key: cord-0752809-u9e39hm4
authors: Ramírez-Álvarez, Diego; Napolitano, Constanza; Salgado, Iván
title: Puma (Puma concolor) in the Neighborhood? Records Near Human Settlements and Insights into Human-Carnivore Coexistence in Central Chile
date: 2021-03-31
journal: Animals (Basel)
DOI: 10.3390/ani11040965
sha: 1e172d10ad227b817c296147a63fe41cc2b734ea
doc_id: 752809
cord_uid: u9e39hm4

SIMPLE SUMMARY: The presence of carnivores near human settlements is a poorly studied topic that generates concern and perception of risk in some human communities, especially for medium to large felids. Apart from the conflict of the potential predation of livestock, there is the insecurity perception of a potential attack on people. To gain a better understanding of how, when, and how close pumas approached human settlements, we analyze 51 puma records near populated areas over eight years in central Chile. The results show that pumas approached human-populated areas; in 23.5% of the records pumas are found between 0 and 999 m from the nearest human settlement, 25.5% are between 1000 and 4999 m, and 51% are over 5000 m. We associate puma records with landscape features, such as mountain ranges, land-use, road, and urban infrastructure; and based on previous knowledge of puma biology, behavior, and habitat preference, we identify their area of occupation and the potential biological corridor used for their movements from the Andes Range to the coast. Our results show the adaptability of pumas to human-dominated landscapes, and their capacity to overcome landscape barriers, such as human infrastructure, contributing to a better understanding of the population dynamics in the study area. Studies on human–carnivore coexistence, through formulas that consider local realities and the reduction of implicit risks for humans, are urgently needed, both globally and locally, and likely the only way to secure the long-term conservation of pumas in human-dominated landscapes. ABSTRACT: The wildland–urban interface lies at the confluence of human-dominated and wild landscapes—creating a number of management and conservation challenges. Wildlife sightings near human settlements have appeared to increase in the last years. This article reports 51 records of presences, sightings, and livestock attacks of Puma concolor, a large-sized felid, collected from 2012 to 2020 across the O’Higgins region in central Chile. Puma records were concentrated in the east of the region in the Andes Range and foothills (90%). The number of puma records is higher in the last four to six years than in previously studied years. Of the 51 records, 23.5% are between 0 and 999 m from the nearest human settlement (classified as very close), 25.5% are between 1000 and 4999 m (moderately close), and 51% are over 5000 m (distant). Most of the sightings are recorded in the summer (35%) and spring (29%). We identify an area of approximately 9000 km(2) of suitable habitat as the most probable corridor effectively connecting pumas moving between eastern and western areas, encompassing the Angostura de Paine mountain range. Our results contribute to the understanding of the presence and movements of P. concolor near urban areas and human settlements, confirming their persistence in and adaptation to human-dominated landscapes. We also provide insights into human–carnivore coexistence in the current global context in the densely populated central Chile.

P. concolor maintains a stable population with a density of 0.75 adults per 100 km 2 in the Alto Cachapoal basin [42] in the Andes Range of the O'Higgins region, relatively far away from human activity. This is one of the lowest densities for the species in South America, compared to densities of 3.4 to 6 individuals per 100 km 2 reported for Chilean Patagonia [10, 20] and 3.4 to 6.8 individuals per 100 km 2 reported for the tropical forests of Brazil and the Bolivian Chaco, respectively [43, 44] . However, this small Andean population in the O'Higgins region shows healthy ecological and biological dynamics, apparently breeding successfully, producing offspring that successfully reach the age of dispersal and adulthood, and feeding mainly on lagomorphs, birds, and other native mammals, and to a much lesser extent on transhumant cattle during the summer season [35, 45] .

The species has been banned from hunting and capture in Chile since the early 1980s, which may have facilitated a relative recovery and stabilization of its populations. Reports of cougar sightings and/or attacks on domestic cattle are increasingly frequent in recent years in the lower foothills, the intermediate depression, and even in the coastal area of the O'Higgins region [46] .

