Tennesseellum Petrunkevitch 1925

Tennesseellum Petrunkevitch 1925 Tennesseellum Petrunkevitch 1925: 173. Type species Tennesseellum formicum (Petrunkevitch 1925) = Bathyphantes formica Emerton 1882. Diagnosis: Members of this genus resemble species of Agyneta and Anibontes , but differ from the latter and all other North American L...

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Main Author:	Dupérré, Nadine
Format:	Text
Language:	unknown
Published:	Zenodo 2013
Subjects:	Biodiversity Taxonomy Animalia Arthropoda Arachnida Araneae Linyphiidae Tennesseellum Thumb Seta Crawford Hurd Trident Romero Shelton Harwood Sickle Burks Newfoundland
Online Access:	https://dx.doi.org/10.5281/zenodo.6162488 https://zenodo.org/record/6162488

id	ftdatacite:10.5281/zenodo.6162488
record_format	openpolar
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	unknown
topic	Biodiversity Taxonomy Animalia Arthropoda Arachnida Araneae Linyphiidae Tennesseellum
spellingShingle	Biodiversity Taxonomy Animalia Arthropoda Arachnida Araneae Linyphiidae Tennesseellum Dupérré, Nadine Tennesseellum Petrunkevitch 1925
topic_facet	Biodiversity Taxonomy Animalia Arthropoda Arachnida Araneae Linyphiidae Tennesseellum
description	Tennesseellum Petrunkevitch 1925 Tennesseellum Petrunkevitch 1925: 173. Type species Tennesseellum formicum (Petrunkevitch 1925) = Bathyphantes formica Emerton 1882. Diagnosis: Members of this genus resemble species of Agyneta and Anibontes , but differ from the latter and all other North American Linyphiidae by the position of the spiracle, distant from the spinnerets (Fig. 33). Description: Male : Total length: 1.5–1.6. Carapace: flat, elongate-oval, strongly granulate (Fig. 16), suffused with dark gray along margin and radiating lines, fovea well marked. Clypeus: height 2–3 (Fig. 15), straight in lateral view. Eyes: rounded, anterior median eye equal or smaller than other eyes (Fig. 15); posterior eye row slightly procurved to straight in dorsal view (Fig. 16). Sternum: smooth slightly longer than wide or as long as wide. Endites: as long as wide, serrula present; occasionally with seta-tipped tubercles. Labium: rebordered, fused to sternum. Chelicerae: longer than wide, excavated (Fig. 15); paturon sometimes with tubercles (Fig. 584); promargin and retromargin with denticles; cheliceral stridulatory organ present (Fig. 20). Abdomen: cylindrical or oval, with or without pattern, sigilla sometimes present (Fig. 574). Colulus: triangular with setae. Legs: uniformly colored; leg formula 4123; prolateral spine on tibia I absent; femur I–III with paired ventral apical spines, single on femur IV; tibia I–IV with two small dorsal spines, Tm I: 0.29–0.31, Tm IV: absent. Respiratory system: demistracheate (Fig. 33); with two wide median trachea, two smaller lateral trachea, wide and fused to the median trachea and one spiracle (Fig. 33). Genitalia: Male palpal femur sometimes with large prongs (Fig. 570 arrows); tibia with one retrolateral and one dorsal trichobothria (Figs 570, 580). Cymbium triangular; glabrous depression present with curved ridge (Figs 570, 580); dorsal and ventral cymbial tubercles absent; prolateral notch absent (Figs 571, 581). Paracymbium with apical pocket and anterior pocket present, posterior pocket absent (Figs 570, 580). Embolus sickle-shaped; ventral lamella absent; thumb short, reaching below the embolus proper (Figs 572, 582). Embolus proper set apically; Fickert’s gland absent (Figs 572, 582). Anterior terminal apophysis large, striated with numerous, long protrusions; posterior terminal apophysis pointed; lamella characteristica variable (Figs 573, 583). Female : Total length: 1.6–2.4. Carapace: slightly elevated, oval, finely granulate; suffused with dark gray along margin and radiating lines; trident mark sometimes present; fovea not well marked. Clypeus: height 1 –1.5, straight in lateral view. Eyes: rounded, all equal in size, posterior eye row slightly procurved to straight in dorsal view. Chelicerae: not excavated, promargin and