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dc.contributor.authorHayashi, Morito
dc.contributor.authorBakkali, Mohammed
dc.contributor.authorHyde, Alexander
dc.contributor.authorGoodacre, Sara L.
dc.identifier.citationHayashi, M.; et al. Sail or sink: novel behavioural adaptations on water in aerially dispersing species. BMC Evolutionary Biology, 15: 118 (2015). []es_ES
dc.description.abstractBackground: Long-distance dispersal events have the potential to shape species distributions and ecosystem diversity over large spatial scales, and to influence processes such as population persistence and the pace and scale of invasion. How such dispersal strategies have evolved and are maintained within species is, however, often unclear. We have studied long-distance dispersal in a range of pest-controlling terrestrial spiders that are important predators within agricultural ecosystems. These species persist in heterogeneous environments through their ability to re-colonise vacant habitat by repeated long-distance aerial dispersal (“ballooning”) using spun silk lines. Individuals are strictly terrestrial, are not thought to tolerate landing on water, and have no control over where they land once airborne. Their tendency to spread via aerial dispersal has thus been thought to be limited by the costs of encountering water, which is a frequent hazard in the landscape.es_ES
dc.description.abstractResults: In our study we find that ballooning in a subset of individuals from two groups of widely-distributed and phylogenetically distinct terrestrial spiders (linyphiids and one tetragnathid) is associated with a hitherto undescribed ability of those same individuals to survive encounters with both fresh and marine water. Individuals that showed a high tendency to adopt ‘ballooning’ behaviour adopted elaborate postures to seemingly take advantage of the wind current whilst on the water surface.es_ES
dc.description.abstractConclusions: The ability of individuals capable of long-distance aerial dispersal to survive encounters with water allows them to disperse repeatedly, thereby increasing the pace and spatial scale over which they can spread and subsequently exert an influence on the ecosystems into which they migrate. The potential for genetic connectivity between populations, which can influence the rate of localized adaptation, thus exists over much larger geographic scales than previously thought. Newly available habitat may be particularly influenced given the degree of ecosystem disturbance that is known to follow new predator introductions.es_ES
dc.description.sponsorshipThis work was supported by research fellowships from the Japan Society for the Promotion of Science and Daiwa Foundation, Japan. M. Bakkali wishes to thank the Spanish Ministerio de Ciencia y Tecnología and Ministerio de Ciencia e Innovación for the BFU2010-16438 and the Ramón y Cajal fellowship.es_ES
dc.publisherBiomed Centrales_ES
dc.rightsCreative Commons Attribution-NonCommercial-NoDerivs 3.0 Licensees_ES
dc.subjectWater es_ES
dc.subjectDispersing specieses_ES
dc.subjectAgricultural ecosystemses_ES
dc.subjectSpiders es_ES
dc.titleSail or sink: novel behavioural adaptations on water in aerially dispersing specieses_ES

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