Allotment gardens have played a significant role in Czech and Slovak society for decades, building upon a rich history of gardening. This article elaborates on Czech and Slovak allotments in the European context and identifies their core functions, services, and benefits. We provide a thorough historical review of allotments in this region, reaching back to the eighteenth century to trace significant periods and historic events that shaped society in general and urban gardening in particular. We analyze the development of allotments until and after 1989 and illustrate key aspects of their present situation using case studies and examples. The article provides a complex historical narrative as a good basis for discussions on contemporary trends, challenges, and visions for the future of urban allotment gardening in both countries.
Vegetation formations are an important component in the urban structure, as they perform a wide range of ecosystem services there. The climate modification to improve the environmental and residential quality of the city is one of the important functions. The paper presents the results of the microclimate assessment in the chosen localities of Nitra town, Slovakia, with an emphasis on the stage and differences in air temperature and relative humidity. The climate elements were measured at 7 spatially different sites (sites A to G), each of them at two comparative sites, vegetation stand and open area. The largest average air temperature difference between the vegetation stand and the non-vegetation area was 1.2 °C at the locality D. The largest air temperature difference in the vegetation stands was measured between the street space (site E) and the city park (F), reaching 2.3–2.5 °C. The relative air humidity reached the highest differences between the park (locality F) and the street space (G) measured at 3:00–8:00. These reached 19.6% to 24.4% with higher relative humidity in the popular city park. The highest differences between the compared habitats were measured at locality G and averaged 9.6% at 04:00 – 07:00 in a preference to a tree canopy. The research results confirmed the importance of the vegetation structures in the process of mitigating the urban climate extremes and the environmental quality improving.
The environment of a city is influenced by global and local climate changes, pollution load from transport, industry and local heat sources. Green spaces as part of the urban green infrastructure fulfil multiple ecosystem services and improve the environmental and residential quality of a city. The level of positive effects of green spaces depends on their area, distribution within the city and the proportion of trees. The aim of the paper was to evaluate land cover structure in a selected segment of the housing estate Klokočina in Nitra, Slovakia. The evaluation focused on the share of biologically active and inactive surfaces, as well as the parameters of woody plant structure in green spaces. Green areas account for 58.70%, while built-up areas, parking lots and roads cover in total 41.30%. Biologically inactive anthropogenic horizontal and of building envelope areas represent 67.30%. Biologically active green areas represent 32.70%. The share of areas with tree crown overlap on horizontal areas is 20.82%, other areas are paved surfaces or grassland. We calculated the indices of the quality of green spaces from the individual categories of areas: proportional green area index (PGAI), effective green area index (EGAI) and tree shade index (TSI). The tree species composition consists of 36 deciduous and 11 coniferous tree species, and 20 shrub species. We evaluated the biometric traits of trees as the tree height, crown width, stem girth and tree vitality class (TVC). The correlations between tree traits were statistically tested with a significant result. In the group of biologically active areas of greenery, we propose to increase the proportion of trees, to establish more natural lawns and xerophyte flower beds. In the category of inactive areas, we propose the reconstruction of parking lots to grass paved surfaces.
Adaptability of Acer platanoides L. to deteriorating urban conditions was assessed through qualitative parameters describing crown destruction, assimilation organs efficiency, chlorophyll a content, and content of alochtonous elements in leaves. The adaptability assessment was based on comparison between study trees growing in an environmentally loaded town area and control trees in a historical rural park, both localities in Slovakia (Central Europe). The results of visual assessments performed in 2015 and 2016 showed higher crown and leaf quality (Qns) for the individuals growing in the rural park (Qns2015 = 0.44, Qns2016 = 0.43) compared to the individuals in urban conditions (Qns2015 = 1.44, Qns2016 = 1.56). The values of chlorophyll a content index (CCI) were higher in the trees growing in the rural park (CCI = 25.914) than in the urban environment (CCI = 16.290). The performance of assimilation organs was evaluated through the maximum fluorescence yield (Fv/Fm) and electron transport rate (ETR) at both sites. During the years 2015 and 2016, there were measured higher values in the rural park (Fv/Fm2015 = 0.828, Fv/Fm2016 = 0.820) than in the town (Fv/Fm2015 = 0.823, Fv/Fm2016 = 0.772). Higher ETR values were measured on trees in the urban area (ETR2015 = 47.345, ETR2016 = 65.284) and lower in the park area (ETR2015 = 36.832, ETR2016 = 59.495). The urban locality demonstrated higher contents of Cu, Zn, Fe, Pb, Na and Ca elements in tree leaves compared to the rural park. The adaptability index (Ia) values indicate an average adaptability of the Norway maple to the urban environment (Ia2015 = 1.93, Ia2016 = 2.13) in comparison with a good adaptability in the rural park (Ia = 0.8–1.6).
Uhrin P., Supuka J.: Quality assessment of urban trees using growth visual and chlorophyll fluorescence indicators. Ekológia (Bratislava), Vol. 35, No. 2, p. 160-172, 2016. Urbanised landscape represents composed structures of technical and biotic elements where social and economy activities create living space for human society but with strongly changed environment. To dominant characters belong climate changes with increased air temperature, drought and emission load, which has developed wide spectrum of stress factors influencing the urban vegetation. For the assessment of plant growth and adaptation response, we have used Sycamore maple (Acer pseudoplatanus L.) as study model woody plant. In the framework of visual characters, we assessed the following indicators: (a) assimilation organs (leaf necrosis); (b) crown quality (degree of foliage and degree of dead tree crown); (c) trunk and branch quality (mechanical damage, incidence of wood destroying fungus and trunk cavities and callus healing of trunk wounds). Each indicator was assessed in five-point scale, and in the end, the common index of quality was calculated. The quality index achieved 9.33 points in the first and 10.33 in the second evaluation periods in the Nitra city and 2.66 at the both assessed periods in the comparable rural park. In the group of physiological indicators, chlorophyll a fluorescence marker and its F v /F m parameter were used. Within three repeating assessment during growing season (June, August and September), the average values reached F v /F m = 0.814 in the city and F v /F m = 0.829 in rural park. The results confirmed statistical significances between loaded city conditions and relatively clean rural locality. Used markers have shown as appropriate tools for growth response measurements of street trees in a changed urban environment.
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