Wolf Presence Research Articles

Influence of Human Hunting Strategies and Large Carnivore Presence on Population Dynamics of European Facultative Scavengers.

Ungulates serve as the primary carrion source for facultative scavengers in European ecosystems. In the absence of large carnivores, such as wolves (Canis lupus), human hunting leftovers are the main source of carrion for these scavengers. Additionally, wild boars (Sus scrofa) are heavily culled in many ecosystems and are both a significant prey species for wolves as well as a key scavenger. Nowadays, wolves and wild boars are re-establishing their historical home ranges. However, it remains unclear how their presence influences the population dynamics of facultative scavengers under different scenarios of human hunting strategies. We simulated the biomass densities of all states in the trophic web including European scavengers and wolves using an ordinary differential equations (ODE) model. The presence of wolves led to a positive trend in scavenger biomass in general. However, in general, we found that plant-based resources were more important for scavenger dynamics than carrion, regardless of whether the carrion originated from human hunting or wolf predation. Only when wolves were absent but boars present, the human hunting strategy became important in determining scavenger dynamics via carrion supply. In conclusion, our model indicates that population dynamics of facultative scavengers are not mainly driven by the availability of carrion, but rather by the presence of and competition for vegetation. Furthermore, our simulations highlight the importance of adapting human hunting strategies in accordance with the re-establishment of wolf and boar as these can cause fluctuating population patterns over the years.

The repatriation of wolves to Isle Royale alters the foraging of meso-carnivores

Abstract Due to the disproportionate role that large carnivores can have on communities and their global decline over the last century, carnivores are increasingly being repatriated across their historic ranges. The reintroduction of gray wolves (Canis lupus) can precipitate substantive changes to communities and ecosystems. Notably, wolves could have strong effects on smaller and subordinate carnivores, especially in altering their foraging behavior and prey selection. Past studies investigating wolf effects on other carnivores, however, have generally been conducted in relatively complex communities featuring a diverse assemblage of carnivores and prey and have lacked baseline (i.e., pre-repatriation) data. Consequently, researchers have quantified what a community looks like after wolf return, with little information on how the community behaved before. To better understand the effect of large carnivore repatriation on the foraging ecology of a carnivore community, we investigated the impact of reintroduced gray wolves on 2 meso-carnivores: Red Fox (Vulpes vulpes); and American Marten (Martes americana) within an insular and simple vertebrate community at Isle Royale National Park before and after wolf reintroduction. We analyzed >600 scats from 20 individual martens and 63 individual foxes as well as the stable isotopes of 9 and 22 tissue samples from martens and foxes, respectively, at both individual and population levels. We found that the wolf reintroduction had little effect on marten diet but strongly influenced fox diet depending on the analysis conducted. At the population level, our analysis revealed that both foxes and martens were dietary generalists consuming an array of food items including small prey, berries, and human food regardless of wolf presence. However, at the individual level, we found that prior to wolf repatriation foxes primarily consumed berries and small prey but following wolf repatriation the diet of foxes shifted to berries and human foods as well as large carrion. This post-wolf reintroduction shift in diet increased the dietary overlap between foxes and martens. Our work provides new insights into how the return of a large carnivore can alter the foraging ecology of small-bodied carnivores and act both to provision carrion resources as well drive other carnivores to consume more human food and increase dietary overlap.

Avenues for Coexistence: How Perception of Costs and Benefits Shape Attitudes towards Wolves

AbstractHuman dimensions play a pivotal role in wolf management and conservation. To offer an informed basis to improve Human-Wolf coexistence, we explore how socio-demographic factors, fear, knowledge, and perceptions of costs and benefits of wolf presence drive human attitudes in the southern area of the Douro River, Portugal, a region inhabited by a small and endangered wolf population. We interviewed 220 people (175 from the general public, 13 hunters, and 32 livestock owners) through a semi-structured survey organized on a 5-point Likert scale. Public and hunter respondents exhibited neutral to positive attitudes, whereas livestock owners expressed negative to neutral attitudes and revealed a Not-In-My-Backyard sentiment. We found that positive attitudes were linked to a greater receptiveness to increased wolf numbers, particularly in areas of irregular wolf presence. Fear was a significant driver of public attitudes, while the presence of wolves influenced livestock owners’views. For both groups, attitudes were also influenced by perceived costs and benefits. Knowledge about wolves did not significantly influence attitudes, with scores being consistently low across groups, and the myth of reintroduction persisting. Thus, management actions should address the concerns and complaints of individuals directly affected by wolves, dispel common fears and myths, and emphasize the ecological and economic benefits of wolf presence in the territory. Media outlets can serve as strategic partners in engaging the neutral population through untargeted interventions. Prioritizing the input of all groups, including conservationists, is essential for establishing common ground and ensuring sustained coexistence.

