Abstract
Conservation of biodiversity in urban areas has become crucial to urban green area management. There are several legislative solutions for preservation of species and habitats in cities. One of them is ‘ecological lands’ – a low-restrictive form of protected areas in Poland. We aimed to assess their efficiency in vascular flora biodiversity conservation in the urban environment in Poznań (W Poland; 550,000 inhabitants). We hypothesized that ecological lands which cover <2% of the city area comprise over 50% of taxonomic diversity and over 90% of functional trait-level range of the vascular flora. Analysis of five ecological lands, which covered 1.8% of the whole city area confirmed our hypothesis. In ecological lands studied, we found 564 species of vascular plants, which is 52.9% of the whole city flora. These species belonged to 23 of 29 phytosociological classes represented in the whole city (73.9%). Functional trait distributions in ecological lands studied comprised from 95.8 to 100% of trait distributions in the flora of the whole city. Ecological lands seem to be a good way for conservation of biodiversity in urban areas. The legislative simplicity and low restrictiveness for both land management and recreational utility make ecological lands a much easier form of nature conservation which may be adapted to other cities for more efficient biodiversity management.
Highlights
Urban areas are one of the land cover types most transformed by human activity
The aim of this study is to evaluate the proportion of taxonomic and functional flora diversity preserved by ecological lands, to assess the usefulness of this form of nature conservation in the urban environment of Poznań city (W Poland)
We hypothesized that three ecological lands, which comprise
Summary
Urban areas are one of the land cover types most transformed by human activity. Due to land-use changes, which cause habitat fragmentation, loss and degradation of natural and semi-natural habitats, emergence of new, urban habitats, lowering the groundwater table level, increased levels of nutrients, pH, temperature, pollution and disturbance, cities are unfavorable habitats for plant existence (Kowarik 2011). Disturbances connected with human settlement facilitate encroachment of alien plant species, along with increased chances of naturalization in urban areas (Chocholoušková and Pyšek 2003; Knapp et al 2010; Jarošík et al 2011b; Kowarik 2011; Kowarik et al 2013; Dyderski et al 2015a; Dyderski and Jagodziński 2016). Extinction of native, specialized species and expansion of cosmopolitan alien species, usually with broad ecological niches, lead to biotic homogenization – convergence of floras of more and more distant regions. This process results in losses of species diversity at regional and continental scales
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