Authors: EDWARDS, WILL; WHYTLAW, POPPY A.¹; CONGDON, BRADLEY C.¹; GASKETT, CHRIS²

Source: Ecological Entomology, Volume 34, Number 4, August 2009 , pp. 527-534(8)

Publisher: Blackwell Publishing

Abstract:

. 

1. Explanations for web relocation invoking optimal foraging require reliable differentiation between individual sites and overall habitat quality. We characterised natural conditions of resource variability over 20 days in artificial webs of the orb-web spider Gasteracantha fornicata to examine this requirement.

2. Variability in catch success was high. Day-to-day catch success in 90% (18/20) catch sites fitted negative binomial distributions, whereas 10% fitted Poisson distributions. Considered across trap sites (overall habitat), variance in catch success increased proportionally faster than the mean (i.e. Taylor's Power Law, variance = 0.54mean^1.764).

3. We compared the confidence intervals for the expected cumulative catch in randomly drawn sequential samples from a frequency distribution representing the overall habitat (based on the parameters for Taylor's power law) and the frequency distribution of expected cumulative catch within each individual catch site [via randomisation based on the mean and negative binomial exponent (k)].

4. In all cases and across all sample sizes, median values for the power to differentiate habitat and catch sites never exceeded 0.2, suggesting that principles involved in optimal foraging, if operating, must be accompanied by a very high degree of uncertainty.

5. Under conditions of high resource variability, many days must be spent in a single catch site if movement decisions are based on an ability to differentiate current catch site from overall habitat. Empirical evidence suggests this is never met. This may explain why proximal mechanisms that illicit quickly resolved behavioural responses have been more successful in describing web relocation patterns than those associated with optimal foraging.

Keywords: Gasteracantha; negative binomial; optimal foraging; Taylor's Power Law; web residency

Document Type: Research article

DOI: 10.1111/j.1365-2311.2009.01099.x

Affiliations: 1: School of Marine and Tropical Biology, James Cook University, Cairns, Queensland, Australia 2: School of Maths, Physics and IT, James Cook University, Cairns, Queensland, Australia

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