Nauki Biologiczne i Rolnicze

Journal of Water and Land Development

Zawartość

Journal of Water and Land Development | 2023 | No 57

Abstrakt

Artificial neural network models (ANNs) were used in this study to predict reference evapotranspiration ( ETo) using climatic data from the meteorological station at the test station in Kafr El-Sheikh Governorate as inputs and reference evaporation values computed using the Penman–Monteith (PM) equation. These datasets were used to train and test seven different ANN models that included different combinations of the five diurnal meteorological variables used in this study, namely, maximum and minimum air temperature ( Tmax and Tmin), dew point temperature ( Tdw), wind speed ( u), and precipitation (P), how well artificial neural networks could predict ETo values. A feed- forward multi-layer artificial neural network was used as the optimization algorithm. Using the tansig transfer function, the final architected has a 6-5-1 structure with 6 neurons in the input layer, 5 neurons in the hidden layer, and 1 neuron in the output layer that corresponds to the reference evapotranspiration. The root mean square error ( RMSE) of 0.1295 mm∙day –1 and the correlation coefficient ( r) of 0.996 are estimated by artificial neural network ETo models. When fewer inputs are used, ETo values are affected. When three separate variables were employed, the RMSE test values were 0.379 and 0.411 mm∙day –1 and r values of 0.971 and 0.966, respectively, and when two input variables were used, the RMSE test was 0.595 mm∙day –1 and the r of 0.927. The study found that including the time indicator as an input to all groups increases the prediction of ETo values significantly, and that including the rain factor has no effect on network performance. Then, using the Penman–Monteith method to estimate the missing variables by using the ETo calculator the normalised root mean squared error ( NRMSE) reached about 30% to predict ETo if all data except temperature is calculated, while the NRMSE reached about of 13.6% when used ANN to predict ETo using variables of temperature only.
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Autorzy i Afiliacje

Amal Abo El-Magd
1
ORCID: ORCID
Shaimaa M. Baraka
2
ORCID: ORCID
Samir F.M. Eid
1
ORCID: ORCID

  1. Agricultural Engineering Research Institute (AEnRI), Agricultural Research Centre (ARC) Nadi El-Said St. Dokki, P.O. Box 256, Giza, Egypt
  2. Ain Shams University, Faculty of Agriculture, Department of Agricultural Engineering, Cairo, Egypt

Abstrakt

The paper presents the results of theoretical calculations in terms of the G4MP2 composite method for cyprodinil–α-cyclodextrin (C 0@α-CD) and cyprodinil–β-cyclodextrin (C 0@β-CD) systems. Studies also covered analogous systems consisting of the anion (C ) and the cation (C +) of cyprodinil. The geometries of the cyprodinil molecule and ions were optimized on the basis of the DFT theory, using hybrid (B3LYP, PBE0), pure (B97-D) and “meta” (M06-2X) GGA functionals for selected Pople basis sets [6-311++G(d,p), 6-311++G(2d,p), 6-311++G(2d,2p)] and Dunning basis set (aug-cc-pVDZ). The research results suggest that the affinity of “guest” molecules for “hosts” is relatively low. Theoretical studies of the “guest-host” systems allow to predict the properties of the designed preparations.
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Autorzy i Afiliacje

Jakub T. Hołaj-Krzak
1
ORCID: ORCID

  1. Institute of Technology and Life Sciences – National Research Institute, Falenty, 3 Hrabska Avenue, 05-090 Raszyn, Poland

Abstrakt

This study analyses and presents a technical comparison of seepage estimation from 11 empirical equations with measured seepage losses by the inflow-outflow method from two lined and unlined secondary irrigation canals sub-divided into different reach lengths. A significant margin of error was observed between empirical and inflow- outflow methods, hence modifications in empirical equations were performed. Results reveal that the average seepage losses observed in unlined and lined canals by inflow-outflow method were 9.15 and 3.89%, respectively. Moreover, only the Chinese equation estimated seepage losses for an unlined canal as similar to observed losses (0.11 m 3∙s –1) whereas the Indian equation estimated similar results for a lined canal to those observed in the field (0.09 m 3∙s –1). However, the rest of empirical equations were modified in accordance with error percentage with regard to the observed losses. The empirical equations were then observed to estimate reliable results of seepage.
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Autorzy i Afiliacje

Naeem S.B. Syed
1
ORCID: ORCID
Zhao Shuqi
1
ORCID: ORCID

  1. Beijing University of Technology, Faculty of Architecture, Civil and Transportation Engineering, 100124 Beijing, China

Abstrakt

The objective of this experimental study was to examine whether an assisting layer of lightweight expanded clay aggregate (LECA) of the granulation 1–4 mm, introduced into a subsoil, is able to improve an efficiency of removal of total nitrogen and total phosphorus from domestic wastewater. In the investigations, an assisting 0.10 and 0.20 m thick LECA layer was applied. It has been observed that the effectiveness of removal of total suspended solids (TSS), total nitrogen and total phosphorus from wastewater as well as the level of biochemical oxygen demand ( BOD 5) and chemical oxygen demand ( COD) is in accordance with the Polish standards on wastewater disposal into grounds and surface water. The performed experiments showed that the effectiveness of raw wastewater purification for the medium sand soil bed with the 0.20 m thick assisting LECA layer is higher than for the 0.10 m thick assisting layer. In the medium sand soil bed with the 0.20 m thick assisting LECA layer, the removal efficiency regarding total nitrogen increased by 20.6%, total phosphorus by 5.2%, ammonium nitrogen by 8.8% and TSS by 5.3%, and reduction efficiency regarding BOD 5 increased by 1.7% and COD by 2.3% with relation to the 0.10 m thick assisting LECA layer (all percentages – in average). The results of the experiment showed that the LECA with the granulation 1–4 mm can be used to assist in removal of total nitrogen and total phosphorus from wastewater with application of infiltration drainage.
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Autorzy i Afiliacje

Marek Kalenik
1
ORCID: ORCID
Piotr Wichowski
1
ORCID: ORCID
Marek Chalecki
2
ORCID: ORCID
Adam Kiczko
1
ORCID: ORCID

  1. Warsaw University of Life Sciences – SGGW, Institute of Environmental Engineering, Department of Hydraulics and Sanitary Engineering, Nowoursynowska 159, 02-776 Warsaw, Poland
  2. Warsaw University of Life Sciences – SGGW, Institute of Civil Engineering, Department of Mechanics and Building Structures, Warsaw, Poland

Abstrakt

The purpose of this study has been to determine the effect of fertilisation with urea-ammonium nitrate (UAN) solution enriched with P, Mg or S on the content of macronutrients in the grain and straw of maize. The following fertilisers were tested in the field experiment: ammonium nitrate, urea, UAN – 32% N; RSM+S – 26% N + 3% S; RSM+P(Medium) – 26% N and 4.80% P; RSM+P(Starter) – 21% N and 7.86% P; UAN + Mg – 20% N + 4% Mg. In each year of the experiment, significant differentiation in the contents of P, K, Ca, Mg and S in maize grain and straw was observed, depending on the applied nitrogen fertilisation. However, considering the average values from each treatment achieved over the three years, it was demonstrated that the fertilisation significantly changed only the content of P and S in grain and K and Ca in straw of maize. The removal of nutrients was the highest in the second year of the research and amounted in kg∙ha –1: P – about 100, K – about 350, Ca – about 80, Mg – about 35 and S – about 31, which in turn were differentiated over the years of the experiment in the three years. The removal of P, K, Mg and S also significantly depended on fertilisation. Significant differences, however, most often concerned the control treatment relative to the fertilised ones. The contribution of grain to the accumulation of nutrients also varied significantly in the three years of the experiment. Significantly the lowest share of grain in terms of P and S accumulation was noted in maize grown without N fertilisation.
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Autorzy i Afiliacje

Jadwiga Wierzbowska
1
ORCID: ORCID
Stanisław Sienkiewicz
1
ORCID: ORCID
Arkadiusz Światły
1

  1. University of Warmia and Mazury in Olsztyn, Chair of Agricultural and Environmental Chemistry, Oczapowskiego 8, 10-719, Olsztyn, Poland

Abstrakt

River intermittence was studied based on data from hydrological monitoring in Poland. We screened the entire state database and two another data sources applying the criterion for zero-flow event: discharge less than 0.0005 m 3∙s –1, and found five intermittent rivers with catchment area from 9.2 to 303.7 km 2. We aimed at finding associations between intermittence and climatic driving forces (temperature and precipitation), and between intermittence and anthropogenic activity. We used the Spearman correlation coefficient, circular statistics, and statistical tests for trend.
The concentration of zero-flow days, mostly in summer, and the decreasing trend in the standardised precipitation evapotranspiration index ( SPEI) in all catchments at various aggregation levels, and an increasing trend in the total number of zero-flow days and in the maximum length of zero flow events in two rivers, were detected. The strong negative correlation (–0.62 ≤ ρ < 0) between intermittence and the SPEI backward lagged in time showed that intermittence resulted from prolonged deficits in climatic water balance due to increasing evapotranspiration. The reaction of the Noteć catchment, amplified by the anthropogenic pressure (brown coal mines), was reflected in the atypical shape of the rose diagram and in inhomogeneities in river discharges.
The results show that the rose diagram can serve as an indicator of the degree of anthropogenic impact on runoff conditions.

