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Literaturverzeichnis zu „Queenslands Spinnen und deren Gifte“ von Tobias J. Hauke

Agnarsson, I. & L.S. Rayor (2013): A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae): Implications for taxonomy and social behavior. – Mol. Phylogenet. Evol. 69: 895–905.

Andrade, M.C.B. (1996): Sexual selection for male sacrifice in the Australian redback spider. – Science 271: 70–72. – (1998): Female hunger can explain variation in cannibalistic behavior despite male sacrifice in redback spiders. – Behavioural Ecology 9(1): 33–42.

Beckett, R. et al. (2007): APA Guide Australien. – Polyglott-Verlag, Singapur, 389 S.

Berendonck, B. (2003): Reproductive strategies in Latrodectus revivensis (Araneae; Theridiidae): functional morphology and sexual cannibalism. – Dissertation, Heinrich-Heine-Universität, Düsseldorf, 219 S.

Bond, J.E., B.E. Hendrixson, C.A. Hamilton & M. Hedin (2012): A reconsideration of the classification of the spider infraorder Mygalomorphae (Arachnida: Araneae) based on three nuclear genes and morphology. – PLoS One 7(6): e38753.

Castro, F.F.M., M.A. Antila & J. Croce (1995): Occupational allergy caused by urticating hair of Brazilian spider. – J. Allergy Clin. Immunol. 95: 1282–1285.

Cesar, L.M.M., M.A. Mendes, C.F. Tormena, M.R. Marques, B.M. de Souza, D.M. Saidemberg, J.C. Bittencourt & M.S. Palma (2005): Isolation and chemical characterization of PwTx-II: A novel alkaloid toxin from the venom of the spider Parawixia bistriata (Araneidae, Araneae). – Toxicon 46: 786–796.

Dörr, T. (2005): Die Gifte der Vogelspinnen (Theraphosidae). – Arachne 10(4): 10–24.

Finke, K. (2008): Ein Interview mit Dr. Volker Herzig. – Arachne 13(2): 24–34.

Finlayson, M. (1939): Harpactirella lightfooti as a cause of spider-bite in the Union. – S. Afr. Med. J. 13: 808–809.

Foelix, R.F. (2011): The biology of spiders. – Oxford University Press, New York, 419 S.

Foradori, M.J., S.C. Smith, E. Smith & R.E. Wells (2005): Survey for potentially necrotizing spider venoms, with special emphasis on Cheiracanthium mildei. – Comp. Biochem. Physiol. C 141: 32–39.

Forster, L. (1995): The behavioural ecology of Latrodectus hasselti (Thorell), the Australian redback spider (Araneae: Theridiidae): a review. – Records of the Western Australian Museum Supplement 52: 13–24.

Fuchs, J., M. von Dechend, R. Mordasini, A. Ceschi & W. Nentwig (2014): A verified spider bite and a review of the literature confirm Indian ornamental tree spiders (Poecilotheria species) as underestimated theraphosids of medical importance. – Toxicon 77: 73–77.

Gray, M.R. (2010): A revision of the Australian funnel-web spiders (Hexathelidae: Atracinae). – Rec. austral. Mus. 62: 285–392.

Gunning, S.J., Y. Chong, A.A. Khalife, P.G. Hains, K.W. Broady & G.M. Nicholson (2003): Isolation of δ-missulenatoxin- Mb1a, the major vertebrate-active spider δ-toxin from the venom of Missulena bradleyi (Actinopodidae). – FEBS Lett. 554: 211–218.

Habermehl, G. (1987): Gift-Tiere und ihre Waffen. – Springer-Verlag, Berlin Heidelberg, 227 S.

Hartman, L. J. & S.K. Sutherland (1984): Funnel-web spider (Atrax robustus) antivenom in the treatment of human envenomation. – Med. J. Aust. 141: 796–799.

Hauke, T.J. (2011): Minisci-Reaktionen an Norharman. – Bachelor-Arbeit in dem Studiengang Pharmaceutical Sciences, Ludwig-Maximilians-Universität, München.

Hedin, M. & J.E. Bond (2006): Molecular phylogenetics of the spider infraorder Mygalomorphae using nuclear rRNA genes (18S and 28S): conflict and agreement with the current system of classification. – Mol. Phylogenet. Evol. 41: 454–471.