The social landscape of wolves in Canada - preliminary findings

ABSTRACT Despite the long-standing presence of wolves (Canis lupus) in Canada, attitudes toward wolves have been understudied at the national scale. However, such data can inform wildlife management policies and robust coexistence strategies. We developed an 11-question survey to assess “the social landscape” of wolves in Canada. We explored the following research questions: 1) Are attitudes toward wolves generally positive? 2) What is the role of proximity on attitudes toward and tolerance for wolves? 3) What demographic characteristics matter most? Preliminary results indicate that Canadians have positive attitudes toward wolves regardless of age, gender, province, and vote in the last federal election; only ethnicity had a statistically significant effect. We also found that positive attitude is related to proximity and tolerance. More research with larger sample sizes and more focused surveys are needed to delve deeper into these preliminary results.

Spring black bear harvest and predation pressure on moose calves in a multi‐predator system

AbstractThe moose (Alces alces; mooz in Anishinaabemowin, Ojibwe language will follow scientific names) is a vital subsistence food source to Anishinabe people of the midwestern United States and has recently declined in Minnesota, USA, with poor calf survival as a contributing factor. Predation is the primary cause of moose calf mortality and we explored whether calf predation rates could be reduced through management of a single predator in a multi‐predator system. Thus, we examined predation rates and causes of calf mortality before (2013–2015) and during (2016–2018) implementation of a spring black bear (Ursus americanus; makwa) harvest season, using baits to attract black bears, on the Grand Portage Indian Reservation, Minnesota, where black bears and gray wolves (Canis lupus; ma'iinganag) are the primary predators of moose calves. We validated our early study findings for the 5 years following the initial study with intermittent spring bear hunting seasons, from 2019–2023. The spring bear hunt was canceled because of a pandemic lockdown in 2020, resumed 2021, and was closed in 2022 and 2023. Black bear harvest prior to adding a spring bear hunting season was 0.038 bears harvested/km2 from 2012–2015, whereas after initiating a spring hunting season (2016–2018) it was 17% higher at 0.046 bears/km2. We observed significantly lower bear predation (by 68%) in association with spring bear management and no compensatory change in the level of wolf predation. The validation years strengthened our findings that spring bear hunting seasons reduce moose calf predation rates, with an overall 68% lower proportion of bear predation on moose calves in the years when spring bear hunts were held. Mean proportion of calf predation attributed to bears was 4.9 times higher (30% vs. 6%) in the years when a spring bear hunt was not held. Despite an increasing wolf density during the study period, we did not observe a compensatory increase in wolf predation during spring bear hunt years. The results of this work suggest that the addition of a spring bear hunt, during a time when moose calves are most vulnerable to bear predation, has the potential to increase moose calf survival even in the presence of wolves.

Distribution and potential habitat of the Vulnerable Himalayan wolf Canis lupus chanco in Bhutan

Abstract The rare Himalayan wolf Canis lupus chanco is categorized as Vulnerable on the IUCN Red List, and there is limited knowledge of its ecology and distribution. In Bhutan, the Himalayan wolf is one of the least known carnivores. Our aims in this study were to map the current distribution of the wolf in Bhutan and to identify potential habitats within the country. We compiled 32 records of wolf presence from camera-trap surveys and, using a maximum entropy approach, we estimated a potential habitat of 2,431 km2, comprising c. 6.3% of Bhutan. However, wolf presence was localized and non-continuous. We recommend a detailed fine-scale habitat analysis in areas of potential habitat and genetic studies to investigate population structure. Knowledge of these matters will provide insights regarding connectivity and facilitate the development of conservation strategies for this threatened wolf.

Estimating distribution and abundance of wide-ranging species with integrated spatial models: Opportunities revealed by the first wolf assessment in south-central Italy.

