Connectivity of public urban grasslands: implications for grassland conservation and restoration in cities

• Published in: Urban ecosystems Vol. 20; no. 2; pp. 511 - 519
• Main Authors: Hejkal, Judit, Buttschardt, Tillmann K., Klaus, Valentin H.
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.04.2017; Springer Nature B.V
• Subjects: Analysis; Biodiversity; Biomedical and Life Sciences; Cities; Conservation; Dispersal; Ecology; Endangered & extinct species; Environmental Management; Environmental restoration; Genetic diversity; Grasslands; Habitats; Inbreeding; Landscape ecology; Life Sciences; Nature Conservation; Parks & recreation areas; Residential areas; Species extinction; Studies; Urban areas; Urban Ecology; Germany; Urban biodiversity; Integral index of connectivity; Habitat fragmentation; Isolation; Conefor sensinode; Conservation planning
• ISSN: 1083-8155; 1573-1642
• DOI: 10.1007/s11252-016-0611-8

An important limitation of studies on the ecological value of urban habitats is the question of habitat connectivity. While connectivity allows spread and genetic exchange of species, isolation can lead to the extinction of populations through inbreeding and loss of genetic diversity. However, while practitioners already start improving urban habitat patches by means of restoration, issues of connectivity have not been taken in account although being crucial for a self-sustaining habitat network. In our study, we evaluate the connectivity of public urban grasslands such as lawns, grasslands in residential areas, playgrounds or parks in the city of Münster, Germany. Employing a graph theory approach, which uses a map (graph) of habitat patches to calculate functional connectivity measures using patch area size and patch connectivity, we studied four groups of different plant dispersal distances (2 m, 20 m, 44 m and 100 m). This approach can be recommended for planning issues due to the output of different indicator values and comparably low data demands. Our results show for the first time, that connectivity of urban grasslands is extremely low for species of short-distance dispersal but slightly increases for long-distance dispersal. Except two larger conglomerations of well-connected patches, urban grasslands were found to be mostly sparsely connected. Thus, future research should focus on options to improve connectivity and to prioritize patches for ecological improvement. The graph theory approach turned out to be a useful tool to analyse urban habitat connectivity but also to illustrate results obtained.