Interspecific relationships in a suboptimal habitat, an unexpected ally for the survival of the threatened Tenerife speckled lizard (Gallotia intermedia)

Abstract

AbstractAnthropogenic-driven environmental changes are pushing species to the limits of their habitats. More often species are restricted to relic or suboptimal habitats that present the minimum requirements to sustain species populations. In this scenario of accelerated environmental change and biodiversity loss, is fundamental to understand why species can survive in such suboptimal conditions. We conduct an isotopic trophic analysis along with a behavioural experiment to show how novel ecological interactions allow an endangered species to maintain stable populations in suboptimal habitats. We show how the Tenerife speckled lizard (Gallotia intermedia), a critically endangered endemic reptile from Tenerife Island (Canary Islands), can maintain stable populations in relic habitats thanks to its interactions with the yellow-legged gull (Larus michahellis) colony. A stable isotope analysis revealed thatG. intermediarelies on marine subsidies for its diet and that the foraging area of this reptile is likely to be restricted to the limits ofL. michahellisbreeding colony. Furthermore, an antipredator behaviour analysis showed thatL. michahellisdisplayed a strong anti-predator or mobbing response against cats, one of the main threats forG. intermedia, thus potentially providing some protection to the reptiles inhabiting the seabird colony. Our results show how unusual and poorly studied biotic interactions can provide valuable resources and conditions for the conservation of a critically endangered species inhabiting a suboptimal or relict habitat.