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Autorzy i Afiliacje

Agnieszka Rutkowska
1
ORCID: ORCID
Marzena Osuch
2
ORCID: ORCID
Mirosław Żelazny
3
ORCID: ORCID
Kazimierz Banasik
4 5
ORCID: ORCID
Mariusz Klimek
3
ORCID: ORCID

  1. University of Agriculture in Krakow, Department of Applied Mathematics, Balicka St, 253C, 30-198 Kraków, Poland
  2. Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
  3. Jagiellonian University in Kraków, Institute of Geography and Spatial Management, Kraków, Poland
  4. Warsaw University of Life Sciences – SGGW, Department of Water Engineering and Applied Geology, Warsaw, Poland
  5. Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland

Abstrakt

A recent study revealed that the amount of rainfall on the Kapuas River has increased over the last 30 years. The increase in rainfall increases the possibility of high discharge events, which might lead to destructive flooding of the Kapuas River and its tributaries. Hence, the ability to characterise the pattern of high discharge events is compulsory for the development and management of the Kapuas River watershed. The main objective of this study was to assess and characterise flood patterns in the Kapuas River watershed. To achieve this objective, we utilised information and complexity measures that consisted of mean information gain ( MIG), effective measure complexity ( EMC) and fluctuation complexity ( FC) in daily water level records from 2002 to 2011 from a gauging station in Sanggau, West Kalimantan Province. The results revealed that flood events in the Kapuas River were mainly generated by the Indo-Australian monsoon, which occurred from December to March. The anomaly in 2010, when intense flood events were observed during the dry season, can be identified as the effect of a strong negative El Niño-Southern Oscillation (ENSO). Additionally, the analysis of the information and complexity measures indicates that: (i) EMC, which reflects the length of flood events, tends to increase along with greater discharge, and (ii) MIG and FC, which denote the degree of randomness and fluctuation of flood events, respectively, tended to have higher values when the number of months without high discharge was less.
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Autorzy i Afiliacje

Gillang N.N. Gusti
1
ORCID: ORCID
Henny Herawati
2
ORCID: ORCID
Kiyosi Kawanisi
1
ORCID: ORCID
Mohamad B. Al Sawaf
3
ORCID: ORCID
Mochammad M. Danial
4
ORCID: ORCID

  1. Hiroshima University, Department of Civil and Environmental Engineering, 1-4-1 Kagamiyama, Higashi-Hiroshima City, 739-8527, Hiroshima, Japan
  2. Tanjungpura University, Department of Civil Engineering, Kalimantan Barat, Indonesia
  3. Kitami Institute of Technology, Department of Engineering, Kitami, Hokkaido, Japan
  4. Tanjungpura University, Department of Ocean Engineering, Kalimantan Barat, Indonesia

Abstrakt

The study analysed the relationship between the granulometric composition of grassland soils as determined by laser diffraction and their content of mineral forms of nitrogen and organic carbon. The content of mineral forms of nitrogen (NO 3-N and NH 4-N) in soil samples – after their extraction with 1% solution K 2SO 4, was determined by flow colourimetry. Soil organic carbon content was determined using the Tyurin method. The study examined soil samples collected from 169 control and measurement sites located in different regions of Poland in terms of conditions for agricultural production. Statistical analyses of the research results showed that the grain size of grassland soils had a significant effect on their ammonium nitrogen content but not on their nitrate nitrogen and organic carbon content. In this respect, it was found that there was a positive correlation between the share of the sand fraction and the content of ammonium nitrogen in soils and an opposite relation between the share of coarse silt, fine silt and clay and the content of the aforementioned component. Results of the analyses differ considerably from the results of studies by other authors on the influence of soil grain size distribution on the content of mineral nitrogen and organic carbon in soils based on classical methods of measurements of soil particle size distribution. There is a need to develop solutions to convert and compare results obtained by laser diffraction and standard methods.
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Autorzy i Afiliacje

Stefan Pietrzak
1
ORCID: ORCID
Marek Urbaniak
1
ORCID: ORCID

  1. Institute of Technology and Life Sciences – National Research Institute, Falenty, 05-090, Raszyn, Poland

Abstrakt

Aluminium slag waste is a residue from aluminium recycling activities, classified as hazardous waste so its disposal into the environment without processing can cause environmental problems, including groundwater pollution. There are 90 illegal dumping areas for aluminium slag waste spread in the Sumobito District, Jombang Regency. This study aims to evaluate the quality of shallow groundwater surrounding aluminium slag disposal in the Sumobito District for drinking water. The methods applied an integrated water quality index ( WQI) and heavy metal pollution index ( HPI), multivariate analysis (principal component analysis (PCA) and hierarchical clustering analysis (HCA)), and geospatial analysis for assessing groundwater quality. The field campaign conducted 40 groundwater samples of the dug wells for measuring the groundwater level and 30 of them were analysed for the chemical contents. The results showed that some locations exceeded the quality standards for total dissolved solids ( TDS), electrical conductivity (EC), and Al 2+. The WQI shows that 7% of dug well samples are in poor drinking water condition, 73% are in good condition, and 20% are in excellent condition. The level of heavy metal contamination based on HPI is below the standard limit, but 13.3% of the water samples are classified as high contamination. The multivariate analysis shows that anthropogenic factors and natural sources/geogenic factors contributed to shallow groundwater quality in the study area. The geospatial map shows that the distribution of poor groundwater quality is in the northern area, following the direction of groundwater flow, and is a downstream area of aluminium slag waste contaminants.
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Autorzy i Afiliacje

Thomas Triadi Putranto
1
ORCID: ORCID
Wenny Febriane
2

  1. Diponegoro University, Faculty of Engineering, Geological Engineering, Prof. Sudarto SH, Tembalang, 50275, Semarang, Indonesia
  2. Diponegoro University, Graduate School of Environmental Science, Semarang, Indonesia

Abstrakt

Green roofs are increasingly popular in both new and modernised buildings. They significantly reduce the outflow of stormwater from buildings and change its composition. Wherever an urbanised area is equipped with a separate sewage system, usually stormwater goes directly to the receiver without treatment, which may affect the quality of water in the receiver. The article presents results of research carried out on the green roof of a building in Lodz, Poland. During rainfall, the flow rate from the roof was measured. With the use of the US EPA software Stormwater Management Model (SWMM) a model of the green roof was created and calibrated using rainfall data from the city’s pluviometric network. Based on the measurements of the roof runoff, as well as SWMM modelling, the degree of outfall reduction was determined. Samples of roof runoff were collected to study the characteristics of rainwater, including pH, electrical conductivity, organic compounds, nitrogen, phosphorus, and suspended solids. The results were compared with the quality of runoff from a traditional roof. Except ammonium nitrogen, values of the examined quality indicators was higher in the case of the green roof but the pollution load of almost all contaminants, except phosphorus, were lower due to a significant reduction in the volume of stormwater outflow (62–91%). The quality of stormwater discharged from the green roof improved with its age.
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Autorzy i Afiliacje

Grażyna Sakson
1
ORCID: ORCID

  1. Lodz University of Technology, Institute of Environmental Engineering and Building Installations, Al. Politechniki 6, 90-924, Łódź, Poland

Abstrakt

Changes in river channel morphological parameters are influenced by anthropogenic factors, such as climatic changes, river catchment management changes, and hydrotechnical development of rivers. To assess the intensity of individual pressures and the resulting changes in abiotic and biotic factors in the riverbed, water quality monitoring is conducted, including the assessment of the hydromorphological status. The assessment can be based on the River Habitat Survey (RHS) which is a synthetic method that includes the evaluation of habitat character and river quality based on their morphological structure.
The input data, which characterise any river include physical features of hydrotechnical structures, bed granulation, occurrence of bedforms, visible morphodynamic phenomena, and a sediment transport pattern. The RHS method allows to determine two quantitative indices used to evaluate the hydromorphological status: Habitat Modification Score ( HMS), which determines the extent of transformation in the morphology of a watercourse, and Habitat Quality Assessment ( HQA), which is based on the presence and diversity of natural elements in a watercourse and river valley.
The proposed method can be divided into three stages. The first assesses the river section hydromorphological indices, describing the degree of technical modification ( HMS) and the ecological quality of the reach ( HQA), using the RHS method. The second stage describes morphological changes resulting from the technical regulation and estimates indices for the regulated reach. Finally, we compare HQA and HMS indices before and after the regulation. This comparison is described by numerical indicators and related to reference values.
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Autorzy i Afiliacje

Marta J. Kiraga
1
ORCID: ORCID
Anna Markiewicz
1
ORCID: ORCID

  1. Warsaw University of Life Sciences, Institute of Civil Engineering, Faculty of Civil and Environmental Engineering, Department of Hydrotechnics, Technology and Management, Nowoursynowska St 159, 02-776 Warsaw, Poland

Abstrakt

Evaporation is one of the main essential components of the hydrologic cycle. The study of this parameter has significant consequences for knowing reservoir level forecasts and water resource management. This study aimed to test the three artificial neural networks (feed-forward, Elman and nonlinear autoregressive network with exogenous inputs (NARX) models) and multiple linear regression to predict the rate of evaporation in the Boudaroua reservoir using the calculated values obtained from the energy budget method. The various combinations of meteorological data, including solar radiation, air temperature, relative humidity, and wind speed, are used for the training and testing of the model’s studies. The architecture that was finally chosen for three types of neural networks has the 4-10-1 structure, with contents of 4 neurons in the input layer, 10 neurons in the hidden layer and 1 neuron in the output layer. The calculated evaporation rate presents a typical annual cycle, with low values in winter and high values in summer. Moreover, air temperature and solar radiation were identified as meteorological variables that mostly influenced the rate of evaporation in this reservoir, with an annual average equal to 4.67 mm∙d –1. The performance evaluation criteria, including the coefficient of determination (R 2), root mean square error ( RMSE) and mean absolute error ( MAE) approved that all the networks studied were valid for the simulation of evaporation rate and gave better results than the multiple linear regression (MLR) models in the study area.
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Autorzy i Afiliacje

Hicham En-nkhili
1
ORCID: ORCID
Imane Nizar
2
ORCID: ORCID
Mohammed Igouzal
1
ORCID: ORCID
Azzeddin Touazit
1
ORCID: ORCID
Nizar Youness
1
ORCID: ORCID
Issam Etebaai
3
ORCID: ORCID

  1. Ibn Tofail University, Faculty of Science, Department of Physics, Laboratory of Electronic Systems, Information Processing, Mechanics and Energy, University campus, B.P. 242, 14000 Kenitra, Morocco
  2. University Hassan II, Higher Normal School of Technical Education (ENSET), Computer Science, Artificial Intelligence and Cybersecurity (IIACS), Mohammedia, Casablanca, Morocco
  3. Abdelmalek Essaadi University, Faculty of Science and Technique, Department of Earth and Environmental Sciences, Team of Applied Geosciences and Geological Engineering, Al Hoceima, Morocco

Abstrakt

The article presents results of monitoring carried out in barns with milking robots. The use of milking robots makes it possible, with proper stocking, to milk cows without human intervention. The analysis included all barns with Lely robots located in the Podlaskie Voivodeship in 2018–2021. In 2018–2019, there were seven such barns, and in 2020–2021 nine. In all barns, high milk yields were obtained of more than 1000 kg compared to the average milk yield obtained from stock of cows under monitoring in the Podlaskie Voivodeship. In 2021, four barns milked more than 9.5 thous. kg, three barns more than 10 thous. kg and two barns almost 12 thous. kg of milk. Fat and protein contents were typical for the breed. Three barns were monitored more closely in 2021, with varying numbers of robot milking stations in barns, i.e. A one, B two and C three milking stations. In 2021, over 700,000 kg was milked per stall in stall A, over 750,000 kg in B and over 850,000 kg of milk in C. The average milk per cow per milking was high, with over 11 kg in barn A, 12 kg in B and 13 kg in C.
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Autorzy i Afiliacje

