23 research outputs found
The proposal to transform an old limestone quarry into a botanical garden with a rainforest zone: a case study
Nowadays, a significant part of cities is tackling the problems with post-mining areas. This manuscript is an original research which shows possibilities of their reclamation. The aim of the article is to present the proposal of developing the closed limestone quarry and creating a botanical garden. The proposed spatial solutions allow for creating a new, tourist and recreation space, maintaining the natural heritage. The work also assumed carrying out a dendrological inventory, in order to determine the existing dendrofl ora. The required spatial, nature and communication analyses, which illustrate the current condition of the area and defi ne further design works, have also been carried out. The main idea of the project was to maintain the particular biodiversity, combined with regional culture and its continuous development. This type of assumption aims not only at protection of endangered species. It also has a great role in shaping the awareness of natural environment of various social groups. The creation of a rainforest substitute in the Opole Botanical Garden was possible through selection of the existing afforestation, considering its adaptation as well as through liquidation and introduction of new trees, shrubs, perennial and climbing plants, which shall emphasise the tropical landscape type by their shapes, texture and colours. The project includes many elements, which reflect the general image of humid rainforests. The planned vegetation in connection with the appropriately selected architecture shall undoubtedly influence visitors’ senses, transferring them to the ‘wild’ and mysterious part of the world
Effect of 30 years of road traffic abandonment on epiphytic moss diversity
Road traffic emits a cocktail of pollutants that can influence the vegetation and plant diversity in neighboring areas. However, the recovery potential of bryophytes after traffic abandonment is still little explored. In addition, the effects of the main pollutants of road verges, such as metals and salinity, on moss flora need to be investigated. In our study, we compared the moss richness and diversity in two closely related veteran tree allees of high conservation importance. The allees in Gryżów and Lubrza, Poland, were chosen because of their similarity in age, geographical location, type of surrounding areas, and tree species. The only difference was that the trees in Gryżów had not been exposed to direct road pollution for almost 30 years. The moss richness and diversity differed significantly between the sites. Altogether, 20 moss species were recorded on 229 trees, 17 species in Gryżów (abandoned road), and 13 in Lubrza (busy road). We found considerable differences between moss cover on the road-facing and opposite sides of tree trunks. In Lubrza, mosses on the road-facing side were very scarce. The moss cover in Gryżów was highly balanced between trunk sides as well as among trunk heights. Typical epiphytic species such as Bryum moravicum, Dicranoweisia cirrata, Leskea polycarpa, and Orthodicranum tauricum preferred the Gryżów tree stands, where they were present in numbers almost twice as high as that at Lubrza. The study shows that constructing a bypass road could be an effective conservation measure for veteran tree protection with their epiphytic moss flora
Effect of soil management on its radioisotopic composition
Radioactive isotopes, both natural and artificial, present in the environment may be convenient indicators that can be used to study a number of physical and chemical processes and transport of pollutants in the ecosystem.The main aim of the study was to evaluate the impact of the type of soil use on the radioisotopic composition in its surface layers. The radioisotopic compositions of surface soil samples collected in the area of a cement plant abandoned for over 20 years and in the area of the nearby allotments were examined and compared. Calculations were performed using methods designed to study compositional variables.The results confirmed a significant impact of usage on the radioisotopic composition of the surface soil layers. However, some characteristics of the composition were common to both locations. It has been found that a significant proportion of the lead isotope - Pb-210, derived from atmospheric deposition. Other radioisotopes remain relatively close to equilibrium in their decay chains.The project was financed by the National Science Centre based on the decision number DEC-2011/03/D/ST10/05392
Studies of technogenic soils in Poland: past, present, and future perspectives
For a long time, the soils covering areas strongly transformed by human were ignored in scientifi c
discourse. Also, practice did not care much about these soils because of their unproductivity. Only
the large post-mining areas reclaimed and transformed into a forest or agricultural land were more
interesting both for science and practice. In the case of post-mining areas the term “soilless land”
was used for a long time, especially in relation to areas which were not reclaimed. In this paper,
the past studies (until the end of 20th century) of technogenic soils in Poland were described. Technogenic
soils of urban and industrial areas appeared in scientifi c considerations in Poland in the
second half of the 20th century. In those times, soil properties on disposal sites were mainly investigated
as a basic information for further design of technical and biological reclamation on disposal
sites. Two Polish scientists should be emphasised as the world pioneers in concepts and studies of
technogenic soils: (1) Michał Strzemski, who proposed a classifi cation scheme for soils in urban and
industrial areas, as well as listed the tasks for future studies of these soils, and (2) Tadeusz Skawina,
who focused on the dynamic and directions of the soil-forming processes on the mine spoils in
the context of their reclamation. Moreover, studies of technogenic soils in the last two decades
were also shown in the paper. From the beginning of the 21st century the scientifi c research gained
momentum. Nowadays, Polish researchers have great achievements in studying technogenic soils,
including investigation of their properties, genesis, evolution, classifi cation, biological features etc.
