Tomasz Stachura scite author profile

The aim of the work was to develop a new empirical model for calculating the peak annual flows of a given frequency of occurrence (QT) in the ungauged catchments of the upper Vistula basin in Poland. The approach to the regionalization of the catchment and the selection of the optimal form of the empirical model are indicated as a novelty of the proposed research. The research was carried out on the basis of observation series of peak annual flows (Qmax) for 41 catchments. The analysis was performed in the following steps: statistical verification of data; estimation of Qmax flows using kernel density estimation; determination of physiographic and meteorological characteristics affecting the Qmax flow volume; determination of the value of dimensionless quantiles for QT flow calculation in the upper Vistula basin; verification of the determined correlation for the calculation of QT flows in the upper Vistula basin. Based on the research we conducted, we found that the following factors have the greatest impact on the formation of flood flows in the upper Vistula basin: the size of catchment area; the height difference in the catchment area; the density of the river network; the soil imperviousness index; and the volume of normal annual precipitation. The verification procedure that we performed made it possible to conclude that the developed empirical model functions correctly.

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Evaluating the applicability of MESS (matrix exponential spatial specification) model to assess water quality using GIS technique in agricultural mountain catchment (Western Carpathian)

Halecki

Stachura

Fudała

et al. 2018

Environ Monit Assess

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The formation of many sources of pollution in a short period of time is due to mountain soil erosion by water. One of the major mechanisms decisive in the intensification of such erosion is the loosening of soil material on the slope. Water quality studies show the impact of diversified spatial management and allow making the right decisions in environmental management in mountain areas with high variability of use and land cover. The research undertaken as part of the paper was carried out in order to determine the dependency between total suspended solids (TSS) and the physicochemical parameters of surface waters and the amount of soil losses in the use structure within the mountain catchment. The paper focused on the frequency of phenomena in time and the possibility of stopping the surface runoff on the slope and on the soil’s susceptibility to water erosion. The dependencies between multipoint sampling and the concentration of material washed off the slope due to precipitation were verified with a multivariate analysis. Sampling took place in hydrometric sections, and during small floods, in the waterbed cross section. Research shows that such sampling is the basis for the calculation of the transported load, reflecting the average variation in concentration. The variation in the volume of the load from the individual parts of the catchment was assessed by the spatial autoregressive model. It was found that the use of river basin areas affects water chemistry. Water reservoirs are an important ecological barrier for the migration of nitrate nitrogen (N-NO3) and phosphate phosphorus (P-PO4), which is marked by changes in the growing season. Water along the sections of the river near the quarry with a high degree of sodding showed good quality condition. Despite significant differences between measurement sampling sites, high total dissolved solid (TDS) values were found in communities adjacent to forests and meadows. However, the highest electrical conductivity (EC) and TSS concentrations were found in the interface with cultivated areas. Biogenic indices showed variation depending on the way the adjacent areas were used. GIS linked spatial variables with the formation of water pollution. The analysis of spatial autoregression pointed to the impact of arable land. Moreover, the analysis of spatial autoregression with the MESS function designated a connection between agricultural land use and nitrite nitrogen (N-NO2), EC, TSS, and dissolved oxygen (DO). Graphical abstractᅟ Electronic supplementary materialThe online version of this article (10.1007/s10661-018-7137-x) contains supplementary material, which is available to authorized users.

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Territorial justice for urban and rural regions? About the responsibility and role of the Bavarian Academy for Rural Areas

Stachura¹,

Krzyś²

2017

Geomatics, Landmanagement and Landscape

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The article describes the one-sided global discussion on urbanization, conducted without devel- oping sufficient future-oriented comprehensive visions and strategies for rural areas. The con- cepts discussion concerns mostly agriculture; while there is nearly nothing being said about es- tablishing central places, or nurturing small and medium-sized enterprises (SME) in rural areas. Europe and Germany still believe in the principle of cohesion and the goals of the Territorial Agenda 2020 in endogenously developed rural areas, despite some controversial discussions about the need and outcome of specific and even enhanced strategies and measures in shrink- ing peripheral regions. It is not primarily a question of economy to support rural areas, but it is first and foremost a question of human rights, dignity and territorial justice. The constitutional demand of equivalent living conditions in Germany is a visible expression and result of territo- rial justice. Fortunately, this issue of justice is now a hot matter of political discussion in the Bavarian Parliament. In the second part of the article, the indispensable roles and contributions of civil society and NGOs as independent partners and co-producers of the State are described – such as the Bavarian Academy.

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Tomasz Stachura

Assessment and planning of green spaces in urban parks: A review

Evaluation of soil hydrophysical parameters along a semiurban small river: Soil ecosystem services for enhancing water retention in urban and suburban green areas

A New Empirical Approach to Calculating Flood Frequency in Ungauged Catchments: A Case Study of the Upper Vistula Basin, Poland

Evaluating the applicability of MESS (matrix exponential spatial specification) model to assess water quality using GIS technique in agricultural mountain catchment (Western Carpathian)

Territorial justice for urban and rural regions? About the responsibility and role of the Bavarian Academy for Rural Areas

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