4.4 Article

Experimental assessment of trophic ecology in a generalist spider predator: Implications for biocontrol in Uruguayan crops

Journal

JOURNAL OF APPLIED ENTOMOLOGY
Volume 145, Issue 1-2, Pages 82-91

Publisher

WILEY
DOI: 10.1111/jen.12811

Keywords

behavioural sequence; biological control; conditional prey acceptance; rice; soybean; wolf spider

Categories

Funding

  1. Agencia Nacional de Investigacion e Innovacion
  2. Comision Sectorial de Investigacion Cientifica
  3. Instituro Nacional de Investigacion Agropecuaria [AZ_33]

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The study assessed the predatory behavior of a wandering spider in South American crops, revealing their ability to attack and feed upon prey with different morphologies, including well-defended arthropods.
Conservative biological control promotes the use of native natural enemies to limit the size and growth of pest populations. Although spiders constitute one of the most important groups of native predators in several crops, their trophic ecology remains largely unknown, especially for several generalist taxa. In laboratory, we assessed the predatory behaviour of a wandering spider (the wolf spiderLycosa thorelli(Keyserling, 1877) against several arthropods varying in size and trophic positions, all found in South American soybean and rice crops. As prey we used the bugPiezodorus guildinii(Westwood, 1837) as well as larvae and adults of the mothSpodoptera frugiperda(Smith, 1797), both being considered important pests in Uruguayan crops. We also used several non-pest arthropods as prey, sarcophagid flies, carabid beetles and wolf spiders. All prey were attacked in more or less high, although not statistically differing, proportions. However, carabids were not consumed, and bugs were consumed in significantly lower proportions than flies. A negative correlation was found between prey size and acceptance rate. Immobilization times were longer against larvae when compared to moths and flies, while predatory sequences were longer for bugs when compared to flies, moths and spiders. In addition, we found a positive effect of prey size on predatory sequence length and complexity. Our results confirm the ability of spiders to attack and feed upon prey with different morphologies, included well-defended arthropods, and their potential use as natural enemies of several pests in South American crops.

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