Andrzej Borusiewicz
1
ORCID: ORCID
Wacław Romaniuk
2
ORCID: ORCID
Stanisław Winnicki
2
ORCID: ORCID
Zbigniew Skibko
3
ORCID: ORCID
Janusz Zarajczyk
4
ORCID: ORCID

  1. International University of Applied Sciences in Lomza, 19 Studencka St, 18-402 Łomża, Poland
  2. Institute of Technology and Life Sciences – National Research Insitute, Falenty, Poland
  3. Bialystok University of Technology, Faculty of Electrical Engineering, Poland
  4. University of Life Sciences in Lublin, Faculty of Production Engineering, Poland

Abstrakt

Water erosion in mountainous areas is a major problem, especially on steep slopes exposed to intense precipitation. This paper presents the analysis of the topsoil loss using the SWAT (Soil and Water Assessment Tool) model. The SWAT model is a deterministic catchment model with a daily time step. It was designed to anticipate changes taking place in the catchment area, such as climate change and changes in land use and development, including the quantity and quality of water resources, soil erosion and agricultural production. In addition to hydrological and environmental aspects, the SWAT model is used to address socio-economic and demographic issues, such as water supply and food production. This program is integrated with QGIS software. The results were evaluated using the following statistical coefficients: determination (R2), Nash–Sutcliff model efficiency ( NS), and percentage deviation index ( PBIAS). An assessment of modelling results was made in terms of their variation according to different land cover scenarios. In the case of the scenario with no change in use, the average annual loss of topsoil (average upland sediment yield) was found to be 14.3 Mg∙ha –1. The maximum upland sediment yield was 94.6 Mg∙ha –1. On the other hand, there is an accumulation of soil material in the lower part of the catchment (in-stream sediment change), on average 13.27 Mg∙ha –1 per year.
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Autorzy i Afiliacje

Agnieszka W. Kowalczyk
1
ORCID: ORCID
Beata Grabowska-Polanowska
1
ORCID: ORCID
Tomasz Garbowski
1
ORCID: ORCID
Marek Kopacz
2
ORCID: ORCID
Stanisław Lach
2
ORCID: ORCID
Robert Mazur
2
ORCID: ORCID

  1. Institute of Technology and Life Sciences – National Research Institute, Falenty, al. Hrabska 3, 05-090 Raszyn, Poland
  2. AGH University of Science and Technology, Faculty of Mining Surveying and Environmental Engineering, Department of Environmental Management and Protection, Cracow, Poland

Abstrakt

We compared different net sampling methods for microplastic quantitative collection by sampling different water volumes with nets of different mesh sizes. Sampling covered freshwater lake and reservoir with a significant degree of eutrophication located in Central Poland. The fibres were the main type of plastic collected from sampling sites and constituted 83% of all microplastic particles. Fibres of 700–1900 μm dominated in the samples. The size of mesh affected the amount of fibres collected. Small fibres of 10–200 μm in length were collected using only a fine net of 20 μm mesh size. The total amount of fibres depended on sample volumes; concentrations of microplastics were higher for smaller water volumes. It is likely that clogging with phytoplankton and suspended particles reduced the filtration capacity of the finest nets when large volumes were sampled, which led to an underestimation of microplastic. To our knowledge, this is the first study to provide evidence that the amount of small microfibres depends on mesh size and that the total microplastic abundance in freshwaters in Poland depends on the sample volume. We suggest sampling rather larger than smaller water volumes to assess the level of microplastic contamination more accurately, but clogging, which reduces the filtration capacity of finest nets, should be taken into account when eutrophic freshwater environments are studied.
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Autorzy i Afiliacje

Kamil Karaban
1
ORCID: ORCID
Agnieszka Poniatowska
1
ORCID: ORCID
Anita Kaliszewicz
1
ORCID: ORCID
Michał Winczek
1
ORCID: ORCID
Krassimira Ilieva-Makulec
1
ORCID: ORCID
Jerzy Romanowski
1
ORCID: ORCID

  1. Cardinal Stefan Wyszyński University in Warsaw, Institute of Biological Sciences, Warsaw, Poland

Abstrakt

Plant viruses cause crop losses in agronomically and economically important crops, making global food security a challenge. Although traditional plant breeding has been effective in controlling plant viral diseases, it is unlikely to solve the problems associated with the frequent emergence of new and more virulent virus species or strains. As a result, there is an urgent need to develop alternative virus control strategies that can be used to more easily contain viral diseases. A better understanding of plant defence mechanisms will open up new avenues for research into plant- pathogen interactions and the development of broad-spectrum virus resistance.
The scientific literature was evaluated and structured in this review, and the results of the reliability of the methods of analysis used were filtered. As a result, we described the molecular mechanisms by which viruses interact with host plant cells.
To develop an effective strategy for the control of plant pathogens with a significant intensity on the agricultural market, clear and standardised recommendations are required. The current review will provide key insights into the molecular underpinnings underlying the coordination of plant disease resistance, such as main classes of resistance genes, RNA interference, and the RNA-mediated adaptive immune system of bacteria and archaea – clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associated Cas proteins – CRISPR/Cas.
Future issues related to resistance to plant viral diseases will largely depend on integrated research to transfer fundamental knowledge to applied problems, bridging the gap between laboratory and field work.
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Autorzy i Afiliacje

Nurgul Iksat
1
ORCID: ORCID
Zhaksylyk Masalimov
1
ORCID: ORCID
Rustem Omarov
1
ORCID: ORCID

  1. L.N. Gumilyov Eurasian National University, Faculty of Natural Sciences, Satbayeva St. 2, Astana 010000, Kazakhstan

Abstrakt

The international community affirms the critical role of forests in climate change mitigation, which includes reducing emissions from degradation and deforestation, carbon stock conservation, sustainable forest management, and increasing carbon stocks in developing countries. It relates to land use and land cover changes. This study aims to review land use and land cover changes (LULC) in two decades, namely 2000–2010 and 2010–2020, and the impact on carbon stocks. Landsat satellite imagery in 2000, 2010, and 2020 are classified into six categories: built-up area, cropland, forest, water body, bareland, and grassland. This classification uses supervised classification. The accuracy kappa coefficient values obtained for the LULC 2000, LULC 2010, and LULC 2020 maps were 89.61%, 83.90%, and 87.10%, respectively. The most dominant systematic LULC change processes were forest degradation in 2000–2020; the transition of forest to cropland (349.20 ha), forest to bareland (171.19 ha), and forest to built-up area (661.68 ha). Loss of using the forest for other uses was followed by a decrease in carbon stock. There was a high decrease in carbon stock in the forest category (11,000 Mg C∙y–1). The results showed a significant change in land use and cover. The decline in the area occurred in the forest category, which decreased from year to year. Meanwhile, the built-up area increases every year. Carbon stocks also decrease from year to year, especially forests as the most significant carbon store, decreasing in the area.
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Autorzy i Afiliacje

Ashfa Achmad
1
ORCID: ORCID
Ichwana Ramli
2
ORCID: ORCID
Nizamuddin Nizamuddin
3
ORCID: ORCID

  1. Universitas Syiah Kuala, Architecture and Planning Department, Jl. Tgk. Syech Abdurrauf No. 7, 23111, Banda Aceh, Indonesia
  2. Universitas Syiah Kuala, Agricultural Engineering, Banda Aceh, Indonesia
  3. Universitas Syiah Kuala, Mathematics Department, Banda Aceh, Indonesia

Abstrakt

The proper management of water resources is currently an important issue, not only in Poland, but also worldwide. Water resource management involves various activities including monitoring, modelling, assessment and designing the condition and extent of waters sources. The efficient management of water resources is essential, especially in rural areas where it ensures greater stability and efficiency of production in all sectors of the economy and leads to the well-being of the ecosystem.
The performed analyses have demonstrated that the time of origin of the cadastral data defining the course of water boundaries has a significant effect on their quality. Having analysed the factors (timeliness, completeness, redundancy) used to assess the quality of cadastral data, their clear trend of changes in time was noticed. Thus, it is possible to specify the estimated degree of quality of cadastral data defining the course of watercourse boundaries only based on the information about the method, time and area of data origin in the context of the former partition sector.
This research paper presents an original method of assessing the quality of spatial data that is used to determine the course of the shoreline of natural watercourses with unregulated channels flowing through agricultural land.
The research has also demonstrated that in order to increase the efficiency of work, the smallest number of principal factors should be selected for the final analysis. Limiting the analyses to a smaller number of factors does not affect the final result, yet it definitely reduces the amount of work.
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Autorzy i Afiliacje

Anita Kwartnik-Pruc
1
ORCID: ORCID
Aneta Mączyńska
2
ORCID: ORCID

  1. AGH University of Science and Technology, Faculty of Mining Surveying and Environmental Engineering, al. Adama Mickiewicza 30, 30-059 Kraków
  2. Geodetic and Construction Company “Geo-bud”, 26-220 Stąporków, Poland

Abstrakt

The Sianjo-anjo reservoir is used to meet the need for downstream clean water. Land activity at the Sianjo- anjo reservoir watershed can potentially increase the rate of erosion and the silting of rivers and reservoirs due to sedimentation. Reservoir siltation is a crucial challenge for reservoir management because it can reduce its function and affect its service life. However, sediment yield is often overlooked in reservoir planning and environmental assessment. This study aims to predict the rate of land erosion and sediment yield, and create an erosion hazard map of the Sianjo-anjo reservoir watershed. The study used a Geographic Information System, GIS-based Universal Soil Loss Equation (USLE) method and discovered that the erosion rate of the Sianjo-anjo reservoir watershed was between 35.23 Mg∙ha –1∙y –1 until 455.08 Mg∙ha –1∙y –1, with 95.85% classified as the low level, 0.03% as moderate, and 4.12% as high. Meanwhile, the sediment yield from the Sianjo-anjo reservoir watershed was 218,812.802 Mg∙y –1. USLE is vital to identify areas susceptible to erosion and crucial for reservoir sustainability. Furthermore, it is necessary to plan good sediment management. Long-term land conservation is required to maintain storage capacity and ensure effective operation of the reservoir.
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Autorzy i Afiliacje

Felia Gusma
1
Azmeri Azmeri
1
ORCID: ORCID
Faris Z. Jemi
2
ORCID: ORCID
Hafnati Rahmatan
3
ORCID: ORCID

  1. Universitas Syiah Kuala, Engineering Faculty, Civil Engineering Department, Syech Abdur-Rauf No. 7 Darussalam, 23111, Banda Aceh, Indonesia
  2. Universitas Syiah Kuala, Engineering Faculty, Electrical Engineering Department, Banda Aceh, Indonesia
  3. Universitas Syiah Kuala, Faculty of Education and Teacher Training, Biology Department, Banda Aceh, Indonesia

