Abstract
Urban areas are facing a range of environmental challenges including air, water and soil pollution as a result of industrial, domestic and traffic emissions. In addition, global climate change is likely to aggravate certain urban problems and disturb the urban ecology by increasing the frequency and severity of extreme weather events. In the context of urbanization growth and the consequent impact on the environment, there is a growing interest in maintaining urban soil quality and functions as they are the medium for green infrastructure development. Furthermore, urban soils are becoming one of the key factors in the delivery of many ecosystem services such as carbon storage, climate regulation, water flow regulation, etc. On the other hand, urban soils are well-known to be a major sink of air pollutants due to the wet and dry atmospheric deposition and recirculation. Soil has the ability to degrade some chemical contaminants but when the levels are high, urban soils could hold on large amounts and pose a risk to human health. A cost-effective technological solution is to use the ability of some plant species to metabolize, accumulate and detoxify heavy metals or other harmful organic or inorganic compounds from the soil layer. The establishment of urban lawns (grass covered surfaces) is a helpful, environmentally friendly, economically sustainable and cost-effective approach to remove contaminants from polluted soils (terrains), which also has some aesthetic benefits. In this paper, an overview of the benefits and limitations of urban lawn construction is presented. The focus is on the perspectives for sustainable management of urban lawns, especially as buffer green patches in the road network surroundings, that can represent strategies to provide ecological and social multifunctionality of urban soils, and thus, increasing their ecosystem services capacity. Specifically, the paper highlights (i) the possibilities for phytoremediation of urban soils, (ii) potential of some perennial grasses and (iii) key issues that should be considered in the planning and design of urban lawns.
Highlights
The growth of industrial and urban areas is invariably associated with environmental pollution, causing negative changes in the air, water and soil at biological, physical and chemical levels, and is revealed to worsen quality of life [1–4]
Selected studies by the literature search on urban soil pollution are focused on heavy metals [19–21]; polycyclic aromatic hydrocarbons (PAHs) [22,23]; salts used for road deicing [24] and anthropogenic residues, which further contribute to human health risks
A number of authors consider the advantages of phytoremediation as a cost-effective technological solution using the ability of some plant species to metabolize, accumulate and detoxify heavy metals or other harmful organic or inorganic pollutants accumulated in the soil layer [35–39]
Summary
The growth of industrial and urban areas is invariably associated with environmental pollution, causing negative changes in the air, water and soil at biological, physical and chemical levels, and is revealed to worsen quality of life [1–4]. Anthropogenic activity results in organic and inorganic pollution of urban areas, including with CO2, SO2, particulate matter (PM), soot, heavy metals, hydrocarbons, aldehydes, etc., that are toxic to humans, animals and the environment as a whole. A permanent level of air pollution (even at low doses) significantly affects urban ecosystems (parks, gardens, green areas, etc.), so often they need to be restored and rehabilitated. Air pollution is regarded as a factor that contributes to the worsening of human health, so it is of great importance for social well-being [5]. Impaired physicochemical properties of soils directly affect their microbial biocenosis composition and structure [5,8]
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