Abstract
Biological invasions are one of the main components of human-caused global change and their negative impact on invaded ecosystems have long been recognized. Invasive mammals, in particular, can threaten native biodiversity and cause economic impacts in the region where they are introduced, often through a wide range of conflicts with humans. Although the wild boar, Sus scrofa, is considered by the IUCN as one of the 100 invasive species most damaging to biodiversity in the world, in Argentina there have only been a few studies focused on its ecology with most of them conducted in protected areas. In this study, we evaluated the effect of several factors related with human disturbance, landscape composition, degree of fragmentation and the presence of a potential competitor and a predator on the habitat use of wild boar using data from camera traps and site-occupancy modeling. Additionally, we described the daily activity pattern of the species and we studied the level of overlap with both a potential competitor and a predator. The sampling effort totaled 7,054 camera trap days. Farm density, proportion of shrubland and proportion of grassland with bushes were the detection variables included in the most supported model whereas proportion of grassland and capture rate of the Pampas fox Lycalopex gymnocercus were the occupancy variables included in the most supported model. However, the proportion of grassland was the only variable that showed statistically significant support in the averaged model, indicating that habitat use of wild boar in this area was significantly negatively affected by the level of grass cover. Wild boars were mostly nocturnal, with more activity between 21:00 and 3:00 and a peak around midnight. Wild boars showed a high level of overlap with the activity pattern of the Pampas fox and a low overlap with the activity pattern of the puma Puma concolor. Despite wild boar being introduced in Argentina a few decades ago, this study is the first landscape-scale research carried out in an agricultural landscape in Argentina and the first one based on camera-trapping data. Our study contributes valuable information that could be used to design strategies to reduce wild boar population or to minimize the damage caused by this invasive species in Argentina.
Highlights
Biological invasions constitute one of the main components of human-caused global change and their negative impact on the invaded ecosystem have long been recognized [1]
We evaluated landscape-level habitat use and daily activity pattern of wild boar in a region of the Argentine Espinal that has been modified by human activities
Previous ecological studies of the wild boar in Argentina have been conducted in protected areas, and this study is the first conducted in an agricultural landscape
Summary
Biological invasions constitute one of the main components of human-caused global change and their negative impact on the invaded ecosystem have long been recognized [1]. Exotic mammal species can cause economic impacts in the region where they are introduced [8] and create a wide range of conflicts with humans [9]. In non-native habitats, the species may act as an ecosystem engineer because it has strong negative effects on the superficial soil layers due to its rooting behavior. This behavior causes the mix of soil horizons and the alteration of the nutrient retention rate, which enhance the erosion process, alters plant succession, favors exotic plant species invasion and may affect wildlife communities and complicated threatened and endangered species [11,12,13,14]. In areas where hunting is an important source of economic income, wild boar may release native wildlife from over-harvesting acting as a replacement hunting target [18] in some areas this species might provide additional prey for native mammals [17]
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