Abstrakt

The study was carried out to assess ecological risks at the closed landfill in Cai Dau town, Chau Phu district, An Giang province. Soil samples were collected at six locations (S1–S6) at depths of 0–20 cm and 60–80 cm in the rainy season (November 2020) and dry season (March 2021). The soil quality was evaluated using eight heavy metals (Mn, Fe, Cu, Zn, Ni, Pb, Cr and As). The results showed that most monitoring sites had heavy metal contents within the allowable limits for agricultural land of QCVN 03-MT:2015/BTNMT. Some heavy metals have been found to migrate to the soil layer of 60–80 cm. The heavy metals accumulation ( Igeo) in the two soil layers did not differ; Ni, Cr, Pb and As accumulated at non-polluting levels – moderate to high in the rainy season, while Cr and As only accumulated in the dry season. The composite pollution index ( PLI) indicated that the locations around the landfill were polluted; however, the ecological risk ranged from low to moderate (potential ecological risk index ( PERI) = 102–195) in the rainy season. Only about 50% of study sites during the dry season were contaminated and the risk was low ( PERI = 44– 68). However, the area around the landfill always poses potential risks due to the presence of heavy metals, including Ni, Cr, As and Pb. Monitoring the heavy metals in the surrounding landfill for the potential risks to human health and environment is needed.
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Autorzy i Afiliacje

Giao T. Nguyen
1
Nhien T.H. Huynh
1

  1. Can Tho University, College of Environment and Natural Resources, Department of Environmental Management, 3-2 Street, Xuan Khanh Ward, Ninh Kieu District, 900000, Can Tho City, Vietnam

Abstrakt

The study area is located in the North-Eastern part of the Nile Delta, northern of Ismailia canal and western Suez Canal. It comprises an area of about 3,058.8 km2 (728,285.38 feddans). This work aims to identify the main physiographic units and its features, as well as emphasise the importance of combining soil taxonomy (2014) and WRB classification (2022) systems.
Two main physiographic units were distinguished in the study area according to the previous studies, interpretation of satellite image and digital elevation model (DEM) as well as field observations; the first consists of fluvio-marine flats and the second river terraces which include the fluvial and deltaic origin.
According to field morphological descriptions as well as chemical and physical analyses, representative profiles are classified by using both Soil Taxonomy and WRB systems. The current study is the third manuscript to emphasise the importance of using both systems together in order to obtain maximum possible characteristics of the earth. Below are examples that illustrate this importance.
Soils of profile No. 4 which represent the fluvio-marine soils are classified according to soil taxonomy as follows: Typical Haplosalids, fine silty, mixed, thermic.
While these soils are classified according to WRB as follows: Fluvic Sodic Solonchaks (Siltic/Loamy/Clayic, Chloridic, Evapocrustic, Ochric, Hypersalic).
Soils of gypsiferous which represent soils of profile No. 6 are classified according to Soil Taxonomy as: Gypsic Aquisalids, loamy over sandy, mixed, thermic, whereas the application of the WRB system reveals the following: Fluvic Calcic Gypsic Sodic Gleyic Solonchaks (Loamic, Chloridic, Hypersalic).
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Autorzy i Afiliacje

Adel M.A. Zayed
1
ORCID: ORCID
Mamdouh K. Abdel Ghaffar
1
ORCID: ORCID
Faiza S. Ali
1
ORCID: ORCID
Esmail H. Ewida
1
ORCID: ORCID

  1. Agricultural Research Center, Soils, Water and Environment Research Institute, 9 El-Gammah St, P.O. Box 175 El-Orman, Giza, Egypt

Abstrakt

Lakes can be restored by the aeration method with the use of wind driven pulverising aerators. The method allows for moderate oxygenation of hypolimnion waters and it may be part of an integrated surface waters restoration system. The paper attempts to use the author’s method of maximum wind speeds to assess the volumetric flow of water through the aerator pulverisation mechanism. The study was conducted in 2018 in windy conditions of Lake Swarzędzkie. The introduction to the paper includes the characteristic of the lake and discusses the construction and operation of the wind driven pulverising aerator. Based on the maximum wind speed model, the theoretical capacity of the machine was calculated, which in the conditions of Lake Swarzędzkie was less than 111,500 m3 per year. Based on maximum wind speeds, the method of assessing the efficiency of the wind driven pulverising aerator is suitable for determining the volumetric flow rate of the pulverisation unit. This can significantly facilitate the planning of water reservoir restoration.
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Autorzy i Afiliacje

Andrzej Osuch
1
ORCID: ORCID
Ewa Osuch
1
ORCID: ORCID
Piotr Rybacki
2
ORCID: ORCID
Marcin Herkowiak
3
ORCID: ORCID
Emilia Osuch
4

  1. Poznań University of Life Sciences, Department of Biosystems Engineering, 50 Wojska Polskiego St., 60-637 Poznań, Poland
  2. Poznań University of Life Sciences, Department of Agronomy, Poznań, Poland
  3. Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  4. Vocational School Complex No 6, names Joachim Lelewel in Poznań, Poland

Abstrakt

On the basis of the obtained expeditionary data, the authors performed a comprehensive analysis of the ecosystems’ modern transformation in the studied area. In the course of the analysis, the authors found that at the present stage there have been quantitative changes (depletion of natural resources) in used landscapes, along with them, there are changes in qualitative characteristics (accumulation of resources). Now, against the background of vegetation and soil degradation, ways of their restoration are observed. New combinations of degraded and self-recovering ecosystems have emerged. Based on the analysis of the current state of different ecological systems and their relationships, the authors determined the possibilities of the dynamics of their combinations functioning by stages. This will make it possible to give a more reliable forecast of the ongoing processes in the ecosystems of the Republic of Kazakhstan.
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Autorzy i Afiliacje

Tilepbergen Ryspekov
1
ORCID: ORCID
Marzhan Balkozha
2
ORCID: ORCID

  1. Kazakh National Agrarian Research University, Faculty of Agrobiology, Almaty, Kazakhstan
  2. Kazakh National Agrarian Research University, Faculty of Water, Land and Forest Resources, 8 Abai Ave, 050010, Almaty, Kazakhstan

Abstrakt

In this study, the removal of imidacloprid (IMD) pesticide onto activated carbon produced from nut shells of hazelnut (HAC), and walnut (WAC) has been investigated. The prepared activated carbons were characterised by total carbon, nitrogen and hydrogen content, surface areas and pore volume. Fourier-transform infrared (FTIR), and scanning electron microscopy (SEM) were studied before and after adsorption experiments. Effects of adsorbent dose (0.02–0.2 g), contact time (10–120 min), initial imidacloprid concentration (10–100 mg∙dm –3), and pH (1–8), and temperatures (25–50°C) on the removal of IMD pesticide by HAC and WAC in the batch mode were studied. The removal percentage of imidacloprid pesticide by HAC and WAC was 93.79% and 94.72%, respectively. The study showed that the pseudo-second-order kinetics model fitted well for both activated carbons. Moreover, adsorption isotherm results were evaluated using Freundlich, Langmuir and Temkin isotherm models. The adsorption results correlated well with the Langmuir isotherm model ( R2 = 0.987 and 0.964) with maximum adsorption capacities of 76.923 and 83.333 mg∙g –1 for HAC and WAC, respectively, and an equilibrium time within 120 min. The nature of the adsorption of imidacloprid pesticide onto HAC and WAC is exothermic, spontaneous and physical in nature. The two prepared activated carbons (HAC, WAC) were successfully regenerated for three cycles and could be used as an effective and low-cost adsorbent for the removal of IMD pesticide from aqueous solutions. The production of the activated carbons of HAC and WAC will provide minimisation of these wastes in the environment.
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Autorzy i Afiliacje

Somaia Gaber Mohammad
1
ORCID: ORCID
Ahmed A. El-Refaey
2

  1. Agricultural Research Center, Central Agricultural Pesticides Laboratory, Pesticide Residues and Environmental Pollution Department, 12618, Dokki, Giza, Egypt
  2. Matrouh University, Faculty of Desert and Environmental Agriculture, Soil and Water Science Department, Matrouh, Egypt

Abstrakt

The paper discusses the current prognoses of aquaculture development worldwide putting an emphasis on its effect on the environment and the issue of the protection of water reservoirs in different countries. Water consumption in diversified aquaculture systems is presented herein as well as the characteristics of the mechanical and biological water treatment methods in fish farms, with particular attention paid to the recirculating water systems. New aquaculture technologies using post-production waters are presented. The paper provides a discussion on the contribution of aquaculture to the global greenhouse gas emissions and the means of limiting this emission. The effect of climate change on aquatic ecosystems is presented in the context of the changes of the aquaculture production profile. The paper includes a brief presentation of the methods of mitigating the changes with respect to contamination of aquatic ecosystems as well as climate change. Reducing the water footprint can be achieved through selective breeding, species diversification and implementation of more technologically advanced aquaculture systems such as: integrated multi-trophic aquaculture, aquaponics and recirculation systems in aquaculture. The need for certification of fish farms with water recirculation systems is justified in the paper. The issues addressed herein are summarised and the main areas for extending the research promoting preservation of aquatic ecosystems in aquaculture are presented.
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Autorzy i Afiliacje

Jacek Wróbel
1
ORCID: ORCID
Małgorzata Gałczyńska
1
ORCID: ORCID
Adam Tański
2
ORCID: ORCID
Agata Korzelecka-Orkisz
2
ORCID: ORCID
Krzysztof Formicki
2
ORCID: ORCID

  1. West Pomeranian University of Technology, Faculty of Environmental Management and Agriculture, Department of Bioengineering, Juliusza Słowackiego St, 17, 71-434 Szczecin, Poland
  2. West Pomeranian University of Technology, Department of Hydrobiology, Ichthyology and Biotechnology of Reproduction, Szczecin, Poland

Instrukcja dla autorów

Authors should submit manuscripts via the Editorial Board ( Editorial system - Submit Your Manuscript )


- Basic Instruction
- Detailed Instruction
- Harvard Referencing Style

Template
Use the article template to format your article - TEMPLATE.pdf or TEMPLATE.docx


Plagiarism detection
The editorial board is using iThenticate plagiarism software for the initial plagiarism detection but still if later on any article is found to be plagiarized then appropriate action will be taken as per our ethical policy and that article might get retracted. Overall similarity index of the manuscript should not be more than 15% for research articles and 20% for review articles with a limitation of less than 3% similarity from any individual source.

Due to the current situation, the Journal of Water and Land Development has suspended scientific cooperation with Russian and Belarusian institutions as of February 24, 2022. Unfortunately, manuscripts from these countries will not be accepted for publication in our journal until further notice.


