This page has only limited features, please log in for full access.
The aim of the research was to determine how abandoning agricultural land affects soil hydrophobicity and humic substances structure, with a special emphasis on fluorescent properties. Arable and abandoned sandy soils in central Poland were investigated from May to December of a very dry year. The investigations conducted indicated that land use influences the direction of the soil organic matter (SOM) humification process, causing changes in the functional properties of the soil. Taking sandy soil out of cultivation and its spontaneous afforestation resulted in a significant decrease of moisture in the surface layer of the abandoned soil. The change in water regime influenced the direction of SOM transformation, but a period of 30 years was not long enough to cause changes in the elemental and/or fractional composition of humic substances. Nevertheless, the modified conditions of SOM transformation resulted in a marked increase in soil hydrophobicity. Fluorescence investigation proved the predominance of simpler fulvic-like structures in humic acid (HA) extracted from the abandoned soil, which indicated a relatively low molecular weight or a smaller number of chromophores with conjugated double bonds, and a lower humification degree of HA. Obtained results showed that fluorescence spectroscopy can be successfully used as a sensitive technique for the qualitative characterisation of the structures of humic substances transformed under different environmental conditions.
Lilla Mielnik; Edyta Hewelke; Jerzy Weber; Lidia Oktaba; Jerzy Jonczak; Marek Podlasiński. Changes in the soil hydrophobicity and structure of humic substances in sandy soil taken out of cultivation. Agriculture, Ecosystems & Environment 2021, 319, 107554 .
AMA StyleLilla Mielnik, Edyta Hewelke, Jerzy Weber, Lidia Oktaba, Jerzy Jonczak, Marek Podlasiński. Changes in the soil hydrophobicity and structure of humic substances in sandy soil taken out of cultivation. Agriculture, Ecosystems & Environment. 2021; 319 ():107554.
Chicago/Turabian StyleLilla Mielnik; Edyta Hewelke; Jerzy Weber; Lidia Oktaba; Jerzy Jonczak; Marek Podlasiński. 2021. "Changes in the soil hydrophobicity and structure of humic substances in sandy soil taken out of cultivation." Agriculture, Ecosystems & Environment 319, no. : 107554.
Progressing climate change increases the frequency of droughts and the risk of the occurrence of forest fires with an increasing range and a dramatic course. The availability of water and its movement within an ecosystem is a fundamental control of biological activity and physical properties, influencing many climatic processes, whereas soil water repellency (SWR) is a key phenomenon affecting water infiltration into the soil system. Focusing on wide-spectrum effects of fire on the soil system, the research was conducted on a pine stand (Peucedano-Pinetum W. Mat. (1962) 1973) in Kampinos National Park located in central Poland, affected by severe and weak fires, as well as control plots. The main aim of the study was to examine the regeneration of the ecosystem 28 months after the occurrence of a fire. The effect of SWR and soil moisture content, total organic carbon, nitrogen and pH, and gain an understanding of the environmental conditions and processes that shaped the evolution of the species structure of soil microorganism communities (fungal vs. bacterial) have been examined. The Water Drop Penetration Time (WDPT) test was used to assess spatial variability of SWR in 28 plots. Soil bacterial and fungal communities were analysed by Illumina’MISeq using 16S rRNA and Internal Transcribed Spacers 1 (ITS1) regions in six selected plots. After a relatively wet summer, elevated hydrophobicity occurred in areas affected by a weak fire as much as 20 cm into the soil depth. The severe fire and subsequent increase in the richness of the succession of non-forest species contributed to the elimination of hydrophobicity. SWR was more closely linked to the structure and diversity of soil microbial communities than soil physicochemical properties that took place in response to the fire. A statistically significant relationship between the relative occurrence of microorganisms (≥ 1.0% in at least one of the samples) and SWR was established for the following fungi and bacteria species: Archaeorhizomyces sp., Leotiomycetes sp., Byssonectria fusispora, Russula vesca, Geminibasidium sp., family Isosphaeraceae and Cyanobacteria (class 4C0d-2, order MLE1-12). Insight into the functional roles of the individual identified microbial taxa that may be responsible for the occurrence of hydrophobicity was also presented.
