Iolanda Silva-Rocha scite author profile

Accurate measures of species abundance are essential to identify conservation strategies. N-mixture models are increasingly used to estimate abundance on the basis of species counts. In this study we tested whether abundance estimates obtained using N-mixture models provide consistent results with more traditional approaches requiring capture (capture-mark recapture and removal sampling). We focused on endemic, threatened species of amphibians and reptiles in Italy, for which accurate abundance data are needed for conservation assessments: the Lanza’s Alpine salamander Salamandra lanzai, the Ambrosi’s cave salamander Hydromantes ambrosii and the Aeolian wall lizard Podarcis raffonei. In visual counts, detection probability was variable among species, ranging between 0.14 (Alpine salamanders) and 0.60 (cave salamanders). For all the species, abundance estimates obtained using N-mixture models showed limited differences with the ones obtained through capture-mark-recapture or removal sampling. The match was particularly accurate for cave salamanders in sites with limited abundance and for lizards, nevertheless non-incorporating heterogeneity of detection probability increased bias. N-mixture models provide reliable abundance estimates that are comparable with the ones of more traditional approaches, and offer additional advantages such as a smaller sampling effort and no need of manipulating individuals, which in turn reduces the risk of harming animals and spreading diseases.

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Genetic data reveal a multiple origin for the populations of the Italian wall lizardPodarcis sicula(Squamata: Lacertidae) introduced in the Iberian Peninsula and Balearic islands

Silva-Rocha

Salvi

Carretero

2012

Italian Journal of Zoology

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Biological invasions have become a major cause of biodiversity loss. Tracing the origin of the populations of alien species is essential to infer the dispersal pathway and finally to set conservation policies aimed at preventing new introductions. The Italian wall lizard, Podarcis sicula, is one of the reptile species most widely introduced, with allochthonous populations occurring from the United States to Turkey. For some of them, instances of geographic expansion and competition/hybridization with autochthonous Podarcis sp. have been indicated. In the Iberian Peninsula, five introduced populations are known: Lisbon (W Portugal), Noja, Cantabria (N Spain), La Rioja (N Spain) and Almería (S Spain) and Sant Celoni, Barcelona (NE Spain) while the species now widely ranges Menorca Island in the Balearics. Here we assess the origin of four populations (Barcelona population will not be included) by comparing in a phylogenetic framework the cytochrome b gene sequences of specimens from the introduced and native populations. The results from this study provide evidence for distinct sources, pathways, and timing of introduction in Iberian Peninsula and Balearics by P. sicula from Tuscany, Calabria, Sicily, and Sardinia. This finding underpins the fact that P. sicula holds considerable potential invasiveness and advises for conservation strategies based on a global and preventive plan for avoiding new introductions as well as on eradication and control measures when prevention fails.

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Alien reptiles on Mediterranean Islands: A model for invasion biogeography

Silva-Rocha

Salvi

Carretero

et al. 2019

Diversity and Distributions

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Aim:The Mediterranean basin has a long history of interactions between humans and biota, with multiple ancient and recent introductions of alien species. Such a multitude of introductions makes it difficult to distinguish between alien and native species but provides an excellent opportunity to investigate factors related to introductions and long-term persistence of alien species. In this study, we combined genetic and distribution data to identify the factors promoting the presence of alien reptiles on islands, considering human-related, geographic and species features.Furthermore, we assessed whether the use of genetic evidence to identify alien species improves inference of the factors determining their distribution.Location: Mediterranean islands. Methods:We combined genetic data and distribution databases to obtain information on biological traits and on the native/alien status of reptiles on >900Mediterranean islands, and we gathered data on geographic and human features of islands. We then used spatially explicit generalized additive mixed models to identify the factors associated with the establishment of alien reptiles. Results:Alien reptile populations are more frequent on islands far from the native range and with large human population. Alien populations of reptiles that are able to feed on plants are particularly frequent. Traditional data sources underestimate the frequency of alien reptiles on Mediterranean islands, and using genetic evidence to assess the status of populations provided a more complete picture of the factors associated with the presence of alien populations. Main conclusions:Humans are key drivers of the distribution of alien reptiles on Mediterranean islands, but the distributions are determined by a complex interplay between human activities, geographic factors and species features. Genetic data are essential for obtaining reliable biogeographic assessments of invasive species, particularly in systems with a long history of human influence.

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