spiders (Araneae, Lycosidae)". Molecular Phylogenetics and Evolution. 136: 227–240. doi:10.1016/j.ympev.2019.04.004. PMID 30953780.
  10. ^ Framenau, Volker W.; Hebets, Eileen A. (April 2007). "A Review of Leg Ornamentation in Male Wolf Spiders, with the Description of a New Species from Australia, Artoria Schizocoides (Araneae, Lycosidae)". The Journal of Arachnology. 35 (1): 89–101. doi:10.1636/ST06-15.1. ISSN 0161-8202.
  11. ^ Vaccaro, Rosanna (2010). "Courtship and mating behavior of the wolf spider Schizocosa bilineata (Araneae: Lycosidae)". The Journal of Arachnology. 38 (3): 452–459. doi:10.1636/Hi09-115.1. S2CID 62890396.
  12. ^ Wilder, Shawn M.; Rypstra, Ann L. (2008-06-12). "Prior encounters with the opposite sex affect male and female mating behavior in a wolf spider (Araneae, Lycosidae)". Behavioral Ecology and Sociobiology. 62 (11): 1813–1820. doi:10.1007/s00265-008-0610-8. ISSN 0340-5443. S2CID 45562125.
  13. ^ "Wolf Spiders". extension.psu.edu. Retrieved 2023-09-06.
  14. ^ Institution, Smithsonian. "Wolf Spider". Smithsonian Institution. Retrieved 2023-09-06.
  15. ^ Bardwell, Carolyn (February 2014). "Predation behavior of spiders (Arachnida: Araneae) in Predation behavior of spiders (Arachnida: Araneae) in Massachusetts cranberry bog ecosystems".
  16. ^ "South Carolina Legislature Online - Search".
  17. ^ "Code of Laws - Title 1 - Chapter 1 - General Provisions". www.scstatehouse.gov.
  18. ^ "Session 2017, SENATE BILL 142" (PDF).

Further reading edit

  • Platnick, Norman I. (2008): The world spider catalog, version 8.5. American Museum of Natural History.

External links edit

 
Wikimedia Commons has media related to Lycosidae.
 
Wikispecies has information related to Lycosidae.
  • Wolf Spider Website Comprehensive site with info on a range of subject, from habitat, to life-cycle, to myths and facts about bites. Includes videos of Wolf Spiders in the wild and captivity (Accessed September 7, 2015)

January 01, 1970
wolf, spider, members, family, lycosidae, from, ancient, greek, λύκος, lúkos, wolf, they, robust, agile, hunters, with, excellent, eyesight, they, live, mostly, solitude, hunt, alone, usually, spin, webs, some, opportunistic, hunters, pouncing, upon, prey, the. Wolf spiders are members of the family Lycosidae from Ancient Greek lykos lukos wolf They are robust and agile hunters with excellent eyesight They live mostly in solitude hunt alone and usually do not spin webs Some are opportunistic hunters pouncing upon prey as they find it or chasing it over short distances others wait for passing prey in or near the mouth of a burrow Wolf spidersTemporal range Paleogene present PreꞒ Ꞓ O S D C P T J K Pg N Scientific classification Domain Eukaryota Kingdom Animalia Phylum Arthropoda Subphylum Chelicerata Class Arachnida Order Araneae Infraorder Araneomorphae Superfamily Lycosoidea Family LycosidaeSundevall 1833 Diversity 129 genera 2457 species approximate global range Wolf spiders resemble nursery web spiders family Pisauridae but wolf spiders carry their egg sacs by attaching them to their spinnerets while the Pisauridae carry their egg sacs with their chelicerae and pedipalps Two of the wolf spider s eight eyes are large and prominent this distinguishes them from nursery web spiders whose eyes are all of roughly equal size This can also help distinguish them from the similar looking grass spiders Contents 1 Description 2 Venom 3 Genera 4 Evolutionary history 5 Habitats 6 Mating behavior 7 Relationship to humans 8 In culture 9 Gallery 10 See also 11 References 12 Further reading 13 External linksDescription edit nbsp Eye configuration of a Hogna species The many genera of wolf spiders range in body size legs not included from less than 10 to 35 mm 0 4 to 1 38 in 1 2 They have eight eyes arranged in three rows The bottom row consists of four small eyes the middle row has two very large eyes which distinguishes them from the Pisauridae and the top row has two medium sized eyes Unlike most other arachnids which are generally blind or have poor vision wolf spiders have excellent eyesight The tapetum lucidum is a retroreflective tissue