Herzig, V. (2004): Geschlechtsspezifische Variationen im Gift der brasilianischen Kammspinne Phoneutria nigriventer (Keyserling, 1891). – Arachne 9(4): 4–9. – (2005): II. Entwicklungsabhängige Variationen im Gift der brasilianischen Kammspinne Phoneutria nigriventer (Keyserling, 1891). – Arachne 10(1): 8–12. – (2009): Vorstellung des „ArachnoServer“. – Arachne 14(2): 31–33. – (2010a): Update zum DeArGe-Spinnengiftprojekt. – Arachne 15(4): 26–31. – (2010b): Ontogenesis, gender, and molting influence the venom yield in the spider Coremiocnemis tropix (Araneae, Theraphosidae). – J. Venom Res. 1: 76–83.
– & W.C. Hodgson (2009): Intersexual variations in the pharmacological properties of Coremiocnemis tropix (Araneae, Theraphosidae) spider venom. – Toxicon 53: 196–205. –, D.L.A. Wood, F. Newell, P.-A. Chaumeil, Q. Kaas, G.J. Binford, G.M. Nicholson, D. Gorse & G.F. King (2011): ArachnoServer 2.0, an updated online resource for spider toxin sequences and structures. – Nucl. Acids Res. 39: 653–657.
Isbister, G.K. & M.R. Gray (2002): A prospective study of 750 definite spider bites, with expert spider identification. – Q. J. Med. 95: 723–731. – & – (2003a): Latrodectism: a prospective cohort study of bites by formally identified redback spiders. – Med. J. Aust. 179: 88–91. – & – (2003b): White-tail spider bite: a prospective study of 139 definite bites by Lampona species. – Med. J. Aust. 179:
199–202. – & – (2003c): Effects of envenoming by comb-footed spiders of the genera Steatoda and Achaearanea (family Theridiidae: Araneae) in Australia. – J. Toxicol. Clin. Toxicol. 41: 809–819.
– & – (2004): Bites by Australian mygalomorph spiders (Araneae, Mygalomorphae), including funnel-web spiders (Atracinae) and mouse spiders (Actinopodidae: Missulena spp). – Toxicon 43: 133–140.
Isbister, G.K. & D. Hirst (2003): A prospective study of definite bites by spiders of the family Sparassidae (huntsmen spiders) with identification to species level. – Toxicon 42: 163–171. –, J.E. Seymour, M.R. Gray & R.J. Raven (2003): Bites by spiders of the family Theraphosidae in humans and canines. – Toxicon 41: 519–524. – & V.W. Framenau (2004): Australian wolf spider bites (Lycosidae): clinical effects and influence of species on bite circumstances. – J. Toxicol. Clin. Toxicol. 42: 153–161. –, M.R. Gray, C.R. Balit, R.J. Raven, B.J. Stokes, K. Porges, A.S. Tankel, E. Turner, J. White & M.M. Fisher (2005): Funnel-web spider bite: a systematic review of recorded clinical cases. – Med. J. Aus. 182: 407–411.

Jocqué, R. & A.S. Dippenaar-Schoeman (2007): Spider families of the world. – Royal Museum for Central Africa, Tervuren,
336 S.

Kotzman, M. (1990): Annual activity patterns of the Australian tarantula Selenocosmia stirlingi (Araneae, Theraphosidae) in an arid area. – J . Arachnol. 18: 123–130.

Kuhn-Nentwig, L., R. Stöcklin & W. Nentwig (2011): Venom Composition and Strategies in Spiders: Is Everything Possible? – Adv. Insect. Physiol. 60: 1–86.

Kunz, K. (2005): Heimliche Mitbewohner im Haus: von Asseljägern, Hypnotiseuren und Leimspuckern. – DRACO 24: 70–79.

Lucas, S. M., P.I. Silva Junior, R. Bertani & J.L. Cardoso (1994): Mygalomorph spider bites: a report on 91 cases in the state of Sao Paulo, Brazil. – Toxicon 32: 1211–1215.

Marques, M.R., M.A. Mendes, C.F. Tormena, B.M. Souza, L.M.M. Cesar, R. Rittner & M.S. Palma (2005): Structure determination of a tetrahydro-β-carboline of arthropod origin: a novel alkaloid-toxin subclass from the web of spider Nephila clavipes. – Chem. Biodivers. 2: 525–534.

Martini, S. (2004): Die „Australian Red Back Spider” – Latrodectus hasselti in der Artvorstellung. – Arachne 9(4): 16–19.

Mebs, D. (2010): Gifttiere: Ein Handbuch für Biologen, Toxikologen, Ärzte und Apotheker. – Wiss. Verlagsges., Stuttgart, 420 S.

Nelsen, D.R., W. Kelln & W.K. Hayes (2014): Poke but don’t pinch: risk assessment and venom metering in the western black widow spider, Latrodectus hesperus. – Animal Behaviour 89: 107–114.

Newlands, G. & P. Atkinson (1988): Review of southern African spiders of medical importance, with notes on the signs and symptoms of envenomation. – S. Afr. Med. J. 73: 235–239.