retromargin with teeth; cheliceral stridulatory organ present. Sternum: as long as wide. Abdomen: oval, with or without pattern, sigilla sometimes present (Fig. 575). Spinnerets: (studied for T. formicum only), ALS with one major ampullate spigot and at least five piriform spigots, PMS with one cylindrical, two aciniform and one minor ampullate spigot, PLS with two cylindrical, three to four aciniform spigots, two aggregate and one flagelliform spigot (Fig. 19). Colulus: triangular with three setae (Fig. 19). Legs: uniformly colored; leg formula 4123; prolateral spine on tibia I absent; femur I–III with paired ventral apical spines, single on femur IV; tibia I–IV with two small dorsal spines, Tm I: 0.30–0.35, Tm IV: absent; palp normal or inflated; claw absent. Genitalia: Epigynum consisting of folded scape; proximal part of scape wide; median part of scape variable; lateral lobes short; stretcher small (Figs 576, 586). The genital pores position is variable, can be situated at the lateral lobes pockets or in the median part of scape (Figs 579, 587). The copulatory ducts are straight and runs from the genital pores to the receptacula (Fig. 577). The internal genitalia is composed of two receptacula; the fertizilation ducts are short and directed inward (Figs 578, 587). Composition: Tennesseellum currently contains two described species: T. formicum (Emerton 1882) and T. gollum Dupérré 2013. Distribution: Nearctic, T. formicum probably introduced in the Marshall Islands. Natural History: T. formicum has been found in a wide range of natural habitats, in Newfoundland Pickavance & Dondale (2005) found specimens in mixed coniferous woods, Crawford & Edwards (1989) reported the species above tree line on Mount St. Helens and Muma (1980) reported its presence in Pinyon-Juniper and in arid grassland in New Mexico. Furthermore, the presence of T. formicum has been reported in several non-natural habitats. It is also found in agrosystem environments such as, soybean plantations, alfalfa fields, cabbage fields and citrus groves (Whitcomb et al. 1963, Mansour et al. 1982, Bishop & Reichert 1990, Young & Edwards 1990, Schmaedick & Shelton 2000). Apparently T. formicum is able to survive in natural and non-natural habitats. In fact, Kelton et al . (2011), in their study of phenological dynamics in alfalfa ecosystems, showed that T. formicum life cycles matches the phenology of an alfafa ecosystem and that the spider population can survive agronomic disturbance at the egg stage. This capability to colonise and subsist in different types of habitats enabled T. formicum to establish itself almost all over North America. This association of T. formicum with agrosystem environments is well established, so much so that it has been qualified as an agrobiont species (Bolduc et al. 2005). Bolduc et al. ’s (2005) study of ground dwellling spiders in two vineyards established that T. formicum shows phenotypic variations and has a multivoltine life cycle. T. formicum has also been collected while ballooning in eastern Texas (Dean & Sterling 1990). In their study, males where evenly distributed from May to September, while females were collected in August and September. Some Hymenoptera such as Miscophus kansensis , Trypoxylon frigidum frigidum and T. kolazyi have been reported to prey upon T. formicum (Krombein et al. 1979). Peterson et al. (2010) showed that T. formicum in laboratory can feed on pollen grains dusted on their webs, another interesting adaptation that could explain its success in colonizing differents habitats. : Published as part of Dupérré, Nadine, 2013, Taxonomic revision of the spider genera Agyneta and Tennesseellum (Araneae, Linyphiidae) of North America north of Mexico with a study of the embolic division within Micronetinae sensu Saaristo & Tanasevitch 1996, pp. 1-189 in Zootaxa 3674 (1) on pages 172-174, DOI: 10.11646/zootaxa.3674.1.1, http://zenodo.org/record/283954 : {"references": ["Petrunkevitch, A. (1925) New Erigoninae from Tennessee. Journal of the New York