found in eyes This reflective tissue is only found in four 3 secondary eyes of the wolf spider Flashing a beam of light over the spider produces eyeshine this eyeshine can be seen when the lighting source is roughly coaxial with the viewer or sensor 4 The light from the light source e g a flashlight or sunlight has been reflected from the spider s eyes directly back toward its source producing a glow that is easily noticed Wolf spiders possess the third best eyesight of all spider groups bettered by jumping spiders of the family Salticidae which can distinguish colors and the huntsman spiders of the family Sparassidae nbsp Dorsal aspect of Hogna lenta a typical wolf spider nbsp A female wolf spider carrying her young on her back Wolf spiders are unique in the way that they carry their eggs The egg sac a round silken globe is attached to the spinnerets at the end of the abdomen allowing the spider to carry her unhatched young with her The abdomen must be held in a raised position to keep the egg case from dragging on the ground Despite this handicap they are still capable of hunting Another aspect unique to wolf spiders is their method of care of young Immediately after the spiderlings emerge from their protective silken case they clamber up their mother s legs and crowd onto the dorsal side of her abdomen The mother carries the spiderlings for several weeks before they are large enough to disperse and fend for themselves Because they depend on camouflage for protection they do not have the flashy appearance of some other kinds of spiders In general their coloration is appropriate to their favorite habitat Hogna is the genus with the largest of the wolf spiders Among the Hogna species in the U S the nearly solid dark brown H carolinensis Carolina wolf spider is the largest with a body that can be more than 2 5 cm 1 in long It is sometimes confused with H helluo which is somewhat smaller and different in coloration The underside of H carolinensis is solid black but the underside of H helluo is variegated and has reds oranges and yellows with shades of black Some members of the Lycosidae such as H carolinensis make deep tubular burrows in which they lurk much of the time Others such as H helluo seek shelter under rocks and other shelters as nature may provide As with spiders in general males of almost any species can sometimes be found inside homes and buildings as they wander in search for females during the autumn Wolf spiders play an important role in natural population control of insects and are often considered beneficial bugs due to their predation of pest species within farms and gardens 5 Venom editWolf spiders inject venom if continually provoked Symptoms of their bites include swelling mild pain and itching In the past necrotic bites have been attributed to some South American 6 and Australian 7 species but further investigation has indicated that those problems that did occur were probably due to bites by members of other families 6 or did not induce those effects 7 Genera editMain article List of Lycosidae species As of June 2022 update the World Spider Catalog accepts these genera 8 Acantholycosa Dahl 1908 Asia Europe North America Adelocosa Gertsch 1973 Hawaii Agalenocosa Mello Leitao 1944 South America Oceania Mexico India Aglaoctenus Tullgren 1905 South America Algidus New York 1975 USA Allocosa Banks 1900 Oceania North America Africa South America Costa Rica Asia Europe Allotrochosina Roewer 1960 Australia New Zealand Alopecosa Simon 1885 Asia Europe South America Africa North America Oceania Amblyothele Simon 1910 Africa Anomalomma Simon 1890 Pakistan Indonesia Zimbabwe Anomalosa Roewer 1960 Australia Anoteropsis L Koch 1878 New Zealand Papua New Guinea Arctosa C L Koch 1847 Africa Europe Asia South America North America Vanuatu Arctosippa Roewer 1960 Peru Arctosomma Roewer 1960 Ethiopia Artoria Thorell 1877 Oceania Africa Asia Artoriellula Roewer 1960 South Africa Indonesia Artoriopsis Framenau 2007 Australia New Zealand Aulonia C L Koch 1847 Turkey Auloniella Roewer 1960 Tanzania Birabenia Mello Leitao 1941 Argentina Uruguay Bogdocosa Ponomarev