Abstract
Habitat selection has profound consequences for survival and reproductive success. We investigated web relocation behaviour in relation to plant structure and body condition as well as the plasticity of foraging behaviour of the spider Stegodyphus tentoriicola. Spiders inhabiting thorny vegetation were larger, built larger webs than spiders in thornless plants and relocated their webs less frequently. Web relocation affected reproductive success through a delay of oviposition. Spiders supplemented with extra food improved body condition and built smaller webs than control spiders implying a crucial role of food in limiting fitness of S. tentoriicola. Reduced investment in webs suggests a trade-off between the benefit of more food against the cost of web-construction. We propose that S. tentoriicola exhibit a “silk and energy saving” strategy when saturated.
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References
Charnov EL (1976) Optimal foraging, marginal value theorem. Theor Popul Biol 9:129–136
Chmiel K, Herberstein ME, Elgar MA (2000) Web damage and feeding experience influence web site tenacity in the orb-web spider Argiope keyserlingi Karsch. Anim Behav 60:821–826
Corley JC, Villacide JM, van Nouhuys S (2010) Patch time allocation by a parasitoid: The influence of con-specifics, host abundance and distance to the patch. J Insect Behav 23:431–440
Edwards W, Whytlaw PA, Congdon BC, Gaskett C (2009) Is optimal foraging a realistic expectation in orb-web spiders? Ecol Entomol 34:527–534
Erez T, Schneider JM, Lubin Y (2005) Is male cohabitation costly for females of the spider Stegodyphus lineatus (Eresidae)? Ethology 111:693–704
Hengeveld GM, van Langevelde F, Groen TA, de Knegt HJ (2009) Optimal foraging for multiple resources in several food species. Am Nat 174:102–110
Higgins LE, Buskirk RE (1992) A trap-building predator exhibits different tactics for different aspects of foraging behaviour. Anim Behav 44:485–499
Jakob EM, Marshall SD, Uetz GW (1996) Estimating fitness: A comparison of body condition indices. Oikos 77:61–67
Jakob EM, Porter AH, Uetz GW (2001) Site fidelity and the costs of movement among territories: an example from colonial web-building spiders. Can J Zool-Rev Can Zool 79:2094–2100
Janetos AC (1986) Web site selection: Are we asking the right questions? In: Shear WA (ed) Spiders: Web, behavior and evolution. Standford University Press, Standford
Kraus O, Kraus M (1988) The genus Stegodyphus (Arachnida, Araneae) sibling species, species groups, and parallel evolution of social living. Verhandlungen des Naturwissenschaftlichen Vereins in Hamburg NF 30. Paul Paray Verlag, Hamburg, pp 151–254
Leclerc J (1991) Optimal foraging strategy of the sheet-web spider Lepthyphantes flavipes under perturbation. Ecology 72:1267–1272
Lima SL, Dill LM (1990) Behavioural decisions made under the risk of predation - a review and prospectus. Can J Zool-Rev Can Zool 68:619–640
Lubin Y, Henschel J (1996) The influence of food supply on foraging behaviour in a desert spider. Oecologia 105:64–73
Lubin Y, Kotzman M, Ellner S (1991) Ontogenetic and seasonal changes in webs and websites of a desert widow spider. J Arachnol 19:40–48
Lubin Y, Ellner S, Kotzman M (1993) Web relocation and habitat selection in a desert widow spider. Ecology 74:1915–1928
Lubin Y, Hennicke J, Schneider J (1998) Settling decisions of dispersing Stegodyphus lineatus (Eresidae) young. I J Zool 44:217–225
Nakata K (2007) Prey detection without successful capture affects spider’s orb-web building behaviour. Naturwissenschaften 94:853–857
Nakata K, Ushimaru A (1999) Feeding experience affects web relocation and investment in web threads in an orb-web spider, Cyclosa argenteoalba. Anim Behav 57:1251–1255