entomological Society, 33, 170 - 176.", "Emerton, J. H. (1882) New England spiders of the family Theridiidae. Transactions of the Connecticut Academy of Arts and Sciences, 6, 1 - 86.", "Pickavance, J. R. & Dondale, C. D. (2005) An annotated checklist of Spiders of Newfoundland. The Canadian Field-Naturalist, 119 (2), 254 - 275.", "Crawford, R. L. & Edwards, J. S. (1989) Alpine spiders and harvestmen of Mount Rainier, Washington, U. S. A.: Taxonomy and bionomics. Canadian Journal of Zoology, 67, 430 - 446. http: // dx. doi. org / 10.1139 / z 89 - 064", "Muma, M. H. (1980) Comparison of ground-surface spider populations in Pinyon-Juniper and arid-grassland associations in southwestern New Mexico. Florida Entomologist, 63 (2), 211 - 222. http: // dx. doi. org / 10.2307 / 3494442", "Whitcomb, W. H., Exline, H. & Ite, M. (1963) Comparison of spider populations of ground stratum in Arkansas pasture and adjacent cultivated field. Arkansas Academy of Science Proceedings, 17, 34 - 39.", "Mansour, F., Ross, J. W., Edwards, G. B. & Whitcomb, W. H. (1982) Spiders of Florida citrus groves. Florida Entomologist, 65 (4), 514 - 522. http: // dx. doi. org / 10.2307 / 3494687", "Bishop, L. & Riechert, S. E. (1990) Spider colonization of agrecosystem: mode and source. Environmental Entomology, 19, 1738 - 1745.", "Young, O. P. & Edwards, G. B. (1990) Spiders in United Stated field crops and their potential effect on crop pests. Journal of Arachnology, 18, 1 - 27.", "Schmaedick, M. A. & Shelton, A. M. (2000) Arthropod predators in cabbage (Cruciferae) and their potential as naturally occurring biological control agents for Pieris rapae (Lepidotera: Pieridae). The Canadian Entomologist, 12, 655 - 675. http: // dx. doi. org / 10.4039 / Ent 132655 - 5", "Kelton, D. W., Philip, R. C. & Harwood, J. D. (2011) Phenological dynamics of web-building spider populations in alfalfa: implications for biological control. Journal of Arachnology, 39, 244 - 249. http: // dx. doi. org / 10.1636 / CP 10 - 83.1", "Bolduc, E., Buddle, C., Bostonian, N. J. & Vincent, C. (2005). Ground dwelling spider fauna (Araneae) of two vineyards in Southern Quebec. Environmental Entomology, 33 (3), 635 - 645. http: // dx. doi. org / 10.1603 / 0046 - 225 X- 34.3.635", "Dean, A. D. & Sterling, W. L. (1990) Seaonal patterns of spiders captures in suction traps in eastern Texas. Southwestern Entomologist, 15 (4), 399 - 412.", "Krombein, K. V., Hurd, P. D, Smith, D. R. & Burks, B. D. (1979) Catalog of Hymenoptera in America north of Mexico, vol. 2, Apocrita (Aculeata). Smithsonian Institution Press, Washington D. C., 2209 pp.", "Peterson, J. A., Romero, S. A. & Harwood, J. D. (2010) Pollen interception by linyphiid spiders in corn agrosystem: implications for dietary diversification and risk-assessment. Arthropod-Plant Interactions, 4 (4), 207 - 217. http: // dx. doi. org / 10.1007 / s 11829 - 010 - 9106 - 3"]}
format	Text
author	Dupérré, Nadine
author_facet	Dupérré, Nadine
author_sort	Dupérré, Nadine
title	Tennesseellum Petrunkevitch 1925
title_short	Tennesseellum Petrunkevitch 1925
title_full	Tennesseellum Petrunkevitch 1925
title_fullStr	Tennesseellum Petrunkevitch 1925
title_full_unstemmed	Tennesseellum Petrunkevitch 1925
title_sort	tennesseellum petrunkevitch 1925
publisher	Zenodo
publishDate	2013
url	https://dx.doi.org/10.5281/zenodo.6162488 https://zenodo.org/record/6162488
long_lat	ENVELOPE(-64.259,-64.259,-65.247,-65.247) ENVELOPE(9.895,9.895,63.645,63.645) ENVELOPE(-86.467,-86.467,-77.717,-77.717) ENVELOPE(-60.366,-60.366,-62.682,-62.682) ENVELOPE(169.233,169.233,-72.433,-72.433) ENVELOPE(-57.350,-57.350,-63.283,-63.283) ENVELOPE(166.800,166.800,-71.683,-71.683) ENVELOPE(165.817,165.817,-70.733,-70.733) ENVELOPE(-66.783,-66.783,-68.867,-68.867) ENVELOPE(-136.850,-136.850,-74.700,-74.700)
geographic	Thumb Seta Crawford Hurd Trident Romero Shelton Harwood Sickle Burks
geographic_facet	Thumb Seta Crawford Hurd Trident Romero Shelton Harwood Sickle Burks
genre	Newfoundland
genre_facet	Newfoundland