amp Belosludtsev 2008 Asia Brevilabus Strand 1908 Ivory Coast Senegal Ethiopia Bristowiella Saaristo 1980 Comoros Seychelles Camptocosa Dondale Jimenez amp Nieto 2005 United States Mexico Caporiaccosa Roewer 1960 Ethiopia Caspicosa Ponomarev 2007 Kazakhstan Russia Costacosa Framenau amp Leung 2013 Australia Crocodilosa Caporiacco 1947 India Myanmar Egypt Cynosa Caporiacco 1933 North Africa Dejerosa Roewer 1960 Mozambique Deliriosa Kovblyuk 2009 Ukraine Diahogna Roewer 1960 Australia Diapontia Keyserling 1877 South America Dingosa Roewer 1955 Australia Peru Brazil Dolocosa Roewer 1960 St Helena Donacosa Alderweireldt amp Jocque 1991 Spain Dorjulopirata Buchar 1997 Bhutan Draposa Kronestedt 2010 Asia Dzhungarocosa Fomichev amp Marusik 2017 Kazakhstan Edenticosa Roewer 1960 Equatorial Guinea Evippa Simon 1882 Africa Asia Spain Evippomma Roewer 1959 Africa Asia Foveosa Russell Smith Alderweireldt amp Jocque 2007 Geolycosa Montgomery 1904 Africa South America Asia North America Oceania Gladicosa Brady 1987 North America Gnatholycosa Mello Leitao 1940 Argentina Gulocosa Marusik Omelko amp Koponen 2015 Hesperocosa Gertsch amp Wallace 1937 United States Hippasa Simon 1885 Africa Asia Hippasella Mello Leitao 1944 Argentina Peru Bolivia Hoggicosa Roewer 1960 Australia Hogna Simon 1885 Asia Africa South America North America Caribbean Europe Oceania Central America Hognoides Roewer 1960 Tanzania Madagascar Hyaenosa Caporiacco 1940 Asia Africa Hygrolycosa Dahl 1908 Asia Greece Karakumosa Logunov amp Ponomarev 2020 Asia Kangarosa Framenau 2010 Australia Katableps Jocque Russell Smith amp Alderweireldt 2011 Knoelle Framenau 2006 Australia Lobizon Piacentini amp Grismado 2009 Argentina Loculla Simon 1910 Iran Africa Lycosa Latreille 1804 North America Africa Caribbean Asia Oceania South America Central America Europe Lycosella Thorell 1890 Indonesia Lysania Thorell 1890 China Malaysia Indonesia Mainosa Framenau 2006 Australia Malimbosa Roewer 1960 West Africa Margonia Hippa amp Lehtinen 1983 India Megarctosa Caporiacco 1948 Africa Asia Argentina Greece Melecosa Marusik Omelko amp Koponen 2015 Melocosa Gertsch 1937 North America Brazil Minicosa Alderweireldt amp Jocque 2007 South Africa Molitorosa Roewer 1960 Brazil Mongolicosa Marusik Azarkina amp Koponen 2004 Mongolia China Mustelicosa Roewer 1960 Ukraine Asia Navira Piacentini amp Grismado 2009 Argentina Notocosa Vink 2002 New Zealand Nukuhiva Berland 1935 Marquesas Is Oculicosa Zyuzin 1993 Kazakhstan Uzbekistan Turkmenistan Ocyale Audouin 1826 Africa Peru Asia Orinocosa Chamberlin 1916 South America Africa Asia Ovia Sankaran Malamel amp Sebastian 2017 India China Taiwan Paratrochosina Roewer 1960 Argentina North America Russia Pardosa C L Koch 1847 Asia Europe South America North America Africa Caribbean Oceania Central America Pardosella Caporiacco 1939 Ethiopia Tanzania Passiena Thorell 1890 Africa Asia Pavocosa Roewer 1960 Argentina Brazil Thailand Phonophilus Ehrenberg 1831 Libya Pirata Sundevall 1833 South America Africa North America Asia Cuba Central America Piratula Roewer 1960 Asia North America Ukraine Portacosa Framenau 2017 Australia Proevippa Purcell 1903 Africa Prolycosides Mello Leitao 1942 Argentina Pseudevippa Simon 1910 Namibia Pterartoria Purcell 1903 South Africa Lesotho Pyrenecosa Marusik Azarkina amp Koponen 2004 Europe Rabidosa Roewer 1960 United States Satta Lehtinen amp Hippa 1979 Papua New Guinea Schizocosa Chamberlin 1904 South America Asia Africa North America Vanuatu Central America Shapna Hippa amp Lehtinen 1983 India Sibirocosa Marusik Azarkina amp Koponen 2004 Russia Sosippus Simon 1888 North America Central America Syroloma Simon 1900 Hawaii Tapetosa Framenau Main Harvey amp Waldock 2009 Tasmanicosa Roewer 1959 Australia Tetralycosa Roewer 1960 Australia Tigrosa Brady 2012 North America Trabea Simon 1876 Africa Spain Turkey Trabeops Roewer 1959 North America Trebacosa Dondale amp Redner 1981 Europe North America Tricassa Simon 1910 Namibia South Africa Madagascar Trochosa C L Koch 1847 North America Asia Africa South America Oceania Central America Europe Caribbean Trochosippa Roewer 1960 Africa