Edyta Hewelke; Ewa Beata Górska; Dariusz Gozdowski; Marian Korc; Izabella Olejniczak; Anna Prędecka. Soil Functional Responses to Natural Ecosystem Restoration of a Pine Forest Peucedano-Pinetum after a Fire. Forests 2020, 11, 286 .
AMA StyleEdyta Hewelke, Ewa Beata Górska, Dariusz Gozdowski, Marian Korc, Izabella Olejniczak, Anna Prędecka. Soil Functional Responses to Natural Ecosystem Restoration of a Pine Forest Peucedano-Pinetum after a Fire. Forests. 2020; 11 (3):286.
Chicago/Turabian StyleEdyta Hewelke; Ewa Beata Górska; Dariusz Gozdowski; Marian Korc; Izabella Olejniczak; Anna Prędecka. 2020. "Soil Functional Responses to Natural Ecosystem Restoration of a Pine Forest Peucedano-Pinetum after a Fire." Forests 11, no. 3: 286.
The aim of the presented research was to assess the changes in hydro-physical properties of sandy clay under the influence of petroleum hydrocarbon contamination. An understanding of these changes is fundamental in the right remedial actions and for further use of soil. Laboratory tests of inherently wettable sandy clay showed that the petroleum hydrocarbon induced potential soil water repellency (SWR) of extremely repellent class at the contamination of 18 g kg−1. The relationship between soil water potential (pF) and SWR determined by the WDPT test for given hydrocarbon contamination, i.e., 6, 12, 18, 30, 100 g kg−1, showed that the critical soil moisture value (CSMC) corresponds to the pF = 1.0 ÷ 1.5. Soil retention characteristic (pF) showed that an increase in hydrocarbon contamination from 0 to 100 g kg−1 caused a reduction of total available water for plants from about 0.19 to 0.06 cm cm−3. At the same time, in the pF = 1.5 ÷ 2.0 range, intensive soil pore drainage was observed. Statistically, significant effect of hydrocarbon contamination and soil moisture potential on SWR was found. Soil hydrophobicity limits the addition of soil retention, because a significant part of the precipitation can be transformed by surface runoff. The carried out tests showed that at a hydrocarbon contamination of 30 g kg−1, total rainfall amount 14 mm with an intensity of 2 mm h−1 was transformed into a surface drain in approx. 40%. The conducted studies demonstrate the adverse impact of hydrocarbon contamination on the soil’s hydro-physical properties. The soil water retention reduction and launching of the surface outflow, as a result of limiting the water penetration process resulting from SWR, change the agrohydrological conditions of the contaminated area. It can result as the imbalance of the flow of energy and matter in the ecosystem. The scenarios of environmental effects, among others, depend on the type of soil, the degree of its pollution, the type of ecosystem, and supporting activities undertaken by man. It should be taken into account that the increasing frequency of drought occurrence associated with climate change is conducive to the phenomenon of SWR regardless of the reasons for its occurrence.
Edyta Hewelke; Dariusz Gozdowski. Hydrophysical properties of sandy clay contaminated by petroleum hydrocarbon. Environmental Science and Pollution Research 2020, 27, 9697 -9706.
AMA StyleEdyta Hewelke, Dariusz Gozdowski. Hydrophysical properties of sandy clay contaminated by petroleum hydrocarbon. Environmental Science and Pollution Research. 2020; 27 (9):9697-9706.
Chicago/Turabian StyleEdyta Hewelke; Dariusz Gozdowski. 2020. "Hydrophysical properties of sandy clay contaminated by petroleum hydrocarbon." Environmental Science and Pollution Research 27, no. 9: 9697-9706.