Payment fee:

For Authors from outside Poland:
500€ including 23% VAT*
(Original papers should not exceed 12 pages including text, figures and tables (A4, font: Times New Roman, 12 pts., line spacing: 1.5, normal margins. If the volume exceeds 12 pages, an additional fee in proportion to the excess will be charged).
*Bank transfer should be done as OUR (The transfer fees are expected to be paid before you initiate the transfer. This means the transfer amount is expected to be delivered in full to the beneficiary).

For Authors from Poland:
2250 PLN + 23% VAT (Prace oryginalne nie powinny przekraczać 12 stron tekstu łącznie z rycinami i tekstem (A4, czcionka: Times New Roman, 12 pkt., interlinia: 1,5, marginesy normalne. Za objętość przekraczającą 12 stron będzie dodatkowo doliczona opłata proporcjonalnie do
przekroczenia. Podczas dokonania przelewu bankowego proszę zaznaczać, że autor pokrywa koszty związane z tym przelewem).
Bank account (international bank details):

Name:
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National Research Institute

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Zasady etyki publikacyjnej


ETHICAL PRINCIPLES
Editors of the "Journal of Water and Land Development" pay attention to maintain ethical standards in scientific publications and undertake any possible measure to counteract neglecting the standards. Papers submitted for publication are evaluated with respect to reliability, conforming to ethical standards and the advancement of science. Principles given below are based on COPE's Best Practice Guidelines for Journal Editors, which may be found at: https://publicationethics.org/files/u2/Best_Practice.pdf


Authors’ duties

Authorship

Authorship should be limited to persons, who markedly contributed to the idea, project, realization and interpretation of results. All of them have to be listed as co-authors. Other persons, who affected some important parts of the study should be listed or mentioned as co-workers. Author should be certain that all co-authors were enlisted, saw and accepted final version of the paper and agreed upon its publication.


Disclosure and conflict of interests

Author should disclose all sources of financing of his/her study, the input of scientific institutions, associations and other subjects and all important conflicts of interests that might affect results and interpretation of the study.


Standards in reporting

Authors of papers based on original studies should present precise description of performed work and objective discussion on its importance. Source data should be accurately presented in the paper. The paper should contain detailed information and references that would enable others to use it. False or intentionally not true declarations are not ethical and are not accepted by the editors.


Access to and storage of data
Authors may be asked for providing raw data used in the paper for editorial assessment and should be prepared to store them within the reasonable time period after publication.


Multiple, unnecessary and competitive publications
As a rule, author should not publish papers describing the same studies in more than one journal or primary publication. Submission of the same paper to more than one journal at the same time is not ethical and prohibited.


Confirmation of sources
Author should cite papers that affected the creation of submitted manuscript and every time he/she should confirm the use of other authors’ work.


Important errors in published papers
When author finds an important error or inaccuracy in his/her paper, he/she is obliged to inform Editorial Office about this as soon as possible.


Originality and plagiarism
Author may submit only original papers. He/she should be certain that the names of authors referred to in the paper and/or fragments of their texts are properly cited or mentioned.


Ghostwriting
Ghost writing/guest authorship are manifestation of scientific unreliability and all such cases will be revealed including notification of appropriate subjects. Signs of scientific unreliability, especially violation of ethical principles in science will be documented by the Editorial Office.


Duties of the Editorial Office


Editors’ duties
Editors know the rules of journal editing including the procedures applied in case of uncovering non-ethical practices.


Decisions on publication
Editor-in Chief is obliged to apply present legal status as to defamation, violation of author’s rights and plagiarism and bears the responsibility for decisions. He/she may consult thematic editors and/or referees in that matter.
Selection of referees Editorial Office provides appropriate selection of referees and takes care about appropriate course of peer –reviewing (the review has to be substantive).


Confidentiality
Every member of editorial team is not allowed to disclose information about submitted paper to any person except its author, referees, other advisors and editors.


Discrimination
To counteract discrimination the Editorial Office obeys the legally binding rules.


Disclosure and conflict of interests
Not published papers or their fragments cannot be used in the studies of editorial team or referees without written consent of the author.


Referees' duties

Editorial decisions

Referee supports Editor-in-Chief in taking editorial decisions and may also support author in improving the paper.


Back information
In case a selected referee is not able to review the paper or cannot do it in due time period, he/she should inform secretary of the Editorial Office about this fact.


Objectivity standards
Reviews should be objective. Personal criticism is inappropriate. Referees should clearly ex-press their opinions and support them with proper arguments.


Confidentiality
All reviewed papers should be dealt with as confidential. They should not be discussed or revealed to persons other than the secretary of the Editorial Office.


Anonymity
All reviews should be made anonymously and the Editorial Office does not disclose names of the authors to referees.


Disclosure and conflict of interests
Confidential information or ideas resulting from reviewing procedure should be kept secret and should not be used to gain personal benefits. Referees should not review papers, which might generate conflict of interests resulting from relationships with the author, firm or institution involved in the study.


Confirmation of sources
Referees should indicate publications which are not referred to in the paper. Any statement that the observation, source or argument was described previously should be supported by appropriate citation. Referee should also inform the secretary of the Editorial Office about significant similarity to or partial overlapping of the reviewed paper with any other published paper and about suspected plagiarism.


Corrections, retractions and updates after publication


Sometimes after an article has been published it may be necessary to make a change. This will be done after careful consideration by Editors to ensure any necessary changes are made in accordance with guidance from the Committee on Publication Ethics (COPE):
https://publicationethics.org/postpublication


Retraction is executed in accordance with the procedure presented by the European Association of Science Editors (EASE): https://ease.org.uk/wp-content/uploads/2022/08/EASE-Standard-Retraction-Form-2022.pdf


Complaints and appeals


A complaint may arise over the conduct of editors and/or peer reviewers. Some possible reasons for complaints are:
- intentional delay of reviewing process,
- undisclosed conflicts of interest,
- breach of confidentiality,
- misuse of confidential information,
- practical issues, such as unresponsive journal staff.


An appeal is a formal request to reconsider a decision taken by the journal. It might be related to decisions in regular journal operation (e.g. a manuscript being rejected) or to a verdict taken by a team investigating a particular situation (e.g. a published manuscript being retracted due to suspected data manipulation).


The authors submit a formal complaint/appeal to the journal principal contact by email or post ( journal@itp.edu.pl). Within a week, the journal will form an investigation group consisting of at least three Editorial Team members (not previously involved in handling the manuscript in question) and report back their names and how they can be contacted.


The actual investigation time may vary depending on the complexity of the case. The investigation team provides fair opportunities to all parties involved to explain their motives and actions. The purpose of the investigation is to establish whether misconduct took place (as reported or in the light of new circumstances discovered), whether it was performed deliberately or as a genuine mistake, and to estimate the scale of its negative consequences.


Based on the facts collected, the investigation team decides on the corrective actions to be taken as well as whether some penalty is to be applied to the person who performed the misconduct. Depending on the misconduct severity, the penalty may range from a reprimand to an expulsion from the reviewer pool/editorial board and a report being sent to the institution to which the person in question is affiliated.


The authors are informed about the investigation outcome upon its completion.


In its work, the investigation group relies on the recommendations and guidelines provided by Committee on Publication Ethics (COPE): https://publicationethics.org/appeals


In complex cases, an external ethical advisor might be called for.


Guidance from COPE ( https://publicationethics.org/ ):

Ethical guidelines for peer reviewers (English)
DOI: https://doi.org/10.24318/cope.2019.1.9


Sharing of information among editors-in-chief regarding possible misconduct
DOI: https://doi.org/10.24318/cope.2019.1.7


How to handle authorship disputes: a guide for new researchers
DOI: https://doi.org/10.24318/cope.2018.1.1


Text recycling guidelines for editors
URL: http://publicationethics.org/text-recycling-guidelines


A short guide to ethical editing for new editors
DOI: https://doi.org/10.24318/cope.2019.1.8

Guidelines for managing the relationships between society owned journals, their society, and publishers
DOI: https://doi.org/10.24318/cope.2018.1.2


Retraction guidelines
DOI: https://doi.org/10.24318/cope.2019.1.4

Procedura recenzowania

Reviewing procedure

Procedure of reviewing submitted papers agrees with recommendations of the Ministry of Science and Higher Education published in a booklet: „Dobre praktyki w procedurach recenzyjnych w nauce”.

Reviewing form may be downloaded from the Journal’s web page.

1. Papers submitted to the Editorial Office are primarily verified by editors with respect to merit and formal issues. Texts with obvious errors (formatting other than requested, missing references, evidently low scientific quality) will be rejected at this stage.

2. Primarily accepted papers are sent to the two independent referees from outside the author’s institution, who:

- have no conflict of interests with the author,
- are not in professional relationships with the author,
- are competent in a given discipline and have at least doctor’s degree and respective scientific achievements,
- have unblemished reputation as reviewers.

3. In case of papers written in foreign language, at least one referee is affiliated in a foreign institution other than the author’s nationality.

4. Reviewing proceeds in the double blind process (authors and reviewers do not know each other’s names) recommended by the Ministry.

5. A number is attributed to the paper to identify it in further stages of editorial procedure.

6. Potential referee obtains summary of the text and it is his/her decision upon accepting/rejecting the paper for review within a given time period.

7. Referees are obliged to keep opinions about the paper confidential and to not use knowledge about it before publication.

8. Review must have a written form and end up with an explicit conclusion about accepting or rejecting the paper from publication. Referee has a possibility to conclude his/her opinion in a form:

- accept without revision;
- accept with minor revision;
- accept after major revision,
- re-submission and further reviewing after complete re-arrangement of the paper,
- reject.

9. Referee sends the review to the “Journal of Water and Land Development” by Editorial System. The review is archived there for 5 years.

10. Editors do not accept reviews, which do not conform to merit and formal rules of scientific reviewing like short positive or negative remarks not supported by a close scrutiny or definitely critical reviews with positive final conclusion and vice versa. Referee’s remarks are presented to the author. Rational and motivated conclusions are obligatory for the author. He/she has to consider all remarks and revise the text accordingly. Referee has the right to verify so revised text.

11. Author of the text has the right to comment referee’s conclusions in case he/she does not agree with them.

12. Editor-in Chief (supported by members of the Editorial Board) decides upon publication based on remarks and conclusions presented by referees, author’s comments and the final version of the manuscript.

13. Rules of acceptation or rejection of the paper and the review form are available at the web page of the Editorial House or the journal.