Estimating demographic parameters for wide-ranging and elusive species living at low density is challenging, especially at the scale of an entire country. To produce wolf distribution and abundance estimates for the whole south-central portion of the Italian wolf population, we developed an integrated spatial model, based on the data collected during a 7-month sampling campaign in 2020-2021. Data collection comprised an extensive survey of wolf presence signs, and an intensive survey in 13 sampling areas, aimed at collecting non-invasive genetic samples (NGS). The model comprised (i) a single-season, multiple data-source, multi-event occupancy model and (ii) a spatially explicit capture-recapture model. The information about species' absence was used to inform local density estimates. We also performed a simulation-based assessment, to estimate the best conditions for optimizing sub-sampling and population modelling in the future. The integrated spatial model estimated that 74.2% of the study area in south-central Italy (95% CIs = 70.5% to 77.9%) was occupied by wolves, for a total extent of the wolf distribution of 108,534 km2 (95% CIs = 103,200 to 114,000). The estimate of total population size for the Apennine wolf population was of 2557 individuals (SD = 171.5; 95% CIs = 2127 to 2844). Simulations suggested that the integrated spatial model was associated with an average tendency to slightly underestimate population size. Also, the main contribution of the integrated approach was to increase precision in the abundance estimates, whereas it did not affect accuracy significantly. In the future, the area subject to NGS should be increased to at least 30%, while at least a similar proportion should be sampled for presence-absence data, to further improve the accuracy of population size estimates and avoid the risk of underestimation. This approach could be applied to other wide-ranging species and in other geographical areas, but specific a priori evaluations of model requirements and expected performance should be made.

Changes in Wolf Occupancy and Feeding Habits in the Northern Apennines: Results of Long-Term Predator-Prey Monitoring.

The comprehension of the factors that have influenced the recent changes in wolf (Canis lupus) range and diet that have occurred in our study area, characterized by a highly heterogeneous landscape, can shed light on their current process of expansion toward the plain. Wolf presence was monitored using a standardized protocol from 2007 to 2022 by carrying out eight monitoring sessions organized in seasonal surveys, during which, we collected wolf presence data. To model wolf range dynamics, we used dynamic occupancy models considering land cover types and wild ungulate abundances as covariates. Moreover, we studied the wolf diet through scat analysis, identifying the consumed items from undigested remains. Wolf occupancy in the study area progressed from mountains to lower hills gradually; the observed range dynamics were driven by prey abundance and human presence: in particular, the probability of colonization increased with roe deer (Capreolus capreolus) abundance, whereas the probability of extinction increased with urban areas. The wolf diet showed a gradual shift from the prevalent consumption of wild boar (2007-2008 and 2011-2012) to the prevalent consumption of roe deer (continuously increasing from 2015 onward). Our results might be related to a specific adaptation of the predator to the local ecology of the most consumed species: the roe deer.

Niche overlap across landscape variability in summer between two large herbivores using eDNA metabarcoding.

Understanding the relationship between a species feeding strategy and its environment (trophic ecology) is critical to assess environmental requirements and improve management policies. However, measuring trophic interactions remains challenging. Among the available methods, quantifying the plant composition of a species' diet indicates how species use their environment and their associated niche overlap. Nevertheless, most studies focusing on herbivore trophic ecology ignore the influence that landscape variability may have. Here, we explored how landscape variability influences diet composition through niche overlap. We used eDNA metabarcoding to quantify the diet composition of two large herbivores of the Bialowieza Forest, red deer (Cervus elaphus) and European bison (Bison bonasus) to investigate how increasing habitat quality (i.e. higher abundance of deciduous forage species) and predation risk (i.e. density of wolf in the area) influence their diet composition and niche partitioning. Our findings indicate diet composition is non-homogeneous across the landscape, both within and between species. Red deer showed greater diet variability and lower niche overlap within species compared to bison. We detected a reduction of niche overlap for red deer with increasing predation risk, leading to more dissimilar diets, suggesting their feeding behaviour is affected by wolf presence. This correlation was not found for bison, which are rarely predated by wolf. Higher habitat quality was associated with higher niche overlap only within bison, probably due to their suboptimal feeding strategy as browsers. These results show the importance of integrating environment-induced diet variation in studies aimed at determining the landscape usage or niche overlap of a species.

Badgers remain fearless in the face of simulated wolf presence near their setts.