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op_rights	Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess
op_rightsnorm	CC0
op_doi	https://doi.org/10.5281/zenodo.6162488 https://doi.org/10.11646/zootaxa.3674.1.1 https://doi.org/10.5281/zenodo.283959 https://doi.org/10.5281/zenodo.283956 https://doi.org/10.5281/zenodo.284033 https://doi.org/10.5281/zenodo.283957 https://do
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spelling	ftdatacite:10.5281/zenodo.6162488 2023-05-15T17:23:08+02:00 Tennesseellum Petrunkevitch 1925 Dupérré, Nadine 2013 https://dx.doi.org/10.5281/zenodo.6162488 https://zenodo.org/record/6162488 unknown Zenodo http://zenodo.org/record/283954 http://publication.plazi.org/id/FFB41F78FFBC5617111B061BAE0BB136 http://zoobank.org/981F80ED-96D7-40C7-8A3C-677954416A2E https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3674.1.1 http://zenodo.org/record/283954 http://publication.plazi.org/id/FFB41F78FFBC5617111B061BAE0BB136 https://dx.doi.org/10.5281/zenodo.283959 https://dx.doi.org/10.5281/zenodo.283956 https://dx.doi.org/10.5281/zenodo.284033 https://dx.doi.org/10.5281/zenodo.283957 https://dx.doi.org/10.5281/zenodo.284032 http://zoobank.org/981F80ED-96D7-40C7-8A3C-677954416A2E https://dx.doi.org/10.5281/zenodo.6162487 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Arthropoda Arachnida Araneae Linyphiidae Tennesseellum article-journal ScholarlyArticle Taxonomic treatment Text 2013 ftdatacite https://doi.org/10.5281/zenodo.6162488 https://doi.org/10.11646/zootaxa.3674.1.1 https://doi.org/10.5281/zenodo.283959 https://doi.org/10.5281/zenodo.283956 https://doi.org/10.5281/zenodo.284033 https://doi.org/10.5281/zenodo.283957 https://do 2022-04-01T11:19:55Z Tennesseellum Petrunkevitch 1925 Tennesseellum Petrunkevitch 1925: 173. Type species Tennesseellum formicum (Petrunkevitch 1925) = Bathyphantes formica Emerton 1882. Diagnosis: Members of this genus resemble species of Agyneta and Anibontes , but differ from the latter and all other North American Linyphiidae by the position of the spiracle, distant from the spinnerets (Fig. 33). Description: Male : Total length: 1.5–1.6. Carapace: flat, elongate-oval, strongly granulate (Fig. 16), suffused with dark gray along margin and radiating lines, fovea well marked. Clypeus: height 2–3 (Fig. 15), straight in lateral view. Eyes: rounded, anterior median eye equal or smaller than other eyes (Fig. 15); posterior eye row slightly procurved to straight in dorsal view (Fig. 16). Sternum: smooth slightly longer than wide or as long as wide. Endites: as long as wide, serrula present; occasionally with seta-tipped tubercles. Labium: rebordered, fused to sternum. Chelicerae: longer than wide, excavated (Fig. 15); paturon sometimes with tubercles (Fig. 584); promargin and retromargin with denticles; cheliceral stridulatory organ present (Fig. 20). Abdomen: cylindrical or oval, with or without pattern, sigilla sometimes present (Fig. 574). Colulus: triangular with setae. Legs: uniformly colored; leg formula 4123; prolateral spine on tibia I absent; femur I–III with paired ventral apical spines, single on femur IV; tibia I–IV with two small dorsal spines, Tm I: 0.29–0.31, Tm IV: absent. Respiratory system: demistracheate (Fig. 33); with two wide median trachea, two smaller lateral trachea, wide and fused to the median trachea and one spiracle (Fig. 33). Genitalia: Male palpal femur sometimes with large prongs (Fig. 570 arrows); tibia with one retrolateral and one dorsal trichobothria (Figs 570, 580). Cymbium triangular; glabrous depression present with curved ridge (Figs 570, 580); dorsal and ventral cymbial tubercles absent; prolateral notch absent (Figs 571, 581). Paracymbium with apical pocket and anterior pocket present, posterior pocket absent (Figs 570, 580). Embolus sickle-shaped; ventral lamella absent; thumb short, reaching below the embolus proper (Figs 572, 582). Embolus proper set apically; Fickert’s gland absent (Figs 572, 582). Anterior terminal apophysis large, striated with numerous, long protrusions; posterior