Abstract
Why do kleptobiotic spiders of the genus Argyrodes seem to be associated with spiders of the genus Nephila worldwide? Observations following introduction of experimental insect prey of different sizes and weights on to host webs revealed that: (1) small prey are more effectively retained on the web of Nephila clavipes than on the web of another common host, Leucauge venusta. (2) N. clavipes did not consume small prey that accumulated on the web whereas larger, heavier prey were enveloped and stored. (3) We observed clear partitioning of prey items between N. clavipes and Argyrodes spp.; diet selection by Argyrodes did not overlap with that of N. clavipes but closely overlapped with that of L. venusta. (4) L. venusta responds very quickly to prey impact whereas N. clavipes is slower, offering a temporal window of opportunity for Argyrodes foraging. (5) The ability of L. venusta to detect and respond to small items also means that it acts aggressively to Argyrodes spp., whereas N. clavipes does not. Consequently, food-acquisition behaviours of Argyrodes were clearly less risky with N. clavipes compared with L. venusta. We conclude that when a kleptobiotic organism has a choice of various host species, it will opt for the least risky host that presents the highest rate of availability of food items. The fact that Nephila species present such characteristics explains the worldwide association with Argyrodes kleptobiotic spiders.
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References
Agnarsson I (2004) Morphological phylogeny of cobweb spiders and their relatives (Araneae, Araneoidea, Theridiidae). Zool J Linn Soc 141:447–626
Cangialosi KR (1990) Life cycle and behaviour of the kleptoparasitic spider Argyrodes ululans (Aranea, Theridiidae). J Arachnol 18:347–358
Cangialosi KR (1997) Foraging versatility and the influence of host availability in Argyrodes trigonum (Araneae, Theridiidae). J Arachnol 25:182–193
Elgar MA (1993) Inter-specific associations involving spiders: kleptoparasitism, mimicry and mutualism. Mem Queensland Mus 33:411–430
Exline H, Levi HW (1962) American spider of the genus Argyrodes (Araneae, Theridiidae). Bull Mus Comp Zool Harvard 127:75–202
Grostal P, Walter DE (1997) Kleptoparasites or commensals? Effects of Argyrodes antipodianus (Araneae: Theridiidae) on Nephila plumipes (Aranaeae: Tetragnathidae). Oecologia 111:570–574
Hénaut Y (2000) Host selection by a kleptoparasitic spider. J Nat Hist 34:747–753
Hénaut Y, Ibarra-Nuñez G (2001) Strategical adaptation for Argyrodes spiders to different host species in Chiapas, Mexico. International Congress on Arachnol Badplass, South Africa, March 2001
Hénaut Y, Pablo J, Ibarra-Nuñez G, Williams T (2001) Retention, capture and consumption of experimental prey by orb-web weaving spiders in coffee plantations of Southern Mexico. Entomol Exp Appl 98:1–8
Kullman EJ (1959) Beobachtungen zum verhalten der Theridiidae Conopistha argyrodes Walckenaer (Araneae). Mitt Zool Mus Berlin 35:275–292
Larcher SF, Wise DH (1985) Experimental studies of the interactions between a web-invading spider and two host species. J Arachnol 13:43–59
Rypstra AL (1981) The effect of kleptoparasitism on prey consumption and web relocation in a Peruvian population of the spider Nephila clavipes. Oikos 37:179–182
Vollrath F (1979) Behaviour of the kleptoparasitic spider Argyrodes elevatus (Araneae, Theridiidae). Anim Behav 27:515–521
Vollrath F (1984) Kleptobiotic interactions in invertebrates. In: Barnard CJ (ed) Producers and scroungers; strategies of exploitation and parasitism. Chapman and Hall, New York, pp 61–94
Whitehouse MEA (1997) The benefits of stealing from a predator: foraging rates, predation risk and intraspecific aggression in the kleptoparasitic spider Argyrodes antipodiana. Behav Ecol 8:663–667
Whitehouse MEA, Agnarsson I, Miyashita T, Smith D, Cangliosi K, Masumoto T, Daiquin L, Hénaut Y (2002) Argyrodes: phylogeny, sociality and interspecific interactions. J Arachnol 30:238–245
Acknowledgements
We thank Mary Whitehouse for comments on an early version of the manuscript, Javier Valle for statistical assistance, Alvaro García Ballinas for technical help, and INIFAP Rosario Izapa for access to the field site. The experiments described in this paper comply with the current laws of Mexico.
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Hénaut, Y., Delme, J., Legal, L. et al. Host selection by a kleptobiotic spider. Naturwissenschaften 92, 95–99 (2005). https://doi.org/10.1007/s00114-004-0597-6
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DOI: https://doi.org/10.1007/s00114-004-0597-6