Here we report records of P. concolor from the last eight years (2012-2020) across the O'Higgins region in central Chile, showing their distance of approach to human P. concolor maintains a stable population with a density of 0.75 adults per 100 km 2 in the Alto Cachapoal basin [42] in the Andes Range of the O'Higgins region, relatively far away from human activity. This is one of the lowest densities for the species in South America, compared to densities of 3.4 to 6 individuals per 100 km 2 reported for Chilean Patagonia [10, 20] and 3.4 to 6.8 individuals per 100 km 2 reported for the tropical forests of Brazil and the Bolivian Chaco, respectively [43, 44] . However, this small Andean population in the O'Higgins region shows healthy ecological and biological dynamics, apparently breeding successfully, producing offspring that successfully reach the age of dispersal and adulthood, and feeding mainly on lagomorphs, birds, and other native mammals, and to a much lesser extent on transhumant cattle during the summer season [35, 45] .

The species has been banned from hunting and capture in Chile since the early 1980s, which may have facilitated a relative recovery and stabilization of its populations. Reports of cougar sightings and/or attacks on domestic cattle are increasingly frequent in recent years in the lower foothills, the intermediate depression, and even in the coastal area of the O'Higgins region [46] .

Here we report records of P. concolor from the last eight years (2012-2020) across the O'Higgins region in central Chile, showing their distance of approach to human settlements, proposing suitable habitat areas for spatial movements and dispersal, and discussing human-wildlife coexistence in the current global context. We document that this species, which we believe commonly displays refractory behavior towards humans and mostly occupies territories far from urbanization, in some situations approaches human settlements.

The Agricultural and Livestock Service (SAG, for its acronym in Spanish), part of the Ministry of Agriculture, is the Chilean state institution in charge of the administration and supervision of hunting law regulations and protecting native species in the country. Between May, 2012, and July, 2020, SAG from the O'Higgins region received (citizen's reports) and collected from its own sources records of presence, sightings, and livestock attacks of P. concolor in different locations across the region. Only verified species assignments were included in this study: Photographs, video recordings, trail camera records, corpse findings, live captures for research purposes, and forensic analysis of attacked cattle. The following data were obtained for each record: Location, date, georeference, altitude, and distance to the nearest human settlement calculated from its perimeter. The settlement was defined as a permanent dwelling site inhabited by more than 100 people. To assess the distance of approach to human settlements, the spatial data was analyzed using the ArcGIS-Pro ® software, and a digital elevation model (DEM) obtained from the PALSAR (Phased Array Type L-band Synthetic Aperture Radar) sensor of the Japanese satellite ALOS (Advanced Land Observation Satellite) with a sampling resolution of 12.5 m (Hi-Res Terrain Corrected), along with a cartography of the road network and populated areas in the region. We classified the distance from the P. concolor record to the closest human settlement in three categories: (a) Very close, when the distance was between 0 and 999 m; (b) moderately close, the distance between 1000 and 4999 m; and (c) distant, over 5000 m.

To identify suitable habitat probably used by pumas to move across the region and explore the potential corridor between east and west, we conducted a spatial analysis using ArcGIS Pro ® combined with the Chilean land cover layer (LandCover-2014), a land-use vector layer developed by the National Institute of Statistics of Chile (INE for its acronym in Spanish), and a high-resolution digital elevation model from the ALOS PALSAR sensor. Landscape features suitable for puma movements (habitat) were identified and included as geographic inputs: Continuity of vegetation cover, wooded or shrub areas, rugged terrain, and abrupt changes in elevation. We excluded roads and areas of high urban anthropic activity (following puma habitat suitability criteria; [47] [48] [49] . Landscape features were identified through two digital cartographic tools: The Digital Elevation Molding (DEM) of the Alos Palsar sensor, with a native resolution of 12.5 m, and the Land Cover Classification System (LCCS), a product that discriminates land cover between its biological and physical components, at a spatial resolution of 30 m with at least three levels of classes. To identify and exclude urban areas with high anthropic activity, we used a digital cartographic layer of geographical census division, which discriminates between areas of urban demographic concentration, and other human settlements with low population concentration.

We collected 51 records of the presence of P. concolor across the study area (Table 1, Figure 2 ). Puma records were concentrated in the east of the region, in the Andes Range and foothills (46/51, 90.2%). Only five records (5/51, 9.8%) occurred in the western area, in the intermediate depression, Coast Range, and coastal plain ( Figure 3 ). Twelve (23.5%) of the 51 records were between 0 and 999 m from the nearest human settlement (classified herein as very close), 13 (25.5%) were between 1000 and 4999 m (moderately close) and 26 records (51%) were over 5000 m from the nearest human settlement (classified as distant) (Figures 3 and 4) .

Records varied from 132 to 2725 m elevation, with a median of 465 m for the records very close to human settlements, and 724 and 1471 m for records moderately close and distant, respectively. We found statistically significant differences between distance classes and altitude ( Figure 4B ) for all comparisons (very close-moderately close: U = 39, z = 2.09, p = 0.037; moderately close-distant: U = 39.5, z = 3.84, p = 0.00012; very closedistant: U = 18, z = 4.32, p < 0.00001).

Three of the 12 records classified as very close to human settlements occurred within the urban limits of cities: Los Lirios in Requínoa (27,968 inhabitants), Machalí (52,505 inhabitants), and San Fernando (58,367 inhabitants) [50] (Figure 3 ). In two of these records, through security cameras pumas were observed crossing the garden of inhabited houses, and in one of them, the animal is looking into a house through the window in a stalking position, probably due to an indoor pet (Figure 2A ). Twelve (23.5%) of the 51 records were between 0 and 999 m from the nearest human settlement (classified herein as very close), 13 (25.5%) were between 1000 and 4999 m (moderately close) and 26 records (51%) were over 5000 m from the nearest human settlement (classified as distant) (Figures 3 and 4) .

Records varied from 132 to 2725 m elevation, with a median of 465 m for the records very close to human settlements, and 724 and 1471 m for records moderately close and distant, respectively. We found statistically significant differences between distance classes and altitude ( Figure 4B Almost all records classified as very close to human settlements corresponded to P. concolor in transit, where the animal was not seen again prowling in the area, therefore no capture or translocation was required, except for one case in Machalí ( Figure 3G ). In this case, a cougar was cornered by a group of stray dogs (Canis familiaris) among dense Rubus ulmifolius scrub in an urban park; therefore, a containment operation had to be conducted to restrain the dogs, and a controlled escape route towards the nearby hills had to be secured for the puma, through which it finally escaped into its natural habitat.

The human settlement that showed the highest recurrence of P. concolor sightings, with two very close records and three moderately close records, was Chacayes (276 inhabitants, 34°14′59′′ S 70°28′30′′ W, 917 m) [50], an Andean village in the Machalí commune at the junction of the Pangal and Cipreses Rivers and at the entrance of the Rio Cipreses National Reserve.

All records classified as distant from human settlements corresponded to sightings in the Andes Range and its foothills, either in mining or hydroelectric facilities, derived from studies with camera traps, or occasional findings in hiking or mountaineering activities. Three of the five records located in the western area were very close to human settlements, and the other two moderately close (Figure 3) . Two of them were located in the intermediate depression, a finding of a puma corpse (killed by a vehicle collision) near the town of Santa Inés and a sighting in Lago Rapel, in addition to three other sightings in the Coast Range pine plantations and the coastal plain.

Most of the sightings were recorded in the summer and spring seasons; 18 in summer (35%), 15 in spring (29%), 9 in autumn (18%), and 9 in winter (18%), and mainly in December ( Figure 4C , Table 1 ). The season with the highest proportion of occurrence of very close records was winter (44%), and that with the lowest proportion was spring (7%) (all comparisons statistically non-significant). Almost all records classified as very close to human settlements corresponded to P. concolor in transit, where the animal was not seen again prowling in the area, therefore no capture or translocation was required, except for one case in Machalí ( Figure 3G ). In this case, a cougar was cornered by a group of stray dogs (Canis familiaris) among dense Rubus ulmifolius scrub in an urban park; therefore, a containment operation had to be conducted to restrain the dogs, and a controlled escape route towards the nearby hills had to be secured for the puma, through which it finally escaped into its natural habitat.

The human settlement that showed the highest recurrence of P. concolor sightings, with two very close records and three moderately close records, was Chacayes (276 inhabitants, 34 • All records classified as distant from human settlements corresponded to sightings in the Andes Range and its foothills, either in mining or hydroelectric facilities, derived from studies with camera traps, or occasional findings in hiking or mountaineering activities. Three of the five records located in the western area were very close to human settlements, and the other two moderately close (Figure 3) . Two of them were located in the intermediate depression, a finding of a puma corpse (killed by a vehicle collision) near the town of Santa Inés and a sighting in Lago Rapel, in addition to three other sightings in the Coast Range pine plantations and the coastal plain.

Most of the sightings were recorded in the summer and spring seasons; 18 in summer (35%), 15 in spring (29%), 9 in autumn (18%), and 9 in winter (18%), and mainly in December ( Figure 4C , Table 1 ). The season with the highest proportion of occurrence of very close records was winter (44%), and that with the lowest proportion was spring (7%) (all comparisons statistically non-significant).

The number of records was higher for the last 4 to 6 years (2015-2020) compared to the number of sightings recorded in the previously studied years (2012-2014) ( Figure  4D , Table 1 ). From 2015 onwards, a higher proportion of occurrence of very close and moderately close sightings was recorded (all comparisons statistically non-significant).

Only 16 of the 51 records had photos (12 records) or videos (four records). In these images we could identify four males (25%, 4/16), six females (37.5%, 6/16) and six juveniles (37.5%, 6/16). Two records corresponded to a female with two cubs. The estimated body condition for the animals in these images were: Three males 3/5, one male 4/5, six females 3/5, four juveniles 3/5, and two juveniles 2/5.

Only 24 of the 51 records had confirmed the time of the day when the sighting occurred. For puma records very close to human settlements, 40% (2/5) occurred during the day and 60% (3/5) at night. For moderately close records, 17% (1/6) occurred during the day and 83% (5/6) at night. For distant records, 23% (3/13) occurred during the day, 23% (3/13) at dusk, and 54% (7/13) at night ( Figure 4A ) (all comparisons statistically non-significant).

The spatial analysis to identify suitable habitat probably used by pumas to move across the region estimated an area of approximately 9000 km 2 , the most probable corridor east-west being the mountains of Angostura de Paine to Altos de Cantillana, which range across the north of the region ( Figure 5 ). Based on our records, this mountain range could effectively connect pumas between the eastern and western areas. The number of records was higher for the last 4 to 6 years (2015-2020) compared to the number of sightings recorded in the previously studied years (2012-2014) (Figure 4 -D, Table 1 ). From 2015 onwards, a higher proportion of occurrence of very close and moderately close sightings was recorded (all comparisons statistically non-significant).

Only 16 of the 51 records had photos (12 records) or videos (four records). In these images we could identify four males (25%, 4/16), six females (37.5%, 6/16) and six juveniles (37.5%, 6/16). Two records corresponded to a female with two cubs. The estimated body condition for the animals in these images were: Three males 3/5, one male 4/5, six females 3/5, four juveniles 3/5, and two juveniles 2/5.

Only 24 of the 51 records had confirmed the time of the day when the sighting occurred. For puma records very close to human settlements, 40% (2/5) occurred during the day and 60% (3/5) at night. For moderately close records, 17% (1/6) occurred during the day and 83% (5/6) at night. For distant records, 23% (3/13) occurred during the day, 23% (3/13) at dusk, and 54% (7/13) at night ( Figure 4A ) (all comparisons statistically nonsignificant).