Nicholson, G.M., R. Walsh, M.J. Little & M.I. Tyler (1998): Characterisation of the effects of robustoxin, the lethal neurotoxin from the Sydney funnel-web spider Atrax robustus, on sodium channel activation and inactivation. – Pflügers Arch. – Eur. J. Physiol. 436: 117–126. –, M.J. Little & L.C. Birinyi-Strachan (2004): Structure and function of δ-atracotoxins: lethal neurotoxins targeting the voltage-gated sodium channel. – Toxicon 43: 587–599. –, A. Graudins, H.I. Wilson, M. Little & K.W. Broady (2006): Arachnid toxinology in Australia: From clinical toxicology to potential applications. – Toxicon 48: 872–898.

Palagi, A., J.M.S. Koh, M. Leblanc, D. Wilson, S. Dutertre, G.F. King, G.M. Nicholson & P. Escoubas (2013): Unravelling the complex venom landscapes of lethal Australian funnel-web spiders (Hexathelidae: Atracinae) using LC-MALDI- TOF mass spectrometry. – J. Proteomics 80: 292–310.

Platnick, N.I. (2014): The World Spider Catalog, Version 14.5. – American Museum of Natural History.

Rash, L.D., L.C. Birinyi-Strachan , G.M. Nicholson & W.C. Hodgson (2000): Neurotoxic activity of venom from the Australian eastern mouse spider (Missulena bradleyi) involves modulation of sodium channel gating. – Br. J. Pharmacol. 130: 1817–1824.

Raven, R.J. (2000): A new species of funnel-web spider (Hadronyche, Hexathelidae, Mygalomorphae) from north Queensland. – Mem. Qd. Mus. 46: 225–230. – (2005): A new tarantula species from northern Australia (Araneae, Theraphosidae). – Zootaxa 1004: 15–28. – & O. Seeman (2011): Spiders of the greater Brisbane region. – Queensland Museum, Brisbane, 68 S. Ribeiro, L.A., M.T. Jorge, R.V. Piesco & S. de Andrade Nishioka (1990): Wolf spider bites in São Paulo, Brazil: A clinical and epidemiological study of 515 cases. – Toxicon 28: 715–717.

Rohou, A., J. Nield & Y.A. Ushkaryov (2007): Insecticidal toxins from black widow spider venom. – Toxicon 49: 531–549.

Saez, N.J., S. Senff, J.E. Jensen, S.Y. Er, V. Herzig, L.D. Rash & G.F. King (2010): Spider-Venom Peptides as Therapeutics. – Toxins 2: 2851–2871.

Schmidt, G. (2000): Giftige und gefährliche Spinnentiere. – Westarp Wissenschaften, Hohenwarsleben, 215 S.

Silbernagl, S. & A. Despopoulos (2007): Taschenatlas Physiologie. – Thieme-Verlag, Stuttgart, 441 S.

Spraul, C.W., P. Wagner, G.D. Lang & G.K. Lang (2003): Ophthalmia nodosa durch Vogelspinnenhaare. – Klin. Monatsbl. Augenheilkd. 220: 20–23.

Striffler, B.F. (2005): Die Gattung Latrodectus – nicht nur Schwarze Witwen. – DRACO 24: 48–57.

Sutherland, S.K. (1983): Australian Animal Toxins. – Oxford University Press, Melbourne, 546 S.

Undheim, E.A., K. Sunagar, V. Herzig, L. Kely, D.H. Low, T.N. Jackson, A. Jones, N. Kurniawan, G.F. King, S.A. Ali, A. Antunes, T. Ruder & B.G. Fry (2013): A Proteomics and Transcriptomics Investigation of the Venom from the Barychelid Spider Trittame loki (Brush-Foot Trapdoor). – Toxins 5: 2488–2503.

von Wirth, V. & M. Huber (2008): Die verkannten Vogelspinnen Asiens. – TERRARIA 9: 4–9.

West, R.C. & S.C. Nunn (2010): A taxonomic revision of the tarantula spider genus Coremiocnemis Simon 1892 (Araneae, Theraphosidae), with further notes on the Selenocosmiinae. – Zootaxa 2443: 1–64.

West, R.C., S.C. Nunn & S. Hogg (2012): A new tarantula genus, Psednocnemis, from west Malaysia (Araneae: Theraphosidae), with cladistic analysis and biogeography of Selenocosmiinae Simon 1889. – Zootaxa 3299: 1–43.

Windley, M.J., H. Herzig, S.A. Dziemborowicz, M.C. Hardy, G.F. King & G.M. (2012): Spider-venom peptides as bioinsecticides. – Toxins 4: 191–227.