terminal apophysis pointed; lamella characteristica variable (Figs 573, 583). Female : Total length: 1.6–2.4. Carapace: slightly elevated, oval, finely granulate; suffused with dark gray along margin and radiating lines; trident mark sometimes present; fovea not well marked. Clypeus: height 1 –1.5, straight in lateral view. Eyes: rounded, all equal in size, posterior eye row slightly procurved to straight in dorsal view. Chelicerae: not excavated, promargin and retromargin with teeth; cheliceral stridulatory organ present. Sternum: as long as wide. Abdomen: oval, with or without pattern, sigilla sometimes present (Fig. 575). Spinnerets: (studied for T. formicum only), ALS with one major ampullate spigot and at least five piriform spigots, PMS with one cylindrical, two aciniform and one minor ampullate spigot, PLS with two cylindrical, three to four aciniform spigots, two aggregate and one flagelliform spigot (Fig. 19). Colulus: triangular with three setae (Fig. 19). Legs: uniformly colored; leg formula 4123; prolateral spine on tibia I absent; femur I–III with paired ventral apical spines, single on femur IV; tibia I–IV with two small dorsal spines, Tm I: 0.30–0.35, Tm IV: absent; palp normal or inflated; claw absent. Genitalia: Epigynum consisting of folded scape; proximal part of scape wide; median part of scape variable; lateral lobes short; stretcher small (Figs 576, 586). The genital pores position is variable, can be situated at the lateral lobes pockets or in the median part of scape (Figs 579, 587). The copulatory ducts are straight and runs from the genital pores to the receptacula (Fig. 577). The internal genitalia is composed of two receptacula; the fertizilation ducts are short and directed inward (Figs 578, 587). Composition: Tennesseellum currently contains two described species: T. formicum (Emerton 1882) and T. gollum Dupérré 2013. Distribution: Nearctic, T. formicum probably introduced in the Marshall Islands. Natural History: T. formicum has been found in a wide range of natural habitats, in Newfoundland Pickavance & Dondale (2005) found specimens in mixed coniferous woods, Crawford & Edwards (1989) reported the species above tree line on Mount St. Helens and Muma (1980) reported its presence in Pinyon-Juniper and in arid grassland in New Mexico. Furthermore, the presence of T. formicum has been reported in several non-natural habitats. It is also found in agrosystem environments such as, soybean plantations, alfalfa fields, cabbage fields and citrus groves (Whitcomb et al. 1963, Mansour et al. 1982, Bishop & Reichert 1990, Young & Edwards 1990, Schmaedick & Shelton 2000). Apparently T. formicum is able to survive in natural and non-natural habitats. In fact, Kelton et al . (2011), in their study of phenological dynamics in alfalfa ecosystems, showed that T. formicum life cycles matches the phenology of an alfafa ecosystem and that the spider population can survive agronomic disturbance at the egg stage. This capability to colonise and subsist in different types of habitats enabled T. formicum to establish itself almost all over North America. This association of T. formicum with agrosystem environments is well established, so much so that it has been qualified as an agrobiont species (Bolduc et al. 2005). Bolduc et al. ’s (2005) study of ground dwellling spiders in two vineyards established that T. formicum shows phenotypic variations and has a multivoltine life cycle. T. formicum has also been collected while ballooning in eastern Texas (Dean & Sterling 1990). In their study, males where evenly distributed from May to September, while females were collected in August and September. Some Hymenoptera such as Miscophus kansensis , Trypoxylon frigidum frigidum and T. kolazyi have been reported to prey upon T. formicum (Krombein et al. 1979). Peterson et al. (2010) showed that T. formicum in laboratory can feed on pollen grains dusted on their webs, another interesting adaptation that could explain its success in colonizing differents habitats. : Published