The spatial analysis to identify suitable habitat probably used by pumas to move across the region estimated an area of approximately 9000 km 2 , the most probable corridor east-west being the mountains of Angostura de Paine to Altos de Cantillana, which range across the north of the region ( Figure 5 ). Based on our records, this mountain range could effectively connect pumas between the eastern and western areas. 

The records presented here are relevant to understand the presence and movements of P. concolor near urban areas and human settlements. They confirm the persistence of the species in the intermediate depression and coastal area of central Chile, overcoming urban infrastructure and adapting to human-dominated landscapes that could potentially act as barriers to their dispersal [51] .

Obtaining evidence of the presence of P. concolor in the intermediate depression of central Chile is difficult, even with a good sampling effort. Recently, Garcia et al. [52] studied the presence of carnivores for four years (2013-2016), installing 53 camera traps (baited with lynx urine) in 12 remnant patches of sclerophyllous forest and shrubland in vineyard landscapes of the Mediterranean region of central Chile, but did not record P. concolor.

In this study, records classified as very close and moderately close were concentrated in the transition zone between the Andes foothills and the intermediate depression, parallel to the main Chilean north-south highway (Ruta 5 Sur), where most of the populated areas are located. This may explain the significant differences found between distance classes and altitude, and not an actual behavioral difference between the Andes foothills and the lowlands.

Detection probability may not be homogeneous across the study area, and may be higher near human settlements. We acknowledge the observed pattern of distribution may be biased accordingly, and this should be considered when interpreting the results. In this study, we did not find a higher number of records closer to human settlements.

Puma records concentrated along the east of the main Chilean north-south highway, where most of the urban infrastructure is located, suggests that this densely populated strip may constitute one of the determining filters in the dispersal of the species from the east (Andes) to west (coast). It has been described that anthropogenic obstacles modify landscape permeability for pumas, and that dispersal distances are shorter in fragmented than in continuous landscapes [53] . At the wildland-urban interface, Kertson et al. [54] also found that early-successional forest (+), conifer forest (+), distance to the road (−), residential density (−), and elevation (−) were significantly positive and negative predictors of habitat use for P. concolor.

The locality of Chacayes, where the highest recurrence of sightings of P. concolor was recorded, is immersed in an area previously determined as of high transit of P. concolor through studies with satellite positioning collars [35] . Small livestock farming, the main economic activity, together with its geographical location in the Andes foothills may influence this greater number of sightings. Coincident with historical P. concolor sightings and information, we found no records in the southwestern part of the region, which has been the case for at least the past seven decades (personal communications of local inhabitants).

The coastal records of P. concolor in the region support previously studies in Chile reporting that pumas are habitat and diet generalists [48] . In the coastal area, forest plantations of exotic species (Pinus radiata) cover extensive surfaces, providing adequate vegetation coverage for its lurking predation habits and abundant populations of lagomorphs, which together with the occasional consumption of sheep may constitute its local main diet.

Considering that some puma reproductive behavior (communication and denning) may be affected by the proximity to urbanized areas [55] , it remains to be clarified whether the coastal and intermediate depression sightings recorded in this study correspond to resident puma subpopulations or to non-resident animals bi-directionally transiting animals coming from the Andean zone. In a metapopulation framework, puma subpopulations separated by areas of non-or less-suitable habitat could be connected by dispersers, providing gene flow [47, 56] . The ecological flexibility of pumas and their high dispersal capabilities can promote wide genetic connectivity across large geographic areas [57] .

The proposed east-west corridor may connect from the Andes Range and its foothill, to hill chains in the Angostura de Paine sector, Altos de Cantillana and its southern mountain range, and to the Coast Range and coastal plains in the west, at least to the town of Pichilemu in the south. The east-to-west dispersal of P. concolor in the region may follow the source-sink model of population dynamics, which predicts that density drives emigration of subordinate animals to habitats offering lower competition for resources [7] , considering that the decision of whether or not to disperse is multi-factorial, context-dependent and highly individualistic [58] .

