Mariano R. Recio

Understanding determinants of home range behaviour of feral cats as introduced apex predators in insular ecosystems: a spatial approach

The introduced feral cat (Felis catus) is a widespread generalist with flexible social behaviour and an apex predator without major interspecific competitors in insular ecosystems that evolved in the absence of predators. Mechanistic definitions consider an animal’s home range to be the spatial expression of a cognitive map that is kept up-to-date with the status of critical resources that contribute to animal fitness. We assumed there are two major determinants structuring the home range of cats as apex predators in insular ecosystems: the distribution of critical food resources and conspecific distribution. We hypothesized that cats structure their home ranges by optimizing the use of staple critical food resources and that as a consequence of the presence of rich resources cats tend to socialise, aggregate and share space. We carried out spatial analyses using location data for feral cats tracked using lightweight GPS collars in conjunction with the suitability value of rabbit patches and their associated ownership costs for cats within a New Zealand braided-river environment. Cat home ranges and spatial distribution, especially for females, were related to the inclusion of rabbit patches within home ranges with higher mean value than the average of neighbourhood patches in the landscape. Cats showed solitary behaviour but tolerance to conspecific presence by sharing high-use areas and high-value rabbit patches, mostly at different times, resulting in occasional encounters among males and females. Home range size and patterns of spatial overlap were dependant on sex and season. Solitary spacing patterns as consequence of innate preferences together with resource constraints may regulate feral cat population densities.

Predictive niche modelling to identify potential areas of conflicts between human activities and expanding predator populations: a case study of game management and the grey mongoose, Herpestes ichneumon, in Spain

Context. The grey mongoose, Herpestes ichneumon L., is a protected species in Spain. Populations of grey mongoose are currently increasing in numbers, and potential conflicts with human interests involving predation of small-game species, may arise in the near future. Aims. We predicted potential suitable areas for the expansion of grey mongoose by using a niche modelling approach to detect areas of conflict with small-game hunting activities. Methods. We compared these areas with regions in which small-game hunting is an important economic activity. To produce a niche-suitability map we used Maxent and an internal (data-splitting) validation to assess the predictive performance of the model. Areas in which small-game hunting is important were identified by using a rabbit-abundance index. Key results. On the basis of suitability modelling, populations of grey mongoose will expand into southern and central Spain. The variables with higher predictive power are mainly climatic, although some mosaic habitat types are also important. Internal validation reveals a strong correspondence between predicted and observed records. The overlap of high-suitability areas with areas assigned with a high rabbit-abundance index indicated the existence of large regions of potential conflict with hunting interests. Conclusions. Predictions of niche modelling can be used to detect conflict areas between expanding species and human interests. As a consequence of the expansion of the grey mongoose, the incidence of non-selective predator control may increase, thereby posing a threat to other protected predators. Implications. Identified areas of likely conflict should be prioritised to delineate careful management programs in terms of people education, surveying, incentives and the detection of illegal predator-control activities.

Quantifying fine-scale resource selection by introduced feral cats to complement management decision-making in ecologically sensitive areas

Abstract The feral domestic cat (Felis catus) is considered to be one of the most damaging introduced predators, responsible for the decline and extinction of numerous native species. Advanced satellite technologies enable the study of resource selection by small mammals at fine-scales through remote data. These tools can improve understanding of the spatial ecology of introduced predators in ecologically sensitive areas, such as where cats pose a threat to native species and where improvement of predator control methods is required. We studied fine-scale resource selection by feral cats in the ecologically important New Zealand braided-river ecosystem, where they pose a risk to endangered native ground-nesting birds. We collected 34 location datasets from 21 cats fitted with lightweight global positioning system-collars, and extracted landscape variables from a resource map created using very high spatial resolution satellite imagery (Quickbird) and object-base imagery analysis for image classification. We modelled second-order seasonal and annual resource selection functions and characterized landscape composition of highly-used areas using compositional analysis. At a population level, cats generally selected fine-scale landscapes that are important for their primary prey rabbits (Oryctolagus cuniculus), and for refugia. An external validation of the annual model using data from cats tracked in an independent study showed a positive correlation with model predictions. Individual cats also visited habitats used by native ground-nesting birds, and thus pose a threat to them through secondary predation or individual specialization. Cat control operations should therefore focus around areas of concentrated ground-nesting bird activity and in areas identified as high-use by cats.

