ASSESSMENT OF ANