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Are Urban Communities in Successional Stasis? A Case Study on Epiphytic Lichen Communities

Theo Llewellyn, Ester Gaya, David J. Murrell

2020Diversity19 citationsDOIOpen Access PDF

Abstract

Urban areas may contain a wide range of potential habitats and environmental gradients and, given the many benefits to human health and well-being, there is a growing interest in maximizing their biodiversity potential. However, the ecological patterns and processes in urban areas are poorly understood. Using a widely applicable ecological survey method, we sampled epiphytic lichen communities, important bioindicators of atmospheric pollution, on host Quercus trees in urban parks of London, UK, to test if common patterns relating to lichen diversity are mirrored in urban green spaces. We found lichen diversity to be dependent on host species identity, and negatively related to local tree crowding. In addition, we found a strong negative effect of tree size on lichen diversity, leaving large trees as unexploited niches. A novel network analysis revealed the presence of only pioneer communities, showing the lichen communities are being held in successional stasis, likely due to the heritage effects of SO2 emissions and current nitrogen pollution and particulate emissions. Our study highlights that jointly assessing species richness, community structure and the successional stage can be key to understanding diversity patterns in urban ecosystems. Subsequently, this may help best determine the optimum conditions that will facilitate biodiversity increase within cities.

Topics & Concepts

LichenEcologyBiodiversityEpiphyteGeographyBioindicatorSpecies richnessUrban ecosystemHabitatUrban ecologyEcosystemCommunity structureBiologyUrban planningLichen and fungal ecologyBotany and Plant Ecology StudiesForest Ecology and Biodiversity Studies
Are Urban Communities in Successional Stasis? A Case Study on Epiphytic Lichen Communities | Litcius