Furthermore, we drew some outlines for future studies of Technosols
Looking for hidden enemies of metabarcoding : species composition, habitat and management can strongly influence DNA extraction while examining grassland communities
Despite the raising preoccupation, the critical question of how the plant community is composed belowground still remains unresolved, particularly for the conservation priority types of vegetation. The usefulness of metabarcoding analysis of the belowground parts of the plant community is subjected to a considerable bias, that often impedes detection of all species in a sample due to insufficient DNA quality or quantity. In the presented study we have attempted to find environmental factors that determine the amount and quality of DNA extracted from total plant tissue from aboveand belowground samples (1000 and 10,000 cm2 ). We analyzed the influence of land use intensity, soil properties, species composition, and season on DNA extraction. The most important factors for DNA quality were vegetation type, soil conductometry (EC), and soil pH for the belowground samples. The species that significantly decreased the DNA quality were Calamagrostis epigejos, Coronilla varia, and Holcus lanatus. For the aboveground part of the vegetation, the season, management intensity, and certain species—with the most prominent being Centaurea rhenana and Cirsium canum—have the highest influence. Additionally, we found that sample size, soil granulation, MgO, organic C, K2O, and total soil N content are important for DNA extraction effectiveness. Both low EC and pH reduce significantly the yield and quality of DNA. Identifying the potential inhibitors of DNA isolation and predicting difficulties of sampling the vegetation plots for metabarcoding analysis will help to optimize the universal, low-cost multi-stage DNA extraction procedure in molecular ecology studies
Magnetic Susceptibility in the Soils Along Communication Routes in the Town of Opole
Magnetic susceptibility measurements were taken in eight selected streets of Opole, with diversified vehicle traffic intensity. The experiment surfaces were marked on every street, with two separate zones: A – a strip directly adjacent to the road and B – a strip 1 m away from the road edge. The carried out research indicated considerable influence of communication-generated pollution, with simultaneous influence of other local emission sources. The relation of magnetic anomalies was indicated, which may be the result of ferromagnetic materials aggregation, originating mainly from combustion processes. The road structure, including the surface condition, the main construction material and susceptibility of the surface to cracking are equally important when considering the magnetic increase. A considerable variation of magnetic measurements in different season was pointed out; however, the largest median values of magnetic susceptibility were recorded in the summer season
The use of mineral materials for salinity control in roadside soils
This paper presents the results of a fi eld study on using mineral materials (fine-grained sand and medium-
-grained gravel) to reduce the concentration of readily soluble salts in a roadside environment. The investigated
soils were Rendzic Sceletic Leptosols from an urban area characterized by a shallow humus horizon with a high
content of skeletal parts, as well as a lack of homogeneity of the material in the soil profile. All soil samples were
taken from five plots located along the main streets in the city of Opole (Southern Poland). It was revealed that
the use of fine-grained sand and medium-grained gravel improved the structure of the surface soil layer, and thus
favoured the migration of Na+ and Cl- ions into the soil profile. In comparison to control surfaces readily soluble
salts were reduced with gravel and sand application. Furthermore, the mineral materials introduced on the soil
surface for salinity neutralization did not affect the quality of the tested roadside calcareous soils. The results
indicate that the use of mineral materials reduces soil salinity caused by NaCl. They also show the need to find
new methods of salt neutralization, especially of roadside soils in order to improve and protect the quality of the
environment
Effect of soil management on its radioisotopic composition
Radioactive isotopes, both natural and artificial, present in the environment may be convenient indicators that can be used to study a number of physical and chemical processes and transport of pollutants in the ecosystem.The main aim of the study was to evaluate the impact of the type of soil use on the radioisotopic composition in its surface layers. The radioisotopic compositions of surface soil samples collected in the area of a cement plant abandoned for over 20 years and in the area of the nearby allotments were examined and compared. Calculations were performed using methods designed to study compositional variables.The results confirmed a significant impact of usage on the radioisotopic composition of the surface soil layers. However, some characteristics of the composition were common to both locations. It has been found that a significant proportion of the lead isotope - Pb-210, derived from atmospheric deposition. Other radioisotopes remain relatively close to equilibrium in their decay chains.The project was financed by the National Science Centre based on the decision number DEC-2011/03/D/ST10/05392
Fruit Trees and Bushes as a Biodiversity Element in the “Górażdże” Quarry Reclaimed Areas
The assumption of biological land reclamation in the forest direction is to introduce trees and shrubs on the reclaimed area so as to bring it as close as possible to the natural state based on the species characteristic for forest communities. While assessing the concept of biodiversity resulting from the naturalistic approach to the forest as a timeless good, it is necessary to take into account the diversity of plantings used and their multifunctionality. One of the functions is to designate crops for utility purposes, by creating a natural undergrowth, birdhouses, forest fringe plantings and enclaves of edible fruit plants. As part of the research, implementing the biodiversity of midforest plantings in the post-mining areas of the “Górażdże” Limestone Mine (Opolskie Voivodeship), the focus was put on the natural renewal of the tree stand with the admixture of fruiting plants. The application of fruit tree and shrub plantings on relatively small areas allowed the creation of areas of high biodiversity on the recultivated monoculture grounds. The results of the research revealed a relatively high efficiency of the planted trees and shrubs regardless of the existing habitat conditions. The following species had the best health status throughout the vegetation period: apple-tree, common pear, briar-rose, blackthorn and singleseed hawthorn. The use of fruit tree and shrub plantings will contribute, on the one hand, to reducing the costs of reclamation, which is a measurable effect for the mine manager, and strengthening the ecological potential of the new biotope created under the conditions of strong anthropogenic pressure on the other