Many mesocarnivores are fossorial and use burrow systems to avoid predators. But fossorial animals cannot stay safely underground forever; they must also risk emerging overground to forage and find mates. To make this trade-off effectively and maximise their own fitness, it is imperative they assess how risk varies in space and time and adapt their denning behaviour accordingly. We used the badger in Białowieża Forest, Poland, as a model for investigating how the denning behaviour of a fossorial mesocarnivore varies in response to short-term large carnivore risk. To this end, we experimentally simulated perceived wolf presence outside 10 badger setts using audio playbacks of wolves (their howls). We assayed two behavioural measures of fear: badger emergence time from setts on the day playbacks were broadcast and their presence in setts on the day after. We found that neither badger emergence time nor next-day sett use varied in response to wolf playbacks. The results of the present study contrast with a previous study of ours that found badgers used setts in areas with high landscape level perceived wolf risk less often than those in lower-risk areas. Together, these papers' findings suggest that different spatiotemporal scales of perceived risk can have differential effects on badger behaviour. We conclude that rather than take risk avoidance measures at all risky times and places, badgers likely display a diversity of reactions to large carnivore presence that depend on the context and spatiotemporal scale of the risk being perceived.

Effects of large carnivores, hunter harvest, and weather on the mortality of moose calves in a partially migratory population

Survival of juvenile ungulates represents an important demographic parameter that influences population dynamics within ecosystems. In many ecological systems, the mortality of juvenile ungulates is influenced by various factors, including predation by large carnivores, human hunting activities and weather. While wolves Canis lupus are known to prey on moose Alces alces throughout all seasons, brown bears Ursus arctos primarily engage in predation during early summer, while human harvest primarily occurs in autumn and early winter. Hence, understanding the impacts of predation, harvest, and weather on the survival of juvenile moose is crucial for adaptive population management and the determination of sustainable harvest rates. To investigate the summer and autumn–winter survival of moose calves in relation to carnivore occurrence (wolf presence and bear density), summer habitat productivity, winter severity, human harvest, and migratory behaviour (migratory versus resident), we analysed data collected from 39 GPS‐collared female moose in south‐central Scandinavia. Our findings revealed significant interannual variation in summer survival rates, with areas with relatively higher bear densities exhibiting calf mortality rates twice as high as those in regions with low bear density. During the autumn–winter period, calf survival was lowest in the presence of wolves and deep snow, and it exhibited a negative correlation with the proportion of clearcuts and young forests within the mother's home range. Additionally, calf survival was negatively correlated with the risk of human hunting, and calves of stationary females displayed ten times higher survival rates compared to migratory individuals. Our study provides valuable insights into the survival of moose calves coexisting with two large carnivores and humans. Improving our understanding of the mechanisms causing calf survival to fluctuate has become increasingly important as many local moose populations in Scandinavia are declining and exposed to expanding predator populations, intense hunting pressure, and other threats associated with climate change.

The presence of wolves leads to spatial differentiation in deer browsing pressure on forest regeneration

With the recent return of large carnivores to forest ecosystems, an important issue for forest owners and managers is how large predators influence the behaviour of their natural prey and, consequently, cervid browsing pressure on forest regeneration. To investigate this issue, we analysed deer pressure on Scots pine and European beech plantations in northern Poland's ecosystems with and without permanent wolf populations. Two characteristics were used to describe deer browsing patterns in plantations: distance from the forest edge (spatial pattern of browsing) and number of saplings browsed (browsing intensity). Beech saplings were more intensively browsed by deer compared to pine saplings. In a forest ecosystem not inhabited by wolves, spatial variation in browsing patterns on small-sized beech plantations was the same between the edge and the center. In contrast, browsing pressure by deer was greater at the edges on large-sized pine plantations. The presence of wolves reduced deer browsing on beech and increased browsing on pine saplings. In addition, deer foraging behaviour changed in large-sized pine plantations, and browsing pressure increased only in the central areas of the plantations. We assume that the presence of wolves in a forest landscape is an important factor that alters browsing pressure on the youngest stands and their spatial pattern, and that this may be a major factor in stand regeneration, especially in small forest patches.

Fear of the Wolf: Are Human-Wildlife Conflicts Actually Human-Human Feuds?

Abstract This qualitative study explores the opinions of people who criticize the presence of wolves in Germany to understand what lies behind their concerns. It provides an intimate insight into the lives and fears of people and their relation to wolves and contributes to understanding the less considered critics of wolf management. By discussing the links between a fear of wolves, rural identity, and perceptions of nature, this paper proposes to explain how a human-wolf coexistence could still function for those who fail to be included in wolf management endeavors if wolf management added a social guideline on the basis of the presented problems. While a fear of wolves is generally ingrained in German society and wolves pose a real threat to farmed animals, for many people it is dysfunctional interhuman relations that pose a challenge in their coexistence with wolves, and less so the wolves themselves.