Indonesia Argentina Tuberculosa Framenau amp Yoo 2006 Australia Varacosa Chamberlin amp Ivie 1942 North America Venator Hogg 1900 Australia Venatrix Roewer 1960 Oceania Philippines Venonia Thorell 1894 Asia Oceania Vesubia Simon 1910 Italy Russia Turkmenistan Wadicosa Zyuzin 1985 Africa Asia Xerolycosa Dahl 1908 Asia Tanzania Zantheres Thorell 1887 Myanmar Zenonina Simon 1898 Africa Zoica Simon 1898 Asia Oceania Zyuzicosa Logunov 2010 AsiaEvolutionary history editWolf spiders likely originated after the K Pg extinction event sometime in the late Paleocene with most main subfamilies likely originating during the Eocene and Early Oligocene between 41 and 32 million years ago 9 Habitats editWolf spiders are found in a wide range of habitats both coastal and inland These include shrublands woodland wet coastal forest alpine meadows suburban gardens and homes Spiderlings disperse aerially consequently wolf spiders have wide distributions Although some species have very specific microhabitat needs such as stream side gravel beds or montane herb fields most are wanderers without permanent homes Some build burrows which can be left open or have a trap door depending on species Arid zone species construct turrets or plug their holes with leaves and pebbles during the rainy season to protect themselves from flood waters Often they are found in man made locations such as sheds and other outdoor equipment Mating behavior edit nbsp Female wolf spider carrying her egg sac behind her Many species of wolf spiders possess very complex courtship behaviors and secondary sexual characteristics such as tufts of bristles on their legs or special colorations which are most often found on the males of the species These sexual characteristics vary by species and are most often found as modifications of the first pair of legs 10 First leg modifications are often divided into elongated bristles on the legs increased swelling of leg segments or the full elongation of the first pair of legs compared to the other three pairs Some mating behaviors are common between wolf spider genera and many more that are species specific In the most commonly studied genus of wolf spiders Schizocosa researchers found that all males engage in a seismic component of their courtship display either stridulation or drumming their fore legs on the ground but some also dependent on visual cues in their courtship display as well as the seismic signaling such as waving the front two legs in the air in front of the female concluding that some Schizocosa species rely on multimodal courtship behaviors 11 The Lycosidae comprise mainly wandering spiders and as such population density and male to female sex ratio puts selective pressures on wolf spiders when finding mates Female wolf spiders that have already mated are more likely to eat the next male that tries to mate with them than those that have not mated yet Males that have already mated have a higher probability of successfully mating again but females that have already mated have a lower probability of mating again 12 Relationship to humans editThough wolf spiders do bite humans their bites are not dangerous Wolf spider bites often result in mild redness itching ulcers and if the bite wound is not cleaned it could lead to infection However wolf spiders usually only bite when they feel threatened or mishandled 13 Wolf spiders have been found to be a vital source of natural pest control for many people s personal gardens or even homes since the wolf spider preys on perceived pests such as crickets ants cockroaches and in some cases lizards and frogs 14 In recent years wolf spiders have been utilized as pest control in agriculture to reduce the amount of pesticides needed on crops A notable example is the use of wolf spiders in cranberry bogs as a means of controlling unwanted crop destruction 15 In culture editSouth Carolina designated the Carolina wolf spider Hogna carolinensis as the official state spider in 2000 due to the efforts of Skyler B Hutto a third grade student at Sheridan Elementary School in Orangeburg 16 At the time South Carolina was the only U S state