14. Present list of cooperating reviewers is published once a year.

15. According to usual habit, reviewing is free of charge.

16. Papers rejected by referees are archived by Editorial System.

Download:
Review Sheet


Recenzenci

Journal of Water and Land Development List of reviewers 2023

  • Assoc. Prof. Salman Dawood Ammar University of Basrah, College of Engineering, Civil Engineering Department, Basrah, Iraq
  • Prof. Jacek Antonkiewicz University of Agriculture in Krakow, Department of Agricultural and Environmental Chemistry, Poland
  • Dr. Ozan Artun Cukurova University in Adana, Department of Architecture and Urban Planning, Turkey
  • Assoc. Prof. Habib-ur-Rehman Athar Bahauddin Zakariya University, Institute of Pure and Applied Biology, Multan, Pakistan
  • Prof. Meryem Atik Akdeniz University, Faculty of Architecture, Department of Landscape Architecture, Antalya,Turkey
  • Prof. Atilgan Atilgan Alanya Alaaddin Keykubat University, Antalya, Turkey
  • Prof. Doru Bănăduc Lucian Blaga University of Sibiu, Faculty of Sciences, Romania
  • Dr. José Miguel Barrios Royal Meteorological Institute of Belgium, Brussels, Belgium
  • Dr. Anna Baryła Warsaw University of Life Sciences – SGGW, Faculty of Civil and Environmental Engineering, Poland
  • Prof. Arjan Beqiraj Polytechnic University of Tirana, Faculty of Geology and Mining, Earth Sciences Departament, Albania
  • Dr. Małgorzata Biniak-Pieróg Wrocław University of Environmental and Life Sciences, Institute of Environmental Development and Protection, Poland
  • Prof. M. Bisri Bisri University Brawijaya, Indonesia
  • Assoc. Prof. Małgorzata Bonisławska West Pomeranian University of Technology in Szczecin, Faculty of Civil and Environmental Engineering, Poland
  • Dr. Barbara Borawska-Jarmułowicz Warsaw University of Life Sciences – SGGW, Department of Agronomy, Poland
  • Dr. Łukasz Borek University of Agriculture in Krakow, Department of Land Reclamation and Environmental Development, Poland
  • Prof. Marian Brzozowski Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Filip Bujakowski Warsaw University of Life Sciences – SGGW, Poland
  • Assoc. Prof. Irena Burzyńska Forest Research Institute, Laboratory of Natural Environment Chemistry, Sękocin Stary, Poland
  • Prof. Tzu-Chia Chen Krirk University, International College, Bangkok, Thailand
  • Master Grzegorz Chrobak Wrocław University of Environmental and Life Sciences, Institute of Spatial Management, Department of Environmental Protection and Development, Poland
  • Dr. Wojciech Ciężkowski Warsaw University of Life Sciences – SGGW, Department of Remote Sensing and Environmental Assessment, Poland
  • Dr. Agnieszka Cupak University of Agriculture in Krakow, Faculty of Environmental Engineering and Land Surveying, Poland
  • Dr. Isa Curebal Balikesir University, Istanbul, Turkey
  • Dr. Wojciech Czekała Poznan University of Life Sciences, Poland
  • Assoc. Prof. Przemysław Czerniejewski Westpomeranian University of Technology in Szczecin, Department of Fisheries Management, Poland
  • Dr. Ewa Dacewicz University of Agriculture in Krakow, Faculty of Environmental Engineering and Land Surveying, Department of Sanitary Engineering and Water Management, Poland
  • Dr. Ralf Dannowski Leibniz Centre for Agricultural Land Use Research, Institute of Landscape Hydrology (retired since 2015), Müncheberg, Germany
  • Dr. Jarosław Dąbrowski Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Assoc. Prof. Piotr Dąbrowski Warsaw University of Life Sciences – SGGW, Department of Environmental Management, Poland
  • Prof. Piotr Dąbrowski Institute of Environmental Engineering, Warsaw University of Life Sciences – SGGW, Warsaw, Poland
  • Dr. Agnieszka Dąbska Warsaw University of Technology, Faculty of Building Services, Hydro and Environmental Engineering, Poland
  • Dr. Oussama Derdous Kasdi Merbah University, Department of Civil and Hydraulic Engineering, Ouargla, Algeria
  • Prof. Sina Dobaradaran Bushehr University of Medical Sciences, Systems Environmental Health and Energy Research Center, The Persian Gulf Biomedical Sciences Research Institute, Bushehr, Iran
  • Dr. Mariusz Dudziak Silesian University of Technology, Institute of Water and Wastewater Engineering, Poland
  • Dr. Helmut Durrast Prince of Songkla University, Thailand
  • Dr. Tomasz Dysarz Poznań University of Life Sciences, Department of Hydraulic and Sanitary Engineering, Poland
  • Prof. Nabil Elshery Tanta University, Faculty of Agriculture, Agriculture and Botany Department, Egypt
  • Prof. Evens Emmanuel Université Quisqueya, Haut Turgeau, Haiti
  • Prof. Andrzej Eymontt Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Dr. Paweł Falaciński Warsaw University of Technology, Department of Hydro-Engineering and Hydraulics, Poland
  • Faculty of Building Services, Hydro- and Environmental Engineering, Poland
  • Prof. Ewa Falkowska Warsaw University, Faculty of Geology, Poland
  • Dr. Tomasz Falkowski Warsaw University of Life Sciences, Faculty of Civil and Environmental Engineering, Poland
  • Dr. Stanisław Famielec University of Agriculture in Krakow, Poland
  • Dr. Francesco Faraone Cooperativa Silene, Palermo, Italy
  • Assoc. Prof. Marcin Feltynowski University of Lodz, Institute of Urban and Regional Studies and Planning, Poland
  • Assoc. Prof. Romilda Fernandez Felisbino Federal University of São Paulo, Brazil
  • Assoc. Prof. Barbara Futa University of Life Sciences in Lublin, Faculty of Agrobioengineering, Institute of Soil Science, Environment Engineering and Management, Poland
  • Prof. John Galbraith Virginia Tech, Blacksburg, United States
  • Assoc. Prof. Marwan Ghanem Birzeit University, Department of Geography, Palestine
  • Dr. Andrzej Giza University of Szczecin, Institute of Marine and Environmental Sciences, Poland
  • Dr. Maciej Gliniak University of Agriculture in Krakow, Faculty of Production and Power Engineering, Department of Bioprocess Engineering, Power Engineering and Automation, Poland
  • Dr. Arkadiusz Głogowski Wrocław University of Environmental and Life Sciences, Department of Environmental Protection and Development, Poland
  • Dr. Januarius Gobilik Universiti Malaysia Sabah (UMS), Faculty of Sustainable Agriculture, Kota Kinabalu, Malaysia
  • Prof. Renata Graf Adam Mickiewicz University, Department of Hydrology and Water Management, Institute of Physical Geography and Environmental, Poznań, Poland
  • Prof. Andrzej Greinert University of Zielona Gora, Institute of Environmental Engineering, Department of Geoengineering and Reclamation, Poland
  • Dr. Leon Grubišić Institute of Oceanography and Fisheries, Laboratory for Aquaculture, Laboratory of Aquaculture, Split, Croatia
  • Dr. Łukasz Gruss Wrocław University of Environmental and Life Sciences, Faculty of Environmental Engineering and Geodesy, Poland
  • Dr. Maciej Gruszczyński Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland
  • Assoc. Prof. Antoni Grzywna University of Live Sciences in Lublin, Department of Environmental Engineering and Geodesy, Poland
  • Dr. Andrej Halabuk Institute of Landscape Ecology, Bratislava, Slovak Republic
  • Master Wiktor Halecki Polish Academy of Sciences, Institute of Nature Conservation PAS, Kraków, Poland
  • Assoc. Prof. Mateusz Hammerling Poznań University of Life Sciences, Department of Hydraulic and Sanitary Engineering, Poland
  • Dr. donny harisuseno University of Brawijaya, Indonesia
  • Dr. Sigid Hariyadi IPB University, Bogor, Indonesia
  • Prof. Salim Heddam 20 Août 1955 University, Agronomy Department, Hydraulic Division, Skikda, Algeria
  • Dr. Leszek Hejduk Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Yevheniy Herasimov National University of Water and Environmental Engineering, Research Department, Rivne, Ukraine
  • Dr. Jakub Hołaj-Krzak Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Dr. Tomasz Horaczek Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Prof. Lyudmyla Hranovska Institute of Climate – Smart Agriculture of NAAS, Department of Irrigated Agriculture and Decarbonization Agroecosystems, Odesa, Ukraine
  • Dr. Věra Hubačíková Mendel University in Brno, Department of Applied and Landscape Ecology, Czech Republic
  • Prof. Piotr Hulisz Nicolaus Copernicus University in Toruń, Faculty of Earth Sciences, Department of Soil Science and Landscape Management, Poland
  • Assoc. Prof. Aniza Ibrahim Universiti Pertahanan Nasional Malaysia, Kuala Lumpur, Malaysia
  • Master Svetlana Ilić Institute for Protection and Ecology of Republic of Srpska, Banja Luka, Bosnia and Herzegovina
  • Dr. Gabriela Ioana-Toroimac University of Bucharest, Faculty of Geography, Romania
  • Dr. Eva Ivanišová Ivanišová Slovac Agricultural University in Nitra, Department of Technology and Quality of Plant Products, Slovak Republic
  • Dr. Mateusz Jakubiak AGH University of Science and Technology, Department of Environmental Management and Protection, Kraków, Poland
  • Dr. Michał Jankowski Faculty of Earth Sciences and Spatial Management, Department of Soil Science and Landscape Management, Nicolaus Copernicus University in Toruń, Poland
  • Assoc. Prof. Bartosz Jawecki Wrocław University of Environmental and Life Sciences, Department of Landscape Architecture, Poland
  • Assoc. Prof. Raimundo Jiménez-Ballesta Universidad Autónoma de Madrid, Department of Geology and Geochemistry, Spain
  • Prof. Krzysztof Jóżwiakowski University of Life Sciences in Lublin, Department of Environmental Engineering and Geodesy, Poland
  • Dr. Carmelo Juez Universidad de Zaragoza, Instituto Pirenaico de Ecología, Consejo Superior de Investigaciones Científicas (IPE-CSIC), Spain
  • Dr. Marta Jurga Wroclaw University of Environmental and Life Sciences, Department of Plant Protection, Poland
  • Prof. Edmund Kaca Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Grzegorz Kaczor University of Agriculture in Krakow, Department of Sanitary Engineering and Water Management, Poland
  • Prof. Hazem M. Kalaji Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Marek Kalenik Warsaw University of Life Sciences – SGGW, Faculty of Civil and Environmental Engineering, Department of Hydraulics and Sanitary Engineering, Institute of Environmental Engineering, Poland
  • Assoc. Prof. Tomasz Kałuża Poznań University of Life Sciences, Department of Hydraulic and Sanitary Engineering, Poznań, Poland
  • Dr. Andrzej Kapusta Inland Fisheries Institute in Olsztyn, Department of Ichthyology, Hydrobiology and Aquatic Ecology, Poland
  • Prof. Vasyl Karabyn Lviv State University of Life Safety, Ukraine
  • Dr. Beata Karolinczak Warsaw University of Technology, Poland
  • Assoc. Prof. Robert Kasperek Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland
  • Dr. Wiesława Kasperska-Wołowicz Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Dr. Ewa Kaznowska Warsaw University of Life Sciences – SGGW, Poland
  • Prof. Nahed Khairy Agricultural Engineering Research Institute, Agriculture Research Center, Giza, Egypt
  • Dr. Eyad Khalaf Science & Technology Center of Excellence, Cairo, Egypt
  • Dr. Adam Kiczko Warsaw University of Life Sciences – SGGW, Poland
  • Prof. Sungwon Kim Dongyang University, Department of Railroad Construction and Safety Engineering, Korea (South)
  • Assoc. Prof. Tomasz Klaiber Poznań University of Life Sciences, Faculty of Agriculture, Horticulture and Bioengineering, Poland
  • Prof. Zbigniew Kledyński Warsaw University of Technology, Poland
  • Dr. Tomasz Kleiber Poznań University of Life Sciences, Department of Plant Nutrition, Poland
  • Dr. Kamila Klimek University of Life Sciences in Lublin, Department of Mathematical Statistics, Poland
  • Prof. Oleksandr Klimenko National University of Water and Environmental Engineering, Rivne, Ukraine
  • Dr. Anna Kocira Institute of Agricultural Sciences, The State School of Higher Education in Chełm, Poland
  • Prof. Marek Kopacz AGH University of Science and Technology, Faculty of Mining Surveying and Environmental Engineering, Poland
  • Assoc. Prof. Radovan Kopp Mendel University in Brno, Department of Zoology, Fisheries, Hydrobiology and Apiculture, Czech Republic
  • Dr. Tomasz Kotowski University of Agriculture in Krakow, Poland
  • Prof. Viktor Kovalchuk National University of Water and Environmental Engineering, Rivne, Ukraine
  • Prof. Pyotr Kovalenko Institute of Water Problems and Melioration of the National Academy of Agrarian Sciences of Ukraine, Kyiv, Ukraine
  • Dr. Agnieszka Kowalczyk Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Assoc. Prof. Tomasz Kowalczyk Wroclaw University of Environmental and Life Sciences, Poland
  • Dr. Anna Krakowiak-Bal University of Agriculture in Krakow, Poland
  • Prof. Leszek Książek University of Agriculture in Krakow, Poland