The inevitable development of cities has necessitated of a searching for new alternative solutions that enable the retention of as much rainwater as possible and increase the biologically active surface in urbanized areas. Green roofs may be the solution to the mentioned problems. The work assessed how meteorological factors influence the retention on two types of green roof substrates. Another practical aspect of the study is determining the difference in retention of mineral-organic and mineral substrate based extensive green roofs. The monitoring of environmental factors and amount of runoff was carried out on two models of green roofs covered by extensive vegetation (moss-sedum-herbs) with substrates of an organic-mineral and mineral composition for 18 months in an urbanized area under moderate climate conditions. Higher values of runoff by approx. 5% were registered in the model with the mineral substrate, which indicates lower retention abilities. The analysis of two green roofs and references roof showed that the runoff coefficients ranged from 0.33 to 0.38 for GR 1 and GR 2, for RR runoff coefficients was 0.83. Rainwater entering the system of green roofs is the most important input factor in the conceptual model of the retention of a green roof system. The obtained results can provide us with information important to make decisions connected with designing green roofs as far as hydrological advantages are concerned.
Anna Baryła; Agnieszka Karczmarczyk; Agnieszka Bus; Edyta Hewelke; Michał Wróbel. Comparing the Retention of the Extensive Green Roofs with the Conventional Roof. Infrastructure and Environment 2019, 66 -74.
AMA StyleAnna Baryła, Agnieszka Karczmarczyk, Agnieszka Bus, Edyta Hewelke, Michał Wróbel. Comparing the Retention of the Extensive Green Roofs with the Conventional Roof. Infrastructure and Environment. 2019; ():66-74.
Chicago/Turabian StyleAnna Baryła; Agnieszka Karczmarczyk; Agnieszka Bus; Edyta Hewelke; Michał Wróbel. 2019. "Comparing the Retention of the Extensive Green Roofs with the Conventional Roof." Infrastructure and Environment , no. : 66-74.
Soil water repellency can significantly degrade its agricultural utility and bring aboutnegative environmental consequences (i.e., reduced infiltration capacity, enhanced overland flow,increased erosion rates, and water infiltration occurred in irregular patterns). The presented studyaimed to establish whether excluding albic Podzols from agricultural production and theirspontaneous inhabitation by a pine tree stand affected their hydrophysical properties. Studies withthe application of the water drop penetration time (WDPT) test showed that a change in the landuse increased the potential water repellency of the surface layer (horizon A) and caused itschangeover from strongly repellent class (Class 2) to extremely repellent (Class 5). The relationshipbetween soil moisture content and wettability made it possible to determine the critical soil moisturecontent (CSMC) for the occurrence of the phenomenon of water repellency. It was confirmed thatthe CSMC value increased along with a change in use. For the site under arable use, it was 9–10vol.%, whereas for the site formerly under arable use and currently covered predominantly by apine tree stand, a value in the range of 14–16 vol.% was reached. A laboratory experiment on surfacerunoff of the soil formerly under arable use showed that over half of the rainfall may be transformedinto surface runoff as a result of occurring water repellency. This means that exceeding the criticalsoil moisture content makes the recharge of soil retention difficult and may significantly influencethe water balance of soil, as well as increasing its susceptibility to drought.
Edyta Hewelke. Influence of Abandoning Agricultural Land Use on Hydrophysical Properties of Sandy Soil. Water 2019, 11, 525 .
AMA StyleEdyta Hewelke. Influence of Abandoning Agricultural Land Use on Hydrophysical Properties of Sandy Soil. Water. 2019; 11 (3):525.
Chicago/Turabian StyleEdyta Hewelke. 2019. "Influence of Abandoning Agricultural Land Use on Hydrophysical Properties of Sandy Soil." Water 11, no. 3: 525.