that recognized a state spider 17 In 2015 efforts began to name an official state spider for neighboring North Carolina 18 Gallery edit nbsp Close up of Trochosa ruricola nbsp Hogna radiata adult female nbsp Wolf spider with 3 inch spread nbsp Female with egg sac nbsp Female with juveniles nbsp Burrowing wolf spider nbsp Hogna carolinensis nbsp Anoteropsis aerescens nbsp Rabidosa rabidaSee also editList of spiders associated with cutaneous reactions List of Lycosidae species NecroboticsReferences edit Wolf Spiders Lycosidae Sundevall 1833 Australasian Arachnology Society Retrieved 2 October 2008 Ubick Darrell Paquin Pierre Cushing Paula Roth Vincent 2017 Spiders of North America an identification manual Illustrated by Nadine Duperre 2 ed Keene New Hampshire American Arachnological Society ISBN 978 0 9980146 0 9 Smith Strickland Kiona 8 February 2015 This Is How to Find the Spiders That Are Staring At You in the Dark Gizmodo com Retrieved 23 July 2021 Most spiders have eight eyes In some species mostly those that hunt for their prey like wolf spiders four of those eyes have a iridescent layer behind their retinas called a tapetum 2013 1 Archived 2020 01 13 at the Wayback Machine In the lycosoid spiders the secondary eyes possess a grate shaped tapetum lucidum that reflects light causing eyeshine when these spiders are viewed with approximately coaxial illumination The Xerces Society 2014 Farming with Native Beneficial Insects Ecological Pest Control Solutions North Adams Massachusetts Storey Publishing pp 204 205 ISBN 9781612122830 a b Ribeiro L A Jorge M T Piesco R V Nishioka S A 1990 Wolf spider bites in Sao Paulo Brazil A clinical and epidemiological study of 515 cases Toxicon 28 6 715 717 doi 10 1016 0041 0101 90 90260 E PMID 2402765 a b Isbister Geoffrey K Framenau Volker W 2004 Australian Wolf Spider Bites Lycosidae Clinical Effects and Influence of Species on Bite Circumstances Clinical Toxicology 42 2 153 161 doi 10 1081 CLT 120030941 PMID 15214620 S2CID 24310728 Family Lycosidae Sundevall 1833 World Spider Catalog Natural History Museum Bern Retrieved 2019 04 22 Piacentini Luis N Ramirez Martin J 2019 Hunting the wolf A molecular phylogeny of the wolf spiders Araneae Lycosidae Molecular Phylogenetics and Evolution 136 227 240 doi 10 1016 j ympev 2019 04 004 PMID 30953780 Framenau Volker W Hebets Eileen A April 2007 A Review of Leg Ornamentation in Male Wolf Spiders with the Description of a New Species from Australia Artoria Schizocoides Araneae Lycosidae The Journal of Arachnology 35 1 89 101 doi 10 1636 ST06 15 1 ISSN 0161 8202 Vaccaro Rosanna 2010 Courtship and mating behavior of the wolf spider Schizocosa bilineata Araneae Lycosidae The Journal of Arachnology 38 3 452 459 doi 10 1636 Hi09 115 1 S2CID 62890396 Wilder Shawn M Rypstra Ann L 2008 06 12 Prior encounters with the opposite sex affect male and female mating behavior in a wolf spider Araneae Lycosidae Behavioral Ecology and Sociobiology 62 11 1813 1820 doi 10 1007 s00265 008 0610 8 ISSN 0340 5443 S2CID 45562125 Wolf Spiders extension psu edu Retrieved 2023 09 06 Institution Smithsonian Wolf Spider Smithsonian Institution Retrieved 2023 09 06 Bardwell Carolyn February 2014 Predation behavior of spiders Arachnida Araneae in Predation behavior of spiders Arachnida Araneae in Massachusetts cranberry bog ecosystems South Carolina Legislature Online Search Code of Laws Title 1 Chapter 1 General Provisions www scstatehouse gov Session 2017 SENATE BILL 142 PDF Further reading editPlatnick Norman I 2008 The world spider catalog version 8 5 American Museum of Natural History External links edit nbsp Wikimedia Commons has media related to Lycosidae nbsp Wikispecies has information related to Lycosidae Wolf Spider Website Comprehensive site with info on a range of subject from habitat to life cycle to myths and facts about bites Includes videos of Wolf Spiders in the wild and captivity Accessed September 7 2015 Archived Link Retrieved from https en wikipedia org w index php title Wolf spider amp oldid 1219612529, wikipedia, wiki, book, books, library,

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