as part of Dupérré, Nadine, 2013, Taxonomic revision of the spider genera Agyneta and Tennesseellum (Araneae, Linyphiidae) of North America north of Mexico with a study of the embolic division within Micronetinae sensu Saaristo & Tanasevitch 1996, pp. 1-189 in Zootaxa 3674 (1) on pages 172-174, DOI: 10.11646/zootaxa.3674.1.1, http://zenodo.org/record/283954 : {"references": ["Petrunkevitch, A. (1925) New Erigoninae from Tennessee. Journal of the New York entomological Society, 33, 170 - 176.", "Emerton, J. H. (1882) New England spiders of the family Theridiidae. Transactions of the Connecticut Academy of Arts and Sciences, 6, 1 - 86.", "Pickavance, J. R. & Dondale, C. D. (2005) An annotated checklist of Spiders of Newfoundland. The Canadian Field-Naturalist, 119 (2), 254 - 275.", "Crawford, R. L. & Edwards, J. S. (1989) Alpine spiders and harvestmen of Mount Rainier, Washington, U. S. A.: Taxonomy and bionomics. Canadian Journal of Zoology, 67, 430 - 446. http: // dx. doi. org / 10.1139 / z 89 - 064", "Muma, M. H. (1980) Comparison of ground-surface spider populations in Pinyon-Juniper and arid-grassland associations in southwestern New Mexico. Florida Entomologist, 63 (2), 211 - 222. http: // dx. doi. org / 10.2307 / 3494442", "Whitcomb, W. H., Exline, H. & Ite, M. (1963) Comparison of spider populations of ground stratum in Arkansas pasture and adjacent cultivated field. Arkansas Academy of Science Proceedings, 17, 34 - 39.", "Mansour, F., Ross, J. W., Edwards, G. B. & Whitcomb, W. H. (1982) Spiders of Florida citrus groves. Florida Entomologist, 65 (4), 514 - 522. http: // dx. doi. org / 10.2307 / 3494687", "Bishop, L. & Riechert, S. E. (1990) Spider colonization of agrecosystem: mode and source. Environmental Entomology, 19, 1738 - 1745.", "Young, O. P. & Edwards, G. B. (1990) Spiders in United Stated field crops and their potential effect on crop pests. Journal of Arachnology, 18, 1 - 27.", "Schmaedick, M. A. & Shelton, A. M. (2000) Arthropod predators in cabbage (Cruciferae) and their potential as naturally occurring biological control agents for Pieris rapae (Lepidotera: Pieridae). The Canadian Entomologist, 12, 655 - 675. http: // dx. doi. org / 10.4039 / Ent 132655 - 5", "Kelton, D. W., Philip, R. C. & Harwood, J. D. (2011) Phenological dynamics of web-building spider populations in alfalfa: implications for biological control. Journal of Arachnology, 39, 244 - 249. http: // dx. doi. org / 10.1636 / CP 10 - 83.1", "Bolduc, E., Buddle, C., Bostonian, N. J. & Vincent, C. (2005). Ground dwelling spider fauna (Araneae) of two vineyards in Southern Quebec. Environmental Entomology, 33 (3), 635 - 645. http: // dx. doi. org / 10.1603 / 0046 - 225 X- 34.3.635", "Dean, A. D. & Sterling, W. L. (1990) Seaonal patterns of spiders captures in suction traps in eastern Texas. Southwestern Entomologist, 15 (4), 399 - 412.", "Krombein, K. V., Hurd, P. D, Smith, D. R. & Burks, B. D. (1979) Catalog of Hymenoptera in America north of Mexico, vol. 2, Apocrita (Aculeata). Smithsonian Institution Press, Washington D. C., 2209 pp.", "Peterson, J. A., Romero, S. A. & Harwood, J. D. (2010) Pollen interception by linyphiid spiders in corn agrosystem: implications for dietary diversification and risk-assessment. Arthropod-Plant Interactions, 4 (4), 207 - 217. http: // dx. doi. org / 10.1007 / s 11829 - 010 - 9106 - 3"]} Text Newfoundland DataCite Metadata Store (German National Library of Science and Technology) Thumb ENVELOPE(-64.259,-64.259,-65.247,-65.247) Seta ENVELOPE(9.895,9.895,63.645,63.645) Crawford ENVELOPE(-86.467,-86.467,-77.717,-77.717) Hurd ENVELOPE(-60.366,-60.366,-62.682,-62.682) Trident ENVELOPE(169.233,169.233,-72.433,-72.433) Romero ENVELOPE(-57.350,-57.350,-63.283,-63.283) Shelton ENVELOPE(166.800,166.800,-71.683,-71.683) Harwood ENVELOPE(165.817,165.817,-70.733,-70.733) Sickle ENVELOPE(-66.783,-66.783,-68.867,-68.867) Burks ENVELOPE(-136.850,-136.850,-74.700,-74.700)

Tennesseellum Petrunkevitch 1925

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