Combining ensemble models and connectivity analyses to predict wolf expected dispersal routes through a lowland corridor

Dondina, Olivia; Orioli, Valerio; Torretta, Elisa; Merli, Federico; Bani, Luciano; Meriggi, Alberto

doi:10.1371/journal.pone.0229261

Cited by 19 publications

(18 citation statements)

References 61 publications

(93 reference statements)

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“…The Po Plain is characterized by the presence of scattered natural (e.g., riparian vegetation, broad-leaved woodlands, and shrublands) and semi-natural (e.g., hedgerows and arboreal cultivations) vegetated patches, which can represent a sub-optimal habitat supporting the occurrence of many forest-dwelling mammal species (Balestrieri et al 2015(Balestrieri et al , 2016Chiatante et al 2017;Dondina et al 2019). These landscape features can also mitigate the effects of fragmentation by increasing connectivity and supporting long-range dispersal movements of individuals, as observed for many mammal species both in other geographic contexts [e.g., carnivores (Hilty and Merenlender 2004;Šálek et al 2009;Virgós 2001) and rodents (Bani et al 2018;Silva and Prince 2008)] and in the Po Plain [e.g., the hazel dormouse Muscardinus avellanarius (Dondina et al 2018a); the European badger Meles meles and the roe deer Capreolus capreolus (Dondina et al 2019); the Italian wolf Canis lupus italicus (Dondina et al 2020)]. The possibility of crossing the Po Plain by the crested porcupine would have the important consequence of leading the species towards the Prealps, an area potentially suitable for colonization (Mori et al 2021), where occurrences start to be detected.…”

Section: Introductionmentioning

confidence: 85%

“…We considered a fine spatial scale to modelling dispersal flows because habitat suitability models have proved to be a useful alternative to movement data to parameterize the landscape resistance to animal movement provided that environmental variables are calculated at a finer spatial scale compared to the scale generally used to parametrize habitat suitability for a species, i.e. the home-range scale (Ziółkowska et al 2016;Dondina et al 2020;Torretta et al 2020). Dispersers typically depend on the availability of local resources during their movements (Zeller et al 2012), while resident individuals usually have broadscale ecological requirements (Mateo Sánchez et al 2014).…”

Section: Dispersal Flows Modellingmentioning

confidence: 99%

“…The centroids of these cells were used as source locations for connectivity modelling. While in the Apennines and lowland area we retained all source locations, they were fictitiously rarefied in the Prealps (forcing a minimum distance of 10 km) to simulate a very sporadic presence of the crested porcupine in this area (Dondina et al 2020).…”

Section: Dispersal Flows Modellingmentioning

confidence: 99%

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En route to the North: modelling crested porcupine habitat suitability and dispersal flows across a highly anthropized area in northern Italy

et al. 2021

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The crested porcupine (Hystrix cristata) underwent a rapid and widespread range expansion in Italy. Nowadays the species is moving towards the northernmost regions of the country and its occurrence is increasing in the highly anthropized Po Plain. Our objectives were to evaluate the suitability of the Po Plain for the species, as well as to identify dispersal corridors connecting the northern Apennines occurrence areas and the Prealps. We modelled the species home-range scale habitat suitability based on an ensemble modelling approach. Additionally, a habitat suitability prediction carried out at a finer scale was used to parametrize the landscape resistance, based on which we modelled the potential dispersal corridors for the species using a factorial least-cost path approach. The ensemble prediction estimated a potential occurrence of the crested porcupine in 27.4% of the study area. The species occurrence probability was mainly driven by the distribution of extensive cultivations, woodlands and shrublands, and water courses and by the annual mean temperature. Conversely, the movements of the species resulted mainly sustained by woodlands and shrublands and highly hindered by simple arable lands and rice paddies. The connectivity prediction showed that three main dispersal routes are likely to connect crested porcupine occurrence areas in the northern Apennines to currently unoccupied but highly suitable areas in the Prealps. The study allowed us to identify the areas in the Prealps with the highest probability to be colonized by the crested porcupine in the near future and provided important insights for the conservation of a strictly protected species in a human-dominated landscape.