Increasing recognition is being given to the adaption of green roofs in urban areas to enhance the local ecosystem. Green roofs may bring several benefits to urban areas including flood mitigation Analysis of environmental factors affecting the outflow of green roofs is the subject of many studies. The work assessed how environmental factors moisture of structural layers and antecedent dry weather period influence the retention on two types of green roof substrates. The monitoring of environmental factors and amount of runoff was carried out on two models of green roofs covered by extensive vegetation (mosssedum-herbs) with substrates of an organic-mineral and mineral composition for 8 months. A statistical regression approach identified potential antecedent meteorological factors and moisture indicators of extensive green-roof retention. Continuous field monitoring data revealed the combined effects of rainfall depth and antecedent dry weather period to explain the measured stormwater retention under a moderate climate conditions regime. It is important to incorporate site-specific planning and assessment prior to green infrastructure design.
Anna Baryła; Agnieszka Karczmarczyk; Agnieszka Bus; Edyta Hewelke. Influence of environmental factors on retention of extensive green roofs with different substrate composition. E3S Web of Conferences 2019, 86, 00026 .
AMA StyleAnna Baryła, Agnieszka Karczmarczyk, Agnieszka Bus, Edyta Hewelke. Influence of environmental factors on retention of extensive green roofs with different substrate composition. E3S Web of Conferences. 2019; 86 ():00026.
Chicago/Turabian StyleAnna Baryła; Agnieszka Karczmarczyk; Agnieszka Bus; Edyta Hewelke. 2019. "Influence of environmental factors on retention of extensive green roofs with different substrate composition." E3S Web of Conferences 86, no. : 00026.
Ecosystem services have been identified as an instrument supporting the assessment of the effects of municipalities' activities on environmental protection. The analysis uses the matrix of ecosystem services, which allows the assessment of activities in three selected municipalities in the field...
Edyta Aleksandra Hewelke; Ewelina Wiśniewska. Analysis of ecosystem services as a tool in the development of local environmental protection programs. Inżynieria Ekologiczna 2018, 19, 83 -90.
AMA StyleEdyta Aleksandra Hewelke, Ewelina Wiśniewska. Analysis of ecosystem services as a tool in the development of local environmental protection programs. Inżynieria Ekologiczna. 2018; 19 (5):83-90.
Chicago/Turabian StyleEdyta Aleksandra Hewelke; Ewelina Wiśniewska. 2018. "Analysis of ecosystem services as a tool in the development of local environmental protection programs." Inżynieria Ekologiczna 19, no. 5: 83-90.
Although soil water repellency (SWR) has been reported under different soils, climates, and vegetation types of the world, especially in forest land and following wildfires, the understanding of this variable continues to be rather limited. This study presented the characterization of SWR from wild fire measurements in a Scots pine Peucedano-Pinetum forest in the Kampinos National Park (central Poland), which is characterized by a temperate continental climate. The main objectives were: [i] To evaluate the potential occurrence, intensity, and persistence of soil water repellency in the surface layers of podzolized rusty soils during a dry summer; [ii] to determine whether a wildfire increased SWR, compared to the unburnt condition of soil; and [iii] to identify changes in hydrophobicity 13 months after a fire. The Water Drop Penetration Time (WDPT) test was used to assess persistence and intensity of soil SWR. Hydrophobicity is a natural phenomenon during periods of drought in temperate continental climates. The extreme class of SWR was observed in surface layers of up to 20 cm. A higher hydrophobicity was noted in the older habitats of the Peucedano-Pinetum forest. Maximum WDPT values (10,800 s) were found for an older ecosystem cover, during a dry summer. SWR in fire-affected soils is dependent on the intensity of the fire, as well as displaying spatial and seasonal variability. Thirteen months after a fire, the highest variability in the occurrence of non-wettability, was recorded in the surface layers of areas affected by a weak fire. A positive relationship between soil pH and WDPT values was determined to a 20 cm depth. Prolonged dry periods resulting from global climate change, may enhance the effects of increasing SWR; it therefore seems reasonable for future research on biosphere–climate interactions, to take the presence of hydrophobicity into account.