The dispersal of pumas is driven mainly by the search for food and reproductive partners in adults within their territories [10, 11] . During the dispersion period of juveniles (between 1 to 2 years of age), the mother expulses her descendants from their birth territory, inducing them to search for their own [56] . It is mainly in this period when young inexperienced individuals may approach populated areas in search of food or to establish their own territories, and are subjected to the pressure of not being able to settle down or being expelled from territories already occupied by adult pumas. In this study, 37.5% of all puma records with identified sex were juveniles.

The proportion of occurrence of records in the different distance classes varied across the temporal distribution (year, season, and time of the day). However, all comparisons were statistically non-significant, probably due to the low sample size. The season with the highest proportion of very close records was winter, probably when snow and food scarcity forces some individuals to descend to lower elevations. The season with the lowest proportion of very close records was spring, with high prey availability for pumas [59] .

Regarding the time of the day when the sightings occurred, very close, moderately close, and distant records had an approximately similar proportion of occurrence during dusk/night (60% night, 83% night, and 77% dusk/night (23% dusk, 54% night), respectively), assuming both dusk and night may facilitate puma movements being undetected by humans. However, we cannot properly assess this with our limited dataset. In other large felids, such as leopards, it has been described that in human-dominated landscapes animals shift their activity patterns towards markedly nocturnal [60] .

The increased number of puma records we report here in the last 4 to 6 years compared to previously studied years is most probably due to a sustained increase in awareness of the general public and use of social media to share wildlife sightings, especially near human settlements. A growing interest of citizens in wildlife watching, new technologies for observing and capturing images, such as camera traps and the ease of sharing records through social networks, increasingly shows that it is not unusual for carnivores to move through urban areas [61] [62] [63] . However, this trend may also be attributable in part to a real increase in puma presence/abundance in the region, due to greater protection for the species, however, with our current data, we cannot assess this. Both of these factors may be operating, and other variables, such as yearly climatic conditions and prey availability, could also influence this trend. SAG has not changed its monitoring protocols, database management, or increased surveillance efforts during the period studied.

An unusual increase in puma sightings within the urban radio occurred during 2020 in the capital city of Santiago in Chile (Metropolitan region, adjacent to our study area), attracting the attention of the general public and especially of the wildlife authorities (SAG), who had to capture and relocate the animals. Among possible causes that have been proposed are factors, such as the decrease of prey in the Andean area, due to a long-term mega-drought, the deregulated expansion of the real estate industry into wild areas, and the lockdown effect during the Covid-19 pandemic [64] . A source-sink model of population dynamics from the more abundant source populations in the Andes Range close to the city of Santiago may be another possible cause [7] . Some carnivores approach cities profiting from resources generated by humans or even establish their ecological niche in cities [65] [66] [67] . However, urban wildlife ecology studies, especially in carnivores, are scarce in South America [63, 68] . Therefore, all these possible explanations should still be considered as hypotheses under analysis and evaluated with caution in an inter-disciplinary approach [63] .

The small sample size in this study limited the possibility of addressing potential statistically significant patterns on the relationship between the distance to human settlements of puma records and other variables, such as year, season, time of the day, sex, age group, or body condition. Future studies should aim at collecting a larger, long-term dataset covering a much wider area to elucidate many of the aforementioned unsolved questions.

The wildland-urban interface lies at the confluence of human-dominated and wild landscapes, creating a number of management and conservation challenges [54] . For example, the approach of P. concolor to human settlements and urban areas may facilitate a higher probability of indirect or direct contact (including predation) with domestic dogs and cats (Felis silvestris catus), and subsequent transmission of their pathogens, potentially impacting puma populations. The transmission of infectious diseases from domestic dogs and cats have been demonstrated for other Chilean wild cats, facilitated by increased contact probability of human invasion into natural habitats and habitat fragmentation [69] [70] [71] [72] [73] . Cross-species transmission of pathogens as threats for puma populations have been studied in North America [74] [75] [76] and also for other wild felids [77] [78] [79] . However, to our knowledge, there are no disease studies at the wildland-urban interface in pumas in Chile, thus this potential threat is yet to be uncovered.