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Section: Introductionmentioning

confidence: 85%

Section: Dispersal Flows Modellingmentioning

confidence: 99%

Section: Dispersal Flows Modellingmentioning

confidence: 99%

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En route to the North: modelling crested porcupine habitat suitability and dispersal flows across a highly anthropized area in northern Italy

et al. 2021

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“…Effective management requires a twofold action: definition of a target area for management and ensuring containment of the managed area. Therefore, practitioners must manage at the scale of local populations, and identify and target dispersal corridors [ 12 , 13 ]. One problem is how to define the target area when there are no obvious breaks or population boundaries and little specific knowledge of animal movements and dispersal in the management area.…”

Section: Introductionmentioning

confidence: 99%

Genetic Population Structure of Wild Pigs in Southern Texas

Delgado-Acevedo

Zamorano

DeYoung

et al. 2021

Animals

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Wild pigs (Sus scrofa) alter ecosystems, affect the economy, and carry diseases that can be transmitted to livestock, humans, and wildlife. Understanding wild pig movements and population structure data, including natural population boundaries and dispersal, may potentially increase the efficiency and effectiveness of management actions. We trapped, conducted aerial shootings, and hunted wild pigs from 2005 to 2009 in southern Texas. We used microsatellites to assist large-scale applied management. We quantify broad-scale population structure among 24 sites across southern Texas by computing an overall FST value, and a Bayesian clustering algorithm both with and without considering the spatial location of samples. At a broad geographic scale, pig populations displayed a moderate degree of genetic structure (FST = 0.11). The best partition for number of populations, based on 2nd order rate of change of the likelihood distribution, was K = 10 genetic clusters. The spatially explicit Bayesian clustering algorithm produced similar results, with minor differences in designation of admixed sites. We found evidence of past (and possibly ongoing) translocations; many populations were admixed. Our original goal was to identify landscape features, such as barriers or dispersal corridors, that could be used to aid management. Unfortunately, the extensive admixture among clusters made this impossible. This research shows that large-scale management of wild pigs may be necessary to achieve control and ameliorate damages. Reduction or cessation of translocations is necessary to prevent human-mediated dispersion of wild pigs.

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“…Dispersers mainly depend on the availability and use of local resources during their movements (Zeller et al 2012), while residents usually have broadscale requirements (Mateo-Sánchez et al 2013). To obtain a resistance map representing the permeability of the landscape to the golden jackal we converted the fine-scale suitability map by using an exponential decay function (Mateo-Sánchez et al 2015a, b;Dondina et al 2020). Connectivity modelling was then developed adopting a factorial least cost path (Cushman et al 2009) and a cumulative resistant kernel approach through which we calculated the least cost dispersal Gaussian kernel around each source location up to 400 km.…”

Section: Connectivity Analysismentioning

confidence: 99%

First assessment of habitat suitability and connectivity for the golden jackal in north-eastern Italy

et al. 2020

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Compared with the rapid expansion across Europe, the golden jackal colonization of Italy is still limited and slow. No study focused on the habitat selection or landscape connectivity for this species was performed in Italy; thus, the potential distribution and dispersal patterns in the country remain unknown. Our objectives were to evaluate the suitability of the Friuli-Venezia Giulia region (north-eastern Italy) for the golden jackal, as well as to identify the ecological corridors connecting the areas currently occupied by the species. Corridors modelling allowed us both to hypothesize the dispersal dynamics occurring in the study region and to identify possible obstacles to future range expansion. We surveyed golden jackal presence in two study areas, covering an area of 500 km2, from March 2017 to February 2018. Using collected data, we modelled the species home-range scale habitat suitability based on an ensemble modelling approach. Subsequently, a habitat suitability prediction at a finer scale was used to estimate landscape resistance, starting from which, we modelled dispersal corridors among areas currently occupied by the species using a factorial least cost path and a cumulative resistant kernel approach. Our results indicated a moderate potential for large parts of the study region to support the occurrence of golden jackal family groups, whose presence seems to be mainly driven by the presence of wide areas covered by broadleaved forests and shrublands and by the absence of wide intensive agricultural areas. The predicted connectivity networks showed that three main permeable corridors are likely to connect golden jackal occurrence areas within the study region, while all the other corridors are characterized by a very low path density. Both the habitat selection and connectivity analyses showed a strong negative impact of the intensive cultivated plain on species stable presence and movement providing critical information for the conservation of the golden jackal in Italy.

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Combining ensemble models and connectivity analyses to predict wolf expected dispersal routes through a lowland corridor

Cited by 19 publications

References 61 publications

En route to the North: modelling crested porcupine habitat suitability and dispersal flows across a highly anthropized area in northern Italy

En route to the North: modelling crested porcupine habitat suitability and dispersal flows across a highly anthropized area in northern Italy

Genetic Population Structure of Wild Pigs in Southern Texas

First assessment of habitat suitability and connectivity for the golden jackal in north-eastern Italy

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