Edyta Hewelke; Lidia Oktaba; Dariusz Gozdowski; Marek Kondras; Izabella Olejniczak; Ewa Beata Górska. Intensity and Persistence of Soil Water Repellency in Pine Forest Soil in a Temperate Continental Climate under Drought Conditions. Water 2018, 10, 1121 .
AMA StyleEdyta Hewelke, Lidia Oktaba, Dariusz Gozdowski, Marek Kondras, Izabella Olejniczak, Ewa Beata Górska. Intensity and Persistence of Soil Water Repellency in Pine Forest Soil in a Temperate Continental Climate under Drought Conditions. Water. 2018; 10 (9):1121.
Chicago/Turabian StyleEdyta Hewelke; Lidia Oktaba; Dariusz Gozdowski; Marek Kondras; Izabella Olejniczak; Ewa Beata Górska. 2018. "Intensity and Persistence of Soil Water Repellency in Pine Forest Soil in a Temperate Continental Climate under Drought Conditions." Water 10, no. 9: 1121.
The aim of the studies was the assessment of the usefulness of selected pedotransfer function for calculating the water retention of alluvial soils in Żuławy Wiślane. Żuławy Wiślane are an important area, both as far as agricultural production and environmental values are concerned. The analysis accounted for three models, i.e.: van Genuchten-Wösten, Varellyay and Mieronienko, Hewelke et al. Based on 122 dataset of alluvial soils from the Żuławy area, the statistical relationships between the measured values of total available water and values calculated for individual models were analysed. The studies carried out indicate that the analysed pedotransfer functions are characterized by different compatibilities with results obtained by means of direct measurement. The lowest average errors of fit were obtained for the Hewelke et al. and van Genuchten models.
Piotr Hewelke; Edyta Hewelke; Ryszard Oleszczuk; Marcin Kwas. The application of pedotransfer functions in the estimation of water retention in alluvial soils in Żuławy Wiślane, northern Poland. Soil Science Annual 2018, 69, 3 -10.
AMA StylePiotr Hewelke, Edyta Hewelke, Ryszard Oleszczuk, Marcin Kwas. The application of pedotransfer functions in the estimation of water retention in alluvial soils in Żuławy Wiślane, northern Poland. Soil Science Annual. 2018; 69 (1):3-10.
Chicago/Turabian StylePiotr Hewelke; Edyta Hewelke; Ryszard Oleszczuk; Marcin Kwas. 2018. "The application of pedotransfer functions in the estimation of water retention in alluvial soils in Żuławy Wiślane, northern Poland." Soil Science Annual 69, no. 1: 3-10.
The contamination of soil with petroleum products is a major environmental problem. Petroleum products are common soil contaminants as a result of human activities, and they are causing substantial changes in the biological (particularly microbiological) processes, chemical composition, structure and physical properties of soil. The main objective of this study was to assess the impact of soil moisture on CO2 efflux from diesel-contaminated albic podzol soils. Two contamination treatments (3000 and 9000 mg of diesel oil per kg of soil) were prepared for four horizons from two forest study sites with different initial levels of soil water repellency. CO2 emissions were measured using a portable infrared gas analyser (LCpro+, ADC BioScientific, UK) while the soil samples were drying under laboratory conditions (from saturation to air-dry). The assessment of soil water repellency was performed using the water drop penetration time test. An analysis of variance (ANVOA) was conducted for the CO2 efflux data. The obtained results show that CO2 efflux from diesel-contaminated soils is higher than efflux from uncontaminated soils. The initially water-repellent soils were found to have a bigger CO2 efflux. The non-linear relationship between soil moisture content and CO2 efflux only existed for the upper soil horizons, while for deeper soil horizons, the efflux is practically independent of soil moisture content. The contamination of soil by diesel leads to increased soil water repellency.