Coexistence and land-sharing must involve strategic regional planning and evidencebased management decisions, considering puma biology, landscape features, and human dimensions. A planning scheme should aim to identify areas with the highest human-puma overlap probabilities and try to reduce interactions between pumas and people, focusing on management, education, and landscape planning [49, 54] . Strategies should also secure protected wild areas from where carnivore populations can expand and migrate, and protect corridors for dispersal among subpopulations to ensure long-term metapopulation persistence, especially those subpopulations affected by fragmentation or offtake by humans [56] . In our study area in the O'Higgins region, there is one small, protected area located in the intermediate depression (Las Palmas de Cocalán National Park; 3700 ha) and one large protected area at high elevations in the Andes (Rio de Los Cipreses National Reserve; 36,800 ha).

Improved public opinion and protective legislation have been proposed as crucial factors to enable the coexistence of large carnivores and people sharing the same landscapes outside protected areas [80] . Effective law enforcement is essential for coexistence, allowing a shift in social values, cultural acceptance, and favorable habitat changes [81, 82] . Understanding the emotions involved in human-wildlife relationships [83, 84] and the drivers of people's tolerance towards those species perceived as dangerous [85, 86] is needed. Records of P. concolor attacks on humans are scarce worldwide, and from a probabilistic perspective, they represent a minimal risk [87] .

The current challenge is to develop and promote human-carnivore coexistence formulas that consider the local needs, resources, and cultural realities, allowing the sustainable balance between habitability and human development and the conservation of these carnivores [88] , without cities becoming sinks for these species [89] .

Our evidence of puma transit through or near human settlements without being commonly detected in the O'Higgins region suggests an implicit coexistence between human populations and wild carnivores, which still remains to be understood and assimilated by the local community. A growing interest of citizens in wildlife may be a good starting point, however, in the local communities of central Chile, much work still has to be advanced towards effective human-carnivore coexistence and the long-term persistence of all species.

Human-carnivore coexistence at the wildland-urban interface creates a number of management and conservation challenges. An interdisciplinary approach with social sciences professionals, wildlife managers, and other key actors is needed to develop successful coexistence formulas to allow the sustainable balance between human development and the long-term conservation of these carnivores sharing the same landscapes with people. Institutional Review Board Statement: Not applicable.

The data presented in this study are available in Table 1 .

Wild Mammals of North America

Genomic Ancestry of the American Puma (Puma concolor)

Mammals and amphibians of Southeast Alaska

Los mamíferos de la Argentina y la Región Austral de Sudamérica. Lista Comentada de Órdenes, Familias y Géneros de la Fauna de Mamíferos Silvestres del Cono Sur, con Mención a los Géneros y Especies de la Argentina

Sink populations in carnivore management: Cougar demography and immigration in a hunted population

Long-distance dispersal of a female cougar in a basin and range landscape

Long-distance dispersal of a male puma (Puma concolor puma) in Patagonia

Puma spatial ecology in open habitats with aggregate prey

Long-distance dispersal of a subadult male cougar from South Dakota to Connecticut documented with DNA evidence

Mountain lion social organization in the Idaho Primitive Area

The American Lion

Impact of Edge Habitat on Summer Home Range Size in Female Pumas

Response of pumas (Puma concolor) to migration of their primary prey in Patagonia

Florida Game and Fresh Water Fish Commission

Puma concolor. In Fire Effects Information System

Available online: www

Saggia Sulla Storia Naturale del Chili

Estudio preliminar de mamíferos silvestres chilenos: Su distribución, valor económico e importancia

Ecology of the Patagonia puma Felis concolor patagonica in southern Chile

Predation of guanacos (Lama guanicoe) by southernomost mountain lions (Puma concolor) during a historically severe winter in Torres del Paine National Park