Wolf contact in horses at permanent pasture in Germany.

Wolves returned to Germany in 2000, leading to fear in German horse owners that their horses could be in danger of wolf attacks or panic-like escapes from pastures when sighting wolves. However, reports from southern European countries indicate that wolf predation on horses diminishes with increasing presence of wildlife. Therefore, we conducted a long-term, filed observation between January 2015 and July 2022 on 13 non breeding riding horses, mares and geldings, kept permanently on two pastures within the range of wildlife and a stable wolf pack with annual offspring. Wildlife cameras at the fences of the pastures made 984 times recordings of wolves and 3151 times recordings of wildlife in and around the pastures. Between 1 January 2022 and 23 March 2022 we observed two stable horse groups. Pasture 1 was grazed by five horses of mixed breed, four mares and one gelding, with the median age of 8 years (min. = 6y, max. = 29y). Pasture 2 was grazed by eight heavy warmbloods and draught horses, three mares and five geldings, with the median age of 16 years (min. = 13y, max. = 22y). During this period no wolf was recorded at pasture 2, but wild boar several times, whereas at pasture 1, wolves were recorded 89 times, and for the wildlife mostly hare. Wolves may have avoided pasture 2 because of the presence of wild boar or because the large group of older, heavy breed horses may have formed a stable, protective group. The latter needs to be confirmed in a follow-up field observation, which records anti-predator behavior and welfare indicators in horses. In conclusion, wolves did not attack the mature horses on pastures with plenty of wildlife and the horses did not respond to the presence of wolves with visible signs of reduced welfare or panic. This indicates that wolves may prefer to prey on easily accessible wildlife around and at horse pastures and that Central European horses become accustom to the presence of non-hunting wolves.

Occurrence of Leishmaniasis in Iberian Wolves in Northwestern Spain

Canine leishmaniasis is an important vector-borne protozoan disease in dogs that is responsible for serious deterioration in their health. In the Iberian Peninsula, as in most countries surrounding the Mediterranean Sea, canine leishmaniasis is caused by Leishmania infantum (zymodeme MON-1), a digenetic trypanosomatid that harbors in the parasitophorous vacuoles of host macrophages, causing severe lesions that can lead to death if the animals do not receive adequate treatment. Canine leishmaniasis is highly prevalent in Spain, especially in the Mediterranean coastal regions (Levante, Andalusia and the Balearic Islands), where the population of domestic dogs is very high. However, the presence of this disease has been spreading to other rural and sparsely populated latitudes, and cases of leishmaniasis have been reported for years in wildlife in northwestern Spain. This work describes for the first time the presence of wolves that tested positive for leishmaniasis in the vicinity of the Sierra de la Culebra (Zamora province, northwestern Spain), a protected sanctuary of this canid species, using PCR amplification of L. infantum DNA from different non-invasive samples such as buccal mucosa and those from both ears and hair. In addition to live animals (21), samples from carcasses of mainly roadkill animals (18) were also included and analyzed using the same technique, obtaining a positivity rate of 18 of the 39 wolves sampled (46.1%) regardless of their origin.

An Exploration of Drivers for Abandonment or Continuation of Summer Pasture Grazing in South Tyrol, Italy

Summer pasture grazing is perceived as being under pressure from renewed wolf presence in the Italian Alpine province of South Tyrol. To investigate this, we combined a literature review with expert interviews to (1) get an overview of the situation of small ruminant farming and (2) identify drivers with an influence on summer pasture use, including wolf presence. Firstly, the results show an increase in small ruminant farms and stock numbers in the valley and on summer pastures during the last years. Secondly, subsidy programs, off-farm employment, lack of personnel and tourism are some of the main drivers for summer pasture development in the past and future. Thirdly, this analysis detects the potential pressure of wolf presence on small ruminant summer farming. Nevertheless, this impact should still be considered modest compared to other driving processes that have started before the return of the wolves. Based on this, the study finally discusses the importance of focusing on targeted funding, the revalorization of the shepherd profession and the balance between tourism and livestock farming to support summer pasture farming in the future.

How to Choose? Comparing Different Methods to Count Wolf Packs in a Protected Area of the Northern Apennines.