Edyta Hewelke; Jan Szatyłowicz; Piotr Hewelke; Tomasz Gnatowski; Rufat Aghalarov. The Impact of Diesel Oil Pollution on the Hydrophobicity and CO2 Efflux of Forest Soils. Water, Air, & Soil Pollution 2018, 229, 1 -11.
AMA StyleEdyta Hewelke, Jan Szatyłowicz, Piotr Hewelke, Tomasz Gnatowski, Rufat Aghalarov. The Impact of Diesel Oil Pollution on the Hydrophobicity and CO2 Efflux of Forest Soils. Water, Air, & Soil Pollution. 2018; 229 (2):1-11.
Chicago/Turabian StyleEdyta Hewelke; Jan Szatyłowicz; Piotr Hewelke; Tomasz Gnatowski; Rufat Aghalarov. 2018. "The Impact of Diesel Oil Pollution on the Hydrophobicity and CO2 Efflux of Forest Soils." Water, Air, & Soil Pollution 229, no. 2: 1-11.
Ryszard Oleszczuk; Ewelina Zając; Edyta Hewelke; Karolina Wawer; University of Agriculture in Krakow; Warsaw University of Life Sciences – SGGW. Determination of water retention characteristics of organic soils, using the indirect filter-paper method. Acta Scientiarum Polonorum Formatio Circumiectus 2018, 2, 13 -21.
AMA StyleRyszard Oleszczuk, Ewelina Zając, Edyta Hewelke, Karolina Wawer, University of Agriculture in Krakow, Warsaw University of Life Sciences – SGGW. Determination of water retention characteristics of organic soils, using the indirect filter-paper method. Acta Scientiarum Polonorum Formatio Circumiectus. 2018; 2 ():13-21.
Chicago/Turabian StyleRyszard Oleszczuk; Ewelina Zając; Edyta Hewelke; Karolina Wawer; University of Agriculture in Krakow; Warsaw University of Life Sciences – SGGW. 2018. "Determination of water retention characteristics of organic soils, using the indirect filter-paper method." Acta Scientiarum Polonorum Formatio Circumiectus 2, no. : 13-21.
Retencja gleb leśnych w znacznym stopniu decyduje o bilansie wodnym zlewni i przebiegu zjawisk hydrologicznych, wpływa na kształtowanie się określonego typu siedliska lasu, skład florystyczny i jakość drzewostanu. Zdolności retencyjne gleb leśnych są znacznie mniej rozpoznane niż retencja gleb użytkowanych rolniczo. Retencja może być wyznaczona zarówno metodą bezpośrednią, jak i pośrednio za pomocą tzw. funkcji pedotransfer opisującej jej związek z określonymi właściwościami fizycznymi gleby. Analizę prowadzono dla modelu regresyjnego opracowanego dla wybranych gleb leśnych z obszaru Polski oraz dla modeli van Genuchtena i Wöstena oraz Varallyaya i Mironienki. Do oceny dopasowania modeli zastosowano niezależną serię gleb leśnych. Analiza pomierzonych i obliczonych wartości potencjalnej retencji użytecznej wskazuje na dobre dopasowanie modelu regresyjnego opracowanego dla badanej grupy gleb leśnych bielicowych i brunatnych. Modele opracowane dla gleb użytkowanych rolniczo nie dają akceptowalnego statystycznie dopasowania dla analizowanych gleb leśnych. Przeprowadzone badania potwierdzają lokalny charakter funkcji pedotransfer.
Piotr Hewelke; Sylwester Chołast; Edyta Hewelke; Marcin Lesak; Stanisław Żakowicz. Assessment of the possibility of applying selected pedotransfer functions for indicating the retention of forest soils in Poland. Przegląd Naukowy Inżynieria i Kształtowanie Środowiska 2017, 26, 336 -345.
AMA StylePiotr Hewelke, Sylwester Chołast, Edyta Hewelke, Marcin Lesak, Stanisław Żakowicz. Assessment of the possibility of applying selected pedotransfer functions for indicating the retention of forest soils in Poland. Przegląd Naukowy Inżynieria i Kształtowanie Środowiska. 2017; 26 (3):336-345.
Chicago/Turabian StylePiotr Hewelke; Sylwester Chołast; Edyta Hewelke; Marcin Lesak; Stanisław Żakowicz. 2017. "Assessment of the possibility of applying selected pedotransfer functions for indicating the retention of forest soils in Poland." Przegląd Naukowy Inżynieria i Kształtowanie Środowiska 26, no. 3: 336-345.
Dynamic simulation of sustainable farm development scenarios using cognitive modeling. The paper presents a dynamic simulation system of sustainable development scenarios on farms using cognitive modeling. The system incorporates relevant variables which affect the sustainable development of farms. Its user provides answers to strategic issues connected with the level of farm sustainability over a long-term perspective of dynamic development. The work contains a description of the model structure as well as the results of simulations carried out on 16 farms in northern Ukraine. The results show that the process of sustainability is based mainly on the potential for innovation in agricultural production and biodiversity. The user is able to simulate various scenarios for the sustainable development of a farm and visualize the influence of factors on the economic and social situation, as well as on environmental aspects. Upon carrying out a series of simulations, it was determined that the development of farms characterized by sustainable development is based on additional profit, which serves as the main motivation for transforming a conventional farm into a sustainable one. Nevertheless, additional profit is not the only driving force in the system of sustainable development. The standard of living, market condition, and legal regulations as well as government support also play a significant motivational role.
Kateryna Tuzhyk; Edyta Hewelke; Piotr Hewelke. Dynamic simulation of sustainable farm development scenarios using cognitive modeling. Annals of Warsaw University of Life Sciences - SGGW. Land Reclamation 2017, 49, 43 -53.
AMA StyleKateryna Tuzhyk, Edyta Hewelke, Piotr Hewelke. Dynamic simulation of sustainable farm development scenarios using cognitive modeling. Annals of Warsaw University of Life Sciences - SGGW. Land Reclamation. 2017; 49 (1):43-53.
Chicago/Turabian StyleKateryna Tuzhyk; Edyta Hewelke; Piotr Hewelke. 2017. "Dynamic simulation of sustainable farm development scenarios using cognitive modeling." Annals of Warsaw University of Life Sciences - SGGW. Land Reclamation 49, no. 1: 43-53.
Leszek Hejduk; Agnieszka Hejduk; Anna Baryła; Edyta Hewelke. INFLUENCE OF SELECTED FACTORS ON ERODIBILITY IN CATCHMENT SCALE ON THE BASIS OF FIELD INVESTIGATION. Journal of Ecological Engineering 2017, 18, 256 -267.
AMA StyleLeszek Hejduk, Agnieszka Hejduk, Anna Baryła, Edyta Hewelke. INFLUENCE OF SELECTED FACTORS ON ERODIBILITY IN CATCHMENT SCALE ON THE BASIS OF FIELD INVESTIGATION. Journal of Ecological Engineering. 2017; 18 (1):256-267.
Chicago/Turabian StyleLeszek Hejduk; Agnieszka Hejduk; Anna Baryła; Edyta Hewelke. 2017. "INFLUENCE OF SELECTED FACTORS ON ERODIBILITY IN CATCHMENT SCALE ON THE BASIS OF FIELD INVESTIGATION." Journal of Ecological Engineering 18, no. 1: 256-267.
Karolina Gwóżdź; Wojciech Sas; Stanisław Żakowicz; Anna Baryła; Edyta Hewelke. INFLUENCE OF CYCLIC FREEZING AND THAWING ON THE HYDRAULIC CONDUCTIVITY OF SELECTED AGGREGATES USED IN THE CONSTRUCTION OF GREEN ROOFS. Journal of Ecological Engineering 2016, 17, 50 -56.