El Puma en la Región de Coquimbo: Develando su Ecología e Interacción con la Ganadería

Feeding Ecology of the Patagonia Puma in southermost

Wild Cats, Status Survey and Conservation Action Plan

Antecedentes Biogeográficos y Ecológicos del Puma en el Territorio Chileno

Sobrevivencia del Puma o León andino (Felis concolor) en el semiárido y en la región central de Chile Sudamericano

Plan Nacional de Conservación del Guanaco (Lama Guanicoe) en Chile

Efectos Económicos de la Coexistencia Entre Pumas y Ganaderos en la Comuna de

Puma y Arriero en el Alto Cachapoal, Hacia la Resolución de un Conflicto

Multiple effects of urbanization on the biodiversity of developing countries: The case of a fast-growing metropolitan area

Urban ecosystem Services in Latin America: Mismatch between global concepts and regional realities? Urban Ecosyst

Evaluación del Conflicto entre Carnívoros Silvestres y Ganadería; Laboratorio de Vida Silvestre Fauna Australis, Facultad de Agronomía e Ingeniería Forestal

Serie Fauna Australis, Facultad de Agronomía e Ingeniería Forestal

Informe Técnico Final: Ecología y Relación con el ser Humano de Puma Concolor en la Reserva Nacional Río los Cipreses y Zonas Aledañas; Laboratorio Fauna Australis

Biodiversity hotspots for conservation priorities

Puma Puma concolor density estimation in the Mediterranean Andes of Chile

Estimating Puma Densities from Camera Trapping across Three Study Sites: Bolivia, Argentina, and Belize

Use of Camera-Trapping to Estimate Puma Density and Influencing Factors in Central Brazil

Sobrevivencia de crías de puma (Puma concolor) hasta edad de dispersión en la Reserva Nacional Río los Cipreses

Habitat barriers limit gene flow and illuminate historical events in a wide-ranging carnivore, the American puma

Habitat use of four terrestrial carnivores in southern Chile

Cougar roadside habitat selection: Incorporating topography and traffic

Survival and Mortality of Pumas (Puma concolor) in a Fragmented, Urbanizing Landscape

Remnants of native forests support carnivore diversity in the vineyard landscapes of central Chile

Dispersal behaviour of a polygynous carnivore: Do cougars Puma concolor follow source-sink predictions?

Cougar space use and movements in the wildland-urban landscape of western Washington

Scale Dependent Behavioral Responses to Human Development by a Large Predator, the Puma

Cougar dispersal patterns, metapopulation dynamics, and conservation

Molecular evidence for a recent demographic expansion in the puma (Puma concolor) (Mammalia, Felidae)

Personality-dependent dispersal: Characterization, ontogeny, and consequences for spatially-structured populations

Seasonal variation in the feeding ecology of pumas (Puma concolor) in northern California

Adaptable Neighbours: Movement Patterns of GPS-Collared Leopards in Human Dominated Landscapes in India

One strategy does not fit all: Determinants of urban adaptation in mammals

Urban wildlife in times of COVID-19: What can we infer from novel carnivore records in urban areas?

COVID-19 lockdown allows researchers to quantify the effects of human activity on wildlife

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Cross-species transmission of retroviruses among domestic and wild felids in human-occupied landscapes in Chile

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Feline leukemia virus infection: A threat for the survival of the critically endangered Iberian lynx (Lynx pardinus)

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Human emotions toward wildlife

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The Elephant in the room: What can we learn from California regarding the use of sport hunting of pumas (Puma concolor) as a management tool

El puma (Puma concolor) en las pampas de la provincia de Buenos Aires: Una actualización sobre distribución geográfica y conflicto con el hombre

The ecology of humancarnivore coexistence

We thank the Wildlife Monitoring Project ICAV-UOH and JC Torres for valuable data contribution. We especially acknowledge Lucia Abello and Martin Fernández for their contribution with puma historical photographs and data.

The authors declare no conflict of interest.