Despite a natural rewilding process that caused wolf populations in Europe to increase and expand in the last years, human-wolf conflicts still persist, threatening the long-term wolf presence in both anthropic and natural areas. Conservation management strategies should be carefully designed on updated population data and planned on a wide scale. Unfortunately, reliable ecological data are difficult and expensive to obtain and often hardly comparable through time or among different areas, especially because of different sampling designs. In order to assess the performance of different methods to estimate wolf (Canis lupus L.) abundance and distribution in southern Europe, we simultaneously applied three techniques: wolf howling, camera trapping and non-invasive genetic sampling in a protected area of the northern Apennines. We aimed at counting the minimum number of packs during a single wolf biological year and evaluating the pros and cons for each technique, comparing results obtained from different combinations of these three methods and testing how sampling effort may affect results. We found that packs' identifications could be hardly comparable if methods were separately used with a low sampling effort: wolf howling identified nine, camera trapping 12 and non-invasive genetic sampling eight packs. However, increased sampling efforts produced more consistent and comparable results across all used methods, although results from different sampling designs should be carefully compared. The integration of the three techniques yielded the highest number of detected packs, 13, although with the highest effort and cost. A common standardised sampling strategy should be a priority approach to studying elusive large carnivores, such as the wolf, allowing for the comparison of key population parameters and developing shared and effective conservation management plans.

Rapid expansion of the golden jackal in Greece: research, management and conservation priorities

A rapid and extensive range expansion of the golden jackal has recently been documented in continental Europe, raising new policy and legal questions and creating an urgent need to understand the mechanisms underlying this distribution change. Because of human persecution, the jackal population in Greece went through a serious bottleneck and is therefore now listed as endangered. We used data from field work and publicly accessible sources as well as general linear models to assess the evolution of jackal presence and to identify important variables that could predict occupancy probability and potential expansion, and priority conservation and management areas for the species in Greece. Our results indicate a rapid expansion of approximately 320% of the golden jackal range in Greece in less than 5 jackal generations. Distance to their previous distribution range and the presence of wolves had a negative effect, while percentage of wetlands, arable land and permanent crops had a positive effect in predicting the probability of jackal occupancy in Greece. Potential areas of expansion were identified mainly in the western and central parts of the Greek mainland and the island of Euboea. Only 22.6% of the potential priority conservation areas for the jackal in Greece are currently under legal protection, and of these, 23.8% are suitable for targeted management actions. Based on these results we define concrete research, conservation and management priorities for golden jackals in Greece.

Populacijski trend, prostorna rasprostranjenost i glavne prijetnje velikim zvjerima na području općine Neum

The existence of three species of large animals in Bosnia and Herzegovina, this country has a significant role in preserving the biological diversity and types of these species. Large animals often use preserved habitats ofold forest stands, but in the absence of maquis. This work confirms for the first time the presence of wolves and bears in the Euro-Mediterranean and sub-Mediterranean habitat in the south of Bosnia and Herzegovina and provides an overview of the populations in this area.

Developing A Territorial Approach to Wolves through Agri-food Practices. A Survey on the Relations Between Biodiversity and Food in Belledonne

Wolves’ return to France since 1992 highlights the contradictory injunctions and the overlooked theoretical and political ideas as regards the relationship between biodiversity and food that mountainous regions are faced with. Government and regulatory responses have not yet succeeded in overcoming the conflicts brought about by the presence of wolves in the day-to-day lives of those living in mountainous regions. How can we transition from a mere adaptation of national sectoral policies on a territorial scale to the development of an actual territorial approach to the conservation of biodiversity, while taking account of the experiences and needs of inhabitants and players, and the specific challenges faced by such territories as regards food? By conducting a survey on the role played by agropastoralism in the development of mountainous regions, and cross-examining biodiversity and food issues, our territorial approach hypothesis raises the question of a collective debate regarding the future of such regions. In this study, we explain the work carried out since 2019 in the context of a research-action-creation project in Belledonne – RECIBIOLDAL – which is based partly on a long-term survey attempting to understand the relations between biodiversity and food in terms of how the landscape has evolved since 1920, and partly on the creation of a narrative surrounding current farming and food practices, with a view to understanding relations between inhabitants, both human and non-human. Lastly, we will look into how the care afforded to these links and various relationships can contribute towards discussion surrounding a territorial approach to wolf and food management.