The importance of urban gardens in supporting children's biophilia

Significance Nature exposure is an important determinant of human mental and physical well-being, but rapid urbanization means that accessing natural areas is increasingly challenging. Children in particular are thought to show a deep affective affiliation with life (biophilia), and health disorders, such as attention-deficit hyperactivity disorder, stress, obesity, and depression, are attributed to lack of interaction with wild nature, termed “nature-deficit disorder.” We tested biophilia in children by quantitatively evaluating the availability and use of biodiverse spaces, and found no evidence of preference for biodiverse or wild areas, even where children had access to highly biodiverse areas. Because of constrained movements, children’s exposure to nature occurred mostly in private gardens, which are disappearing with densification and ongoing loss of private greenspace. Exposure to and connection with nature is increasingly recognized as providing significant well-being benefits for adults and children. Increasing numbers of children growing up in urban areas need access to nature to experience these benefits and develop a nature connection. Under the biophilia hypothesis, children should innately affiliate to nature. We investigated children’s independent selection of spaces in their neighborhoods in relation to the biodiversity values of those spaces, in three New Zealand cities, using resource-selection analysis. Children did not preferentially use the more biodiverse areas in their neighborhoods. Private gardens and yards were the most preferred space, with the quality of these spaces the most important factor defining children’s exposure to nature. Children’s reliance on gardens and yards for nature experiences raises concerns for their development of a nature connection, given disparities in biodiversity values of private gardens in relation to socioeconomic status, and the decline in sizes of private gardens in newer urban developments.

Emblematic forest dwellers reintroduced into cities: resource selection by translocated juvenile kaka

Abstract Urbanization and exotic species are major threats to the conservation of forest-dependent wildlife species. Some emblematic species, indicators of habitat quality for the conservation of other species, might successfully be reintroduced within cities when habitat restoration and pest management programs are combined. We studied the landscape resource selection of juvenile kaka Nestor meridionalis tracked with Global Positioning System (GPS) units and released into the predator-free reserve of Zealandia in Wellington city, New Zealand. Kaka moved beyond the predator exclusion fence into urban suburbs. The home range size and areas of high use estimated using local convex hull (a-LoCoH) ranged from 20 to 240 ha and 2 to 21 ha, respectively. Using resource selection functions and model selection we found that native forest patches and urban areas close to the reserve were selected by kaka to establish their home ranges. At a lower scale of selection (i.e., selection of habitats within home ranges), kaka selected the same habitat, but not necessarily those close to the reserve. Native forest patches throughout the city can facilitate the dispersal of individuals, while the reserve provides protection and opportunities for supplementary feeding. Urban areas might have been selected due to the placement of feeders in private backyards. Survival of forest-dwelling species in cities requires careful urban planning and management to provide the necessary habitat patches, refugia, and food sources.

Reply to Fattorini et al.: Children’s selected avoidance of wild greenspace is driven by more than cultural factors

We welcome the response by Fattorini et al. (1), which opens up discussion on the many possible factors influencing how children use their local environments. Fattorini et al. argue that our study (2) fails to test the biophilia hypothesis by leaving untested a possible cultural influence for children to prefer formal gardens over wild and natural spaces. We believe that our conclusion that children’s selection of habitats does not conform to the biophilia hypothesis is valid; children did not behave as predicted by this hypothesis, as they avoided the most biodiverse spaces, typically the more natural and wild environments. That current human culture … [↵][1]1To whom correspondence should be addressed. Email: kathrynlhand{at}gmail.com. [1]: #xref-corresp-1-1