  • Prof. Maciej Kubon University of Agriculture in Krakow, Poland
  • Prof. Lech Kufel Siedlce University, Poland
  • Dr. Jerzy Kupiec Poznan University of Life Science, Poland
  • Dr. Karolina Kurek University of Agriculture in Krakow, Poland
  • Dr. Alban Kuriqi Universidade de Lisboa, Instituto Superior Técnico, Portugal
  • Dr. Renata Kuśmierek-Tomaszewska Bydgoszcz University of Science and Technology, Faculty of Agriculture and Biotechnology, Department of Agrometeorology, Plant Irrigation and Horticulture, Poland
  • Dr. Stanisław Lach AGH University of Science and Technology, Faculty of Mining Surveying and Environmental Engineering, Department of Environmental Management and Protection, Poland
  • Prof. Lenka Lackóová Slovak University of Agriculture in Nitra, Department of Landscape Planning and Ground Design, Slovak Republic
  • Prof. Zoubida Laghrari Moulay Ismaïl University, Meknes, Morocco
  • Dr. Fares Laouacheria Badji-Mokhtar Annaba University, Laboratory of Soils and Hydraulic, Annaba, Algeria
  • Prof. Krzysztof Lejcuś Wroclaw University of Environmental and Life Sciences, Poland
  • Assoc. Prof. Sławomir Ligęza University of Life Sciences in Lublin, Institute of Soil Science and Environment Shaping, Poland
  • Dr. Marta Lisiak-Zielińska Poznan University of Life Sciences, Poland
  • Dr. Mirko Liuzzo Università Ca' Foscari Venezia, Italy
  • Prof. Svjetlana Lolić University of Banja Luka, Bosnia and Herzegovina
  • Assoc. Prof. Ramin Lotfi Dryland Agricultural Research Institute, Maragheh, Iran
  • Assoc. Prof. Yufeng Luo Hohai University, College of Water Conservancy and Hydropower Engineering, Nanjing, China
  • Prof. Andrzej Łachacz University of Warmia and Mazury in Olsztyn, Faculty of Agriculture and Forestry, Department of Soil Science and Microbiology, Poland
  • Dr. Jamal Mabrouki Mohammed V University in Rabat, Faculty of Science, Morocco
  • Dr. Nenad Malić EFT – Rudnik i Termoelektrana Stanari d.o.o., Stanari, Bosnia and Herzegovina
  • Assoc. Prof. Mateusz Malinowski University of Agriculture in Krakow, Faculty of Production and Power Engineering, Poland
  • Dr. Paweł Marcinkowski Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Michał Marzec University of Life Sciences in Lublin, Department of Environmental Engineering and Geodesy, Poland
  • Dr. Grażyna Mastalerczuk Warsaw University of Life Sciences – SGGW, Institute of Agriculture, Poland
  • Dr. Agnieszka Mąkosza West Pomeranian University of Technology in Szczecin, Faculty of Environmental Management and Agriculture, Poland
  • Dr. Grzegorz Mikiciuk West Pomeranian University of Technology, Szczecin, Poland
  • Prof. Sarah Milton Florida Atlantic University, Boca Raton, United States
  • Dr. Florentina Mincu National Institute of Hydrology and Water Management, Bucharest, Romania
  • Assoc. Prof. Dariusz Młyński University of Agriculture in Krakow, Poland
  • Dr. Ali Mokhtar Cairo University, Egypt
  • Master Mohamed Moustafa Agricultural Engineering Research Institute (AEnRI), Agricultural Research Center (ARC), Giza, Egypt
  • Assoc. Prof. Karol Mrozik Poznań University of Life Sciences, Poland
  • Prof. Lince Mukkun Nusa Cendana University, Faculty of Agriculture, Kupang, Indonesia
  • Dr. Gianina Necualu University of Bucharest, National Institute of Hydrology and Water Management, Romania
  • Dr. Yantus A.B. Neolaka Nusa Cendana University, Kupang, Indonesia
  • Dr. Arkadiusz Nędzarek West Pomeranian University of Technology, Department of Aquatic Sozology, Szczecin, Poland
  • Dr. Jadwiga Nidzgorska-Lencewicz West Pomeranian University of Technology, Work Group of Climatology and Atmospheric Protection, Szczecin, Poland
  • Assoc. Prof. Alicja Niewiadomska Poznań University of Life Sciences, Department of General and Environmental Microbiology, Poland
  • Prof. Ljiljana Nikolić Bujanović University Union Nikola Tesla, Belgrade, Serbia
  • Dr. Alessandra Nocilla Università degli Studi di Brescia, Italy
  • Prof. Vahid Nourani Tabriz University, Iran
  • Prof. Laftouhi Noureddine Université Cadi Ayyad, Marrakech, Morocco
  • Dr. Elida Novita University of Jember, Department of Agricultural Engineering, Indonesia
  • Dr. Sławomir Obidziński Bialystok University of Technology, Poland
  • Prof. Ryszard Oleszczuk Warsaw University of Life Sciences – SGGW, Poland
  • Prof. Beata Olszewska Wrocław University of Environmental and Life Sciences, Poland
  • Assoc. Prof. Agnieszka Operacz University of Agriculture in Krakow, Faculty of Environmental Engineering and Land Surveying, Department of Sanitary Engineering and Water Management, Poland
  • Dr. Wojciech Orzepowski Wrocław University of Environmental and Life Sciences, Poland
  • Dr. Andreas Pacholski Leuphana University of Luneburg, Institute of Ecology, Luneburg, Germany
  • Dr. Iwona Paśmionka University of Agriculture in Krakow, Department of Microbiology and Biomonitoring, Poland
  • Dr. Juan Patino-Martinez Maio Biodiversity Foundation (FMB), Cidade Porto Ingles, Cape Verde
  • Prof. Katarzyna Pawęska Wrocław University of Environmental and Life Sciences, Poland
  • Dr. Dušica Pešević University of Banja Luka, Faculty of Natural Sciences and Mathematics Department of Ecology and Geography, Bosnia and Herzegovina
  • Assoc. Prof. Slaveya Petrova University of Plovdiv “Paisii Hilendarski”, Faculty of Biology, Department of Ecology and Ecosystem Conservation, Plovdiv, Bulgaria
  • Dr. Agnieszka Petryk Cracow University of Economics, Poland
  • Dr. Decho Phuekphum Suranaree University of Technology,School of Geotechnology, Institute of Engineering, Geological Engineering Program, Thailand
  • Dr. Katarzyna Pietrucha-Urbanik Rzeszow University of Technology, Poland
  • Prof. Dariusz Piwczyński Bydgoszcz University of Science and Technology, Department of Biotechnology and Animal Genetics, Poland
  • Prof. Karol Plesiński University of Agriculture in Krakow, Faculty of Environmental Engineering and Land Surveying, Poland
  • Prof. Joanna Podlasińska West Pomeranian University of Technology in Szczecin, Poland
  • Prof. Cezary Podsiadło West Pomeranian University of Technology in Szczecin, Department of Agriculture, Poland
  • Assoc. Prof. Zbigniew Popek Warsaw University of Life Sciences – SGGW, Faculty of Civil and Environmental Engineering, Poland
  • Prof. Paweł Popielski Warsaw University of Technology, Poland
  • Prof. Tatjana Popov University of Banja Luka, Faculty of Natural Sciences and Mathematics, Bosnia and Herzegovina
  • Assoc. Prof. Dorota Porowska Warsaw University, Faculty of Geology, Institute of Hydrogeology and Engineering Geology, Poland
  • Dr. Anu Printsmann Tallinn University, Estonia
  • Dr. Grzegorz Przydatek State University of Applied Sciences in Nowy Sącz, Engineering Institute, Poland
  • Dr. Erik Querner Querner Consult, Wageningen, Netherlands
  • Dr. Anizar Rahayu Universitas Sebelas Maret, Surakarta, Indonesia
  • Prof. Anabela Ramalho Durao Instituto Politecnico de Beja, Portugal
  • Assoc. Prof. Maimun Rizalihadi Universitas Syiah Kuala, Banda Aceh, Indonesia
  • Assoc. Prof. Joanna Rodziewicz University of Warmia and Mazury in Olsztyn, Poland
  • Assoc. Prof. Roman Rolbiecki Bydgoszcz University of Science and Technology, Poland
  • Dr. Tomasz Rozbicki Warsaw University of Life Sciences – SGGW, Poland
  • Dr. Michał Rzeszewski Adam Mickiewicz University, Poznań, Poland
  • Dr. Sadeq Salman Universiti Putra Malaysia, Seri Kembangan, Malaysia
  • Assoc. Prof. Abdel-Lateif Abdel-Wahab Samak Menoufia University, Faculty of Agriculture, Agricultural Engineering Department, Shebin El Kom, Egypt
  • Assoc. Prof. Saad Shauket Sammen Diyala University, Iraq
  • Dr. Seddiki Sara University of Science and Technology Oran – Mohamed Boudiaf, Algeria
  • Dr. Veronica Sarateanu Banat's University of Agricultural Sciences and Veterinary Medicine "King Michael I of Romania" from Timisoara, Agriculture Faculty, Romania
  • Dr. Biju Sayed Dhofar University, Salalah, Oman
  • Dr. Magdalena Senze University of Life Sciences in Wrocław, Department of Limnology and Fishery, Poland
  • Dr. Madina Serikova L. N. Gumilyov Eurasian National University, Astana, Kazakhstan
  • Dr. Tamara Shevchenko O.M. Beketov National University of Urban Economy in Kharkiv, Ukraine
  • Prof. Omar Shihab University of Anbar, Iraq
  • Dr. Kuo Shih-Yun Academia Sinica, Taipei City, Taiwan
  • Dr. Mehrdad Shokatian-Beiragh University of Tabriz, Iran
  • Assoc. Prof. Edyta Sierka University of Silesia in Katowice, Poland
  • Prof. Brbara Skowera University of Agriculture in Krakow, Department of Ecology, Climatology and Air Protection, Poland
  • Assoc. Prof. Monika Skowrońska University of Life Sciences in Lublin, Department of Agricultural and Environmental Chemistry, Poland
  • Prof. Joaquín Solana-Gutiérrez Joaquín Solana-Gutiérrez, Universidad Politécnica de Madrid, Spain
  • Dr. Jacek Sosnowski University of Siedlce, Poland
  • Prof. Tomasz Sosulski Warsaw University of Life Sciences – SGGW, Division of Agricultural And Environmental Chemistry, Institut of Agriculture, Poland
  • Assoc. Prof. Waldemar Spychalski Poznań University of Life Sciences, Faculty of Agronomy, Horticulture and Bioengineering, Poland
  • Prof. Ryszard Staniszewski Poznan University of Life Sciences, Department of Ecology and Environmental Protection, Poland
  • Prof. Ryszard Staniszewski Poznan University of Life of Science, Department of Ecology and Environmental Protection, Poland
  • Prof. Matthew Stocker University of Maryland, Department of Environmental Science and Technology, College Park, MD, United States
  • Prof. Ljiljana Stojanović Bjelić Pan-European University “APEIRON”, Banja Luka, Bosnia and Herzegovina
  • Master Sunčica Sukur University of Banja Luka, Department of Chemistry, Bosnia and Herzegovina
  • Prof. Wayan Suparta Menoreh University, Indonesia
  • Dr. Marta Sylla Wrocław University of Environmental and Life Sciences, Institute of Spatial Management, Wrocław University of Environmental and Life Sciences, Poland
  • Prof. Barbara Symanowicz Siedlce University of Natural Sciences and Humanities, Poland
  • Assoc. Prof. Serhiy Syrotyuk Lviv National Agrarian University, Department of Energy, Ukraine
  • Prof. Szilard Szilard Szabo University of Debrecen, Department of Physical Geography and Geoinformation Systems, Hungary
  • Dr. Paulina Śliz Krakow University of Economics, Poland
  • Master Gabriella Tocchi University of Naples Federico II, Department of Structures for Engineering and Architecture, Italy
  • Prof. Serghiy Vambol Kharkiv National Technical University of Agriculture after P. Vasilenko, Ukraine
  • Dr. Irina Vaskina Sumy State University, Department of Applied Ecology, Ukraine
  • Dr. Luca Vecchioni University of Palermo, Department of Biological, Chemical and Pharmaceutical Sciences and Technologies (STEBICEF), Italy
  • Dr. Lorenzo Vergni Università di Perugia, Italy
  • Dr. Grzegorz Wałowski Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Assoc. Prof. Wan Zakiah Wan Ismail Universiti Sains Islam Malaysia, Faculty of Engineering and Built Environment, Nilai, Malaysia
  • Prof. Qiao Wei China Agricultural University, College of Engineering, Beijing, China
  • Prof. Mirosław Wiatkowski Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland
  • Dr. Magdalena Wijata Warsaw University of Life Sciences, Poland
  • Dr. Marta Wojewódka-Przybył Institute of Geological Sciences, Polish Academy of Sciences, Warsaw, Poland
  • Dr. Agnieszka Wolna-Maruwka Poznań Univeristy of Life Sciences, Department of General and Environmental Microbiology, Poland
  • Dr. Barbara Wróbel Institute of Technology and Life Sciences – National Research Institute, Falenty, Poland
  • Assoc. Prof. Bagyo Yanuwiadi Brawijaya University, Postgraduate Program of Environmental Science, Brawijaya University, Indonesia
  • Assoc. Prof. Ewelina Zając University of Agriculture in Krakow, Department of Land Reclamation and Environmental Development, Poland
  • Dr. Francisco Zavala-García Universidad Autónoma de Nuevo León, Facultad de Agronomía, San Nicolás de los Garza, Mexico
  • Prof. Jarosław Zawadzki Warsaw University of Technology, Faculty of Construction, Hydrotechnics and Environmental Engineering, Poland
  • Assoc. Prof. Elżbieta Zębek University of Warmia and Mazury in Olsztyn, Faculty of Law and Administration, Poland
  • Assoc. Prof. Agnieszka Ziernicka-Wojtaszek University of Agriculture in Kraków, Faculty of Environmental Engineering and Land Surveying, Department of Ecology, Climatology and Air Protection, Poland
  • Prof. Deki Zulkarnain Universitas Halu Oleo, Kota Kendari, Indonesia
  • Prof. Krystyna Żuk-Gołaszewska University of Warmia and Mazury in Olsztyn, Poland

