Combining ranger records and biogeographical models to identify the current and potential distribution of an expanding mesocarnivore in southern Europe

Human–wildlife conflicts (HWC) are increasing and are potentially harmful to both people and wildlife. Understanding the current and potential distribution of wildlife species involved in HWC, such as carnivores, is essential for implementing management and conservation measures for such species. In...

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Bibliographic Details
Published in:The Science of the total environment 2024-10, Vol.946, p.174216, Article 174216
Main Authors: Díaz-Ruiz, Francisco, Descalzo, Esther, Martínez-Jauregui, María, Soliño, Mario, Márquez, Ana Luz, Farfán, Miguel Ángel, Real, Raimundo, Ferreras, Pablo, Delibes-Mateos, Miguel
Format: Article
Language:English
Subjects:
Carnivores
Environmental rangers
Favourability function
Human–wildlife conflict
Species distribution models
Wildlife management
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Summary:Human–wildlife conflicts (HWC) are increasing and are potentially harmful to both people and wildlife. Understanding the current and potential distribution of wildlife species involved in HWC, such as carnivores, is essential for implementing management and conservation measures for such species. In this study, we assessed both the current distribution and potential distribution (forecast) of the Egyptian mongoose (Herpestes ichneumon) in the central part of the Iberian Peninsula. We acquired data concerning mongoose occurrences through an online questionnaire sent to environmental rangers. We used the municipality level as the sampling unit because all municipalities within the study area were covered at least by one ranger. Using the information provided by rangers (i.e. occurrences in their municipalities), we constructed environmental favourability distribution models to assess current and potential mongoose distribution through current distribution models (CDM) and ecological models (EM), respectively. >300 rangers participated in the survey and mongooses were reported in a total of 181 of 921 municipalities studied. The CDM model showed a current distribution mainly concentrated on the western part of the study area, where intermediate–high favourability values predominated. The EM model revealed a wider potential distribution, including the south–east part of the study area, which was also characterised by intermediate–high favourability values. Our predictions were verified using independent data, including confirmation of mongoose reproduction by rangers, reports by other experts, and field sampling in some areas. Our innovative approach based on an online survey to rangers coupled with environmental favourability models is shown to be a useful methodology for assessing the current distribution of cryptic but expanding wildlife species, while also enabling estimations of future steps in their expansion. The approach proposed may help policy decision-makers seeking to ensure the conservation of expanding wildlife species, for example, by designing awareness campaigns in areas where the target species is expected to arrive. [Display omitted] •Rangers may be relevant informants of expanding wildlife species, as the mongoose.•Rangers' records and biogeographical models allowed identifying mongoose distribution.•This approach is useful to forecast future distribution of expanding wildlife species.•Egyptian mongoose is expected to expand further in the
ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.174216