Olive CW (1982) Behavioural response of a sit and wait predator to spatial variation in foraging gain. Ecology 63:912–920
Orians GH, Wittenberger JF (1991) Spatial and temporal scales in habitat selection. Am Nat 137:S29–S49
Pasquet A, Leborgne R, Lubin Y (1999) Previous foraging success influences web building in the spider Stegodyphus lineatus (Eresidae). Behav Ecol 10:115–121
Persons MH, Uetz GW (1997) Foraging patch residence time decisions in wolf spiders: Is perceiving prey as important as eating prey? Ecoscience 4:1–5
Purcell WF (1904) Descriptions of new genera and species of South African spiders. Trans S Afric phil Soc 15:115–173
Riechert SE, Gillespie RG (1986) Habitat choice and utilization in web-building spiders. In: Shear WA (ed) Spiders: Webs, behavior and evolution. Standford University Press, Standford, pp 23–48
Rittschof CC, Ruggles KV (2010) The complexity of site quality: multiple factors affect web tenure in an orb-web spider. Anim Behav 79:1147–1155
Ruch J, Heinrich L, Bilde T, Schneider JM (2009) The evolution of social inbreeding mating systems in spiders: limited male mating dispersal and lack of pre-copulatory inbreeding avoidance in a subsocial predecessor. Biol J Linn Soc 98:851–859
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
Salomon M (2009) Social environment and feeding state influence movement decisions in a web-building spider. Ethology 115:916–927
Schneider JM (1992) Die Wurzeln des Soziallebens bei der subsozialen Spinne Stegodyphus lineatus (Eresidae). Ludwig-Maximilian-Universität, München
Schneider JM (1997) Timing of maturation and the mating system of the spider, Stegodyphus lineatus (Eresidae): How important is body size? Biol J Linn Soc 60:517–525
Segoli M, Maklakov A, Gavish E, Tsurim I, Lubin Y (2004) The effect of previous foraging success on web-building behaviour in the sheet-web spider, Frontinellina cf. frutetorum (Araneae Linyphiidae). Ethol Ecol Evol 16:291–298
Smallwood PD (1993) Web-site tenure in the long-jawed spider-is it risk-sensitive foraging, or conspecific interactions? Ecology 74:1826–1835
Takada M, Baba YG, Yanagi Y, Terada S, Miyashita T (2008) Contrasting responses of web-building spiders to deer browsing among habitats and feeding guilds. Environ Entomol 37:938–946
Venner S, Pasquet A, Leborgne R (2000) Web-building behaviour in the orb-weaving spider Zygiella x-notata: influence of experience. Anim Behav 59:603–611
Venner S, Bel-Venner MC, Pasquet A, Leborgne R (2003) Body-mass-dependent cost of web-building behavior in an orb weaving spider, Zygiella x-notata. Naturwissenschaften 90:269–272
Vollrath F (1985) Web spider dilemma—a risky move or site dependent growth? Oecologia 68:69–72
Vollrath F (1988) Spider growth as an indicator of habitat quality. Bull Br Arachnol Soc 7:217–219
Vollrath F, Houston A (1986) Previous experience and site-tenacity in the orb spider Nephila (Aranae, Araneidae). Oecologia 70:305–308
Ward D, Lubin Y (1993) Habitat selection and the life history of a desertspider, Stegodyphus lineatus (Eresidae). J Anim Ecol 62:353–363
Wherry T, Elwood RW (2009) Relocation, reproduction and remaining alive in the orb-web spider. J Zool 279:57–63
Acknowledgements
We thank the MZNP-Team, Ansie Dippenaar, Mike Cherry and Ric Bernard for being very helpful in various stages of the work and Lutz Fromhage and three anonymous reviewers for fruitful comments on the manuscript. This study was supported by the DFG and the DAAD.
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Ruch, J., Heinrich, L., Bilde, T. et al. Site Selection and Foraging in the Eresid Spider Stegodyphus tentoriicola . J Insect Behav 25, 1–11 (2012). https://doi.org/10.1007/s10905-011-9273-9
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DOI: https://doi.org/10.1007/s10905-011-9273-9