Polityka antyplagiatowa


Plagiarism Policy

1. The Editorial Team of the “Journal of Water and Land Development” (JWLD) is strictly against any unethical act of copying or plagiarism in any form. According to Committee on Publication Ethics (COPE) plagiarism is defined as: When somebody presents the work of others (data, words or theories) as if they were his/her own and without proper acknowledgement. Committee on Publication Ethics (COPE). All manuscripts submitted for publication to JWLD are cross-checked for plagiarism using iThenticate/Turnitin software.
2. Plagiarism is the unethical act of copying someone else's prior ideas, processes, results or words without explicit acknowledgement of the original author and source. Self-plagiarism occurs when an author utilises a large part of his/her own previously published work without using appropriate references. This can range from getting the same manuscript published in multiple journals to modifying a previously published manuscript with some new data.
3. Manuscripts found to be plagiarised (overall similarity index of the manuscript should not be more than 15% for research articles and 20% for review articles with a limitation of less than 3% similarity from any individual source) during initial stages of review are out-rightly rejected and not considered for publication in the journal. In case a manuscript is found to be plagiarised after publication, the Editor-in-Chief will conduct a preliminary investigation, may be with the help of a suitable committee constituted for the purpose.
4. If the manuscript is found to be plagiarised beyond the acceptable limits, the journal will contact the author's Institute / College / University and Funding Agency, if any. A determination of misconduct will lead JWLD to run a statement bi-directionally linked online to and from the original paper, to note the plagiarism and provide a reference to the plagiarised material.
5. The paper containing the plagiarism will also be marked on each page of the PDF. Upon determination of the extent of plagiarism, the paper may also be formally retracted.

Types of Plagiarism

The following types of plagiarism are considered by JWLD:

1. Full Plagiarism: Previously published content without any changes to the text, idea and grammar is considered as full plagiarism. It involves presenting exact text from a source as one's own.
2. Partial Plagiarism: If content is a mixture from multiple different sources, where the author has extensively rephrased text, then it is known as partial plagiarism.
3. Self-Plagiarism: When an author reuses complete or portions of their pre-published research, then it is known as self-plagiarism. Complete self-plagiarism is a case when an author republishes their own previously published work in a new journal.

JWLD respects intellectual property and aims at protecting and promoting original work of its authors. Manuscripts containing plagiarised material are against the standards of quality, research and innovation. Hence, all authors submitting articles to JWLD are expected to abide by ethical standards and abstain from plagiarism, in any form.

The authors must ensure that the submitted manuscript:
- describes completely the original work;
- is not plagiarism;
- has not been published before in any language;
- the information used or words from other publications are appropriately indicated by reference or indicated in the text.
Existing copyright laws and conventions must be observed. Materials protected by copyright (for example, tables, figures or large quotations) should only be reproduced with the permission of their owner.

In case, an author is found to be suspected of plagiarism in a submitted or published manuscript then, JWLD shall contact the author(s) to submit his/her/their explanation within two weeks, which may be forwarded to the special commission constituted for the purpose, for further course of action. If JWLD does not receive any response from the author within the stipulated time period, then the Director / Dean / Head of the concerned College, Institution or Organization or the Vice Chancellor of the University to which the author is affiliated shall be contacted to take strict action against the concerned author.

JWLD shall take serious action against published manuscripts found to contain plagiarism and shall completely remove them from the JWLD website and other third party websites where the paper is listed and indexed. The moment, any article published in the JWLD database is reported to be plagiarised, JWLD will constitute a special commission to investigate the same. Upon having established that the manuscript is plagiarised from some previously published work, JWLD shall support the original author and manuscript irrespective of the publisher and may take any or all of the following immediate actions or follow the additional courses of actions*:

1. JWLD editorial office shall immediately contact the Director / Dean / Head of the concerned College, Institution or Organization or the Vice Chancellor of the University to which the author(s) is (are) affiliated to take strict action against the concerned author.
2. JWLD shall change the PDF copy of the published manuscript from the website and the term Retraction shall be appended to the published manuscript title.
3. JWLD shall disable the author account with the journal and reject all future submissions from the author for a period of 03 / 05 / 10 years or even ban the authors permanently.

*Any additional courses of action, as recommended by the commission or as deemed fit for the instant case or as decided by the Editor-in-Chief, implemented from time to time.

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