AMA StyleKarolina Gwóżdź, Wojciech Sas, Stanisław Żakowicz, Anna Baryła, Edyta Hewelke. INFLUENCE OF CYCLIC FREEZING AND THAWING ON THE HYDRAULIC CONDUCTIVITY OF SELECTED AGGREGATES USED IN THE CONSTRUCTION OF GREEN ROOFS. Journal of Ecological Engineering. 2016; 17 (4):50-56.
Chicago/Turabian StyleKarolina Gwóżdź; Wojciech Sas; Stanisław Żakowicz; Anna Baryła; Edyta Hewelke. 2016. "INFLUENCE OF CYCLIC FREEZING AND THAWING ON THE HYDRAULIC CONDUCTIVITY OF SELECTED AGGREGATES USED IN THE CONSTRUCTION OF GREEN ROOFS." Journal of Ecological Engineering 17, no. 4: 50-56.
The way of using the environment greatly affects the condition of ecosystems and often reduces their potential. Loss of function provided by natural ecosystems in the long term may have a negative impact on human well-being. The objective of the analysis was an assessment of changes in ecosystem...
Edyta Hewelke; Marta Graczyk. ECOSYSTEM SERVICES AS A DECISION SUPPORT SYSTEM IN SPATIAL PLANNING AND ENVIRONMENTAL PROTECTION. Inżynieria Ekologiczna 2016, 33 -40.
AMA StyleEdyta Hewelke, Marta Graczyk. ECOSYSTEM SERVICES AS A DECISION SUPPORT SYSTEM IN SPATIAL PLANNING AND ENVIRONMENTAL PROTECTION. Inżynieria Ekologiczna. 2016; (49):33-40.
Chicago/Turabian StyleEdyta Hewelke; Marta Graczyk. 2016. "ECOSYSTEM SERVICES AS A DECISION SUPPORT SYSTEM IN SPATIAL PLANNING AND ENVIRONMENTAL PROTECTION." Inżynieria Ekologiczna , no. 49: 33-40.
Piotr Hewelke; Tomasz Gratowski; Edyta Hewelke; Stanisław Żakowicz; Jan Tyszka. Analysis of Water Retention Capacity for Select Forest Soils in Poland. Polish Journal of Environmental Studies 2015, 24, 1013 -1019.
AMA StylePiotr Hewelke, Tomasz Gratowski, Edyta Hewelke, Stanisław Żakowicz, Jan Tyszka. Analysis of Water Retention Capacity for Select Forest Soils in Poland. Polish Journal of Environmental Studies. 2015; 24 ():1013-1019.
Chicago/Turabian StylePiotr Hewelke; Tomasz Gratowski; Edyta Hewelke; Stanisław Żakowicz; Jan Tyszka. 2015. "Analysis of Water Retention Capacity for Select Forest Soils in Poland." Polish Journal of Environmental Studies 24, no. : 1013-1019.
Edyta Hewelke; Jan Szatyłowicz; Tomasz Gnatowski; Ryszard Oleszczuk. Effects of Soil Water Repellency on Moisture Patterns in a Degraded Sapric Histosol. Land Degradation & Development 2014, 27, 955 -964.
AMA StyleEdyta Hewelke, Jan Szatyłowicz, Tomasz Gnatowski, Ryszard Oleszczuk. Effects of Soil Water Repellency on Moisture Patterns in a Degraded Sapric Histosol. Land Degradation & Development. 2014; 27 (4):955-964.
Chicago/Turabian StyleEdyta Hewelke; Jan Szatyłowicz; Tomasz Gnatowski; Ryszard Oleszczuk. 2014. "Effects of Soil Water Repellency on Moisture Patterns in a Degraded Sapric Histosol." Land Degradation & Development 27, no. 4: 955-964.