Abstract
Urbanization directly and indirectly impacts biodiversity to the extent that it is considered one of the main causes of biotic homogenization and extinction. However, urban green areas can act as reservoir of biodiversity, and knowledge regarding species distribution in such contexts is crucial to define appropriate conservation and management strategies. Since inventories of species are generally time-consuming and costly, a commonly used approach consists in the use of surrogate species. However, studies investigating the effectiveness of surrogate species in urban environments still seem to be under-represented. In this research, we investigated the biodiversity of ants, plants, and carabid beetles in six different green areas within the urban area of the city of Trieste. The role of vascular plants as a potential surrogate for the diversity of ants and carabid beetles has been tested, investigating the influence of the environmental variables (dead wood, litter, anthropic disturbance, bare soil, bedrocks and rocks) on these relationships. Patterns of species richness and complementarity were compared among the sampled sites and their correlations were tested with Mantel tests and Co-Correspondence Analysis (Co-CA). Results pointed out that even disturbed and isolated sites within the urbanised matrix can sustain a high diversity of species of ants, carabids and plants, while in the semi-natural sites intermediate diversity levels were found. Plants were found to correlate directly with the diversity of ants; on the contrary, carabid species composition resulted only indirectly influenced by vascular plants, confirming the key role of abiotic variables in determining carabid diversity. Co-CA showed a clear distinction between forested and semi-natural environments and more open and disturbed environments. Furthermore, the Co-CA highlighted that the considered environmental variables (particularly dead wood, anthropic disturbance, rocks and litter) can significantly influence the distribution of analyzed taxa. Our results highlight the important role of urban green areas within the urban matrix as source of biodiversity and, furthermore, once more, support the role of vascular plants as meaningful surrogate for the diversity of ants and carabids.
Highlights
Urbanized areas cover approximately 6% of Earth’s surface (Alberti et al, 2003), hosting ca. 55% of the world’s human population (United Nations, 2018)
Patterns of species richness and complementarity were compared among the sampled sites and their correlations were tested with Mantel tests and Co-Correspondence Analysis (Co-CA)
The following number of individuals were collected: 106 individuals of carabid beetles belonging to 13 species and 15,387 individuals of ants belonging to 36 species
Summary
Urbanized areas cover approximately 6% of Earth’s surface (Alberti et al, 2003), hosting ca. 55% of the world’s human population (United Nations, 2018). The effects of urbanization affect ecosystems from local to global scale (Alberti et al, 2003; Wu, 2008), being generally associ ated with high levels of pollution, changes in land use and cover, alteration of biogeochemical cycles, habitat fragmentation and loss, introduction and spread of non-indigenous species (Grimm et al, 2000; Wu, 2008) In such a scenario, human activities strongly affect, both directly and indirectly, biodiversity and ecosystem functioning in cities (Kowarik, 2011). Urbanization may promote the establishment of novel habitats (sensu Kowarik, 2011), colonized only by those species able to withstand the above-cited limiting factors (McKinney, 2008)
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