Abstract
We performed male attraction experiments and staged courtship sequences to test for non-random mating with respect to social behavioral phenotype in the comb-footed spider, Anelosimus studiosus. While asocial behavior is the dominant phenotype in all A. studiosus populations examined to date, a social phenotype approaches a frequency of 15% in colder environments. We collected test subjects from higher latitude polymorphic populations and scored all individuals as to their behavioral phenotype prior to their use in these trials. Males of both phenotypes differentially approached and courted social females over asocial females and no-spider controls. By offering males different numbers of females of one type vs. the other in subsequent trials, we determined that the difference in attractiveness between the two phenotypes social/asocial is 1.5/1. Both the web produced by a female and a female that has been removed from its web attract males. We suggest that the male attracting pheromone is present on females and is also attached to silk threads. Staged encounters completed between males and females of the respective phenotypes demonstrated that courting males suffer significantly less pre-copulatory sexual cannibalism with social females than with asocial ones, and thus, female social tendency is phenotypically linked to sexual aggression. We propose that the male preference for social females is adaptive because of the observed asymmetry in courtship success.
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References
Agnarsson IL, Avilés L, Coddington JA, Maddison WP (2006) Sociality in theridiid spiders: repeated origins of an evolutionary dead end. Evolution 60:2342–2351
Albo MJ, Viera C, Costa FG (2007) Pseudocopulation and male-male conflict elicited by subadult females of the subsocial spider Anelosimus cf. studiosus (Theridiidae). Behaviour 144:1217–1234
Arnqvist G, Henriksson S (1997) Sexual cannibalism in the fishing spider and a model for the evolution of sexual cannibalism based on genetic constraints. Evol Ecol 11:255–273
Avilés L (1997) Causes and consequences of cooperation and permanent sociality in spiders. In: Choe J, Crespi B (eds) The evolution of social behavior in insects and arachnids. Cambridge University Press, Cambridge, UK, pp 476–498
Avilés L, Bukowski T (2006) Group living and inbreeding depression in a subsocial spider. Proc R Soc Lond B 270:157–163
Barrett SCH (2002) Sexual interference of a floral kind. Heredity 88(2):154–159
Becker E, Riechert S, Singer F (2005) Male induction of female quiescence/catalepsis during courtship in the spider, Agelenopsis aperta. Behaviour 142:57–70
Bilde T, Lubin Y, Smith D, Schneider JM, Maklakov AA (2005) The transition to social inbred mating systems in spiders: role of inbreeding tolerance in a subsocial predecessor. Evolution 59:160–174
Bilde T, Tuni C, Elsayed R, Pekar S, Toft S (2006) Death feigning in the face of sexual cannibalism. Biol Lett 2:23–25
Brach V (1977) Anelosimus studiosus (Araneae: Theridiidae) and the evolution of quasisociality in theridiid spiders. Evolution 31:154–161
Christenson T, Cohn J (1988) Male advantage for egg fertilization in the golden orb weaving spider (Nephila clavipes). J Comp Pyschol 102:312–318
Elgar MA (1992) Sexual cannibalism in spiders and other invertebrates. In: Eldar MA, Crespi BJ (eds) Cannibalism: ecology and evolution among diverse taxa. Oxford Scientific, Oxford, UK, pp 128–155
Fromhage L, Schneider JM (2005) Safer sex with feeding females: sexual conflict in a cannibalistic spider. Behav Ecol 16:377–382
Furey RE (1998) Two cooperatively social populations of the theridiid spider Anelosimus studiosus in a temperate region. Anim Behav 55:727–735
Gaskett AC (2007) Spider sex pheromones: emission, reception, structures, and functions. Biol Rev Camb Philos Soc 82(1):26–48
Gavrilets S, Boake CRB (1998) On the evolution of premating isolation after a founder event. Am Nat 152(5):706–716
Grant PR, Grant RB (2008) Pedigrees, assortative mating and speciation in Darwin’s finches. Proc R Soc Lond B 275:661–668
Hebets EA (2003) Subadult experience influences adult mate choice in an arthropod: exposed female wolf spiders prefer males of a familiar phenotype. Proc Natl Acad Sci U S A 100:13390–13395
Hudson R (1985) Do newborn rabbits learn the odor stimuli releasing nipple-search behavior? Dev Psychobiol 18:575–585
Hughes WO, Howse PE, Goulson G (2001) Mandibular gland chemistry of grass-cutting ants: species, caste, and colony variation. J Chem Ecol 27:109–123
Jackson DE, Martin SJ, Ratnieks FLW, Holcombe M (2007) Spatial and temporal variation in pheromone composition of ant foraging trails. Behav Ecol 18:444–450
Johannesen J, Hennig A, Dommermuth D, Schneider JM (2002) Mitochondrial DNA distributions indicate colony propagation by single matri-lineages in the social spider Stegodyphus dumicola (Eresidae). Biol J Linn Soc 76:591–600
Johnson JC, Sih A (2005) Precopulatory sexual cannibalism in fishing spiders (Dolomedes triton): a role for behavioral syndromes. Behav Ecol Sociobiol 58(4):390–396
Jones TC, Riechert SE, Dalrymple SE, Parker PG (2007) Fostering model explains variation in levels of sociality in a spider system. Anim Behav 73:195–204
Jormalainen V, Merilaita S (1995) Female resistance and duration of mate-guarding in three aquatic peracarids (Crustacea). Behav Evol Sociobiol 36:43–48
Langerhans BR, Gifford ME, Joseph EO (2007) Ecological speciation in Gambusia fishes. Evolution 61(9):2056–2074
LeBas NR, Marshall NJ (2000) The role of colour in signaling and male choice in the agamid lizard Ctenophorus ornatus. Proc R Soc Lond B 267:445–452
Lubin YD, Crozier RH (1985) Electrophoretic evidence for population differentiation in a social spider Achaearanea wau (Theridiidae). Insectes Soc 32:297–304
Papke M, Riechert SE, Schulz S (2001) An airborne spider pheromone associated with male attraction and release of courtship. Anim Behav 61:1–11
Parker GA (1979) Sexual selection and sexual conflict. In: Blum MS, Blum NA (eds) Sexual selection and reproductive competition in insects. Academic, New York, New York, pp 123–166
Penn D, Potts W (1998) MHC-disassortative mating preferences reversed by cross fostering. Proc R Soc Lond B 265:1299–1306
Prenter J, MacNeil C, Elwood R (2006) Sexual cannibalism and mate choice. Anim Behav 71:481–490
Pruitt JN, Riechert SE, Jones TC (2008) Behavioral syndromes and their fitness consequences in a socially polymorphic spider. Anim Behav 76(3):871–879
Reinhard J, Kaib M (1995) Interaction of pheromones during food exploitation by the termite Schedorhinotermes lamanianus. Physiol Entomol 20:266–272
Riechert SE, Johns P (2003) Do female spiders select heavier males for the genes for behavioral aggressiveness they offer their offspring? Evolution 57:1367–1373
Riechert SE, Jones TC (2008) Phenotypic variation in the social behavior of the spider Anelosimus studiosus along a latitudinal gradient. Anim Behav 75:1893–1902
Riechert SE, Singer FD (1995) Investigation of potential male mate choice in a monogamous spider. Anim Behav 49:715–723
Riechert SE, Singer FD, Jones TC (2001) High gene flow levels lead to gamete wastage in a desert spider system. Genetica 112(113):297–319
Roberts JA, Uetz GW (2005) Information content of female chemical signals in the wolf spider, Schizocosa ocreata: male discrimination of reproductive state and receptivity. Anim Behav 70(1):217–223
Roeloffs RM, Riechert SE (1988) Dispersal and population genetic structure of the cooperative spider, Agelena consociata, in West African rainforest. Evolution 42:173–183
SAS Institute (1998) Statview 5.0. SAS Institute, Cary, North Carolina
Sih A, Bell A, Johnson JC (2004) Behavioral syndromes: an ecological and evolutionary overview. Trends Ecol Evol 19(7):372–378
Singer FA, Riechert SE (1995) Mating system and mating success in the desert spider, Agelenopsis aperta. Behav Ecol Sociobiol 36(5):313–322
Smith DR (1986) Population genetics of Anelosimus eximius (Araneae, Thesridiidae). J Arachnol 14:201–217
Smith DR, Hagen RH (1996) Population structure and interdemic selection in the cooperative spider Anelosimus eximius (Araneae: Theridiidae). J Evol Biol 9:589–608
Thompson DJ, Manning JT (1981) Mate selection by Asellus (Crustacea: Isopoda). Behaviour 78:178–187
Viera C, Albo MJ (2008) Males of a subsocial spider choose among females of different ages and the same reproductive status. Ethol Ecol Evol 20(1):35–41
Yamazaki K, Beauchamp GK, Curran M, Boyse EA (2000) Parent-progeny recognition as a function of MHC odortype identity. Proc Natl Acad Sci U S A 97:10500–10502
Acknowledgments
We are indebted to Sarah Duncan, Jamie Troupe, Chris Boake, Jim Fordyce, Ben Fitzpatrick, Todd Freeberg, Gordon Burghardt, Thomas Jones, and Jason Jones for their comments on previous versions of this manuscript. We would also like to thank the contributions of the editor and two anonymous reviewers, whose comments greatly improved the quality of this manuscript. The experiment presented herein complies with all laws of the USA.
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Pruitt, J.N., Riechert, S.E. Male mating preference is associated with risk of pre-copulatory cannibalism in a socially polymorphic spider. Behav Ecol Sociobiol 63, 1573–1580 (2009). https://doi.org/10.1007/s00265-009-0751-4
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DOI: https://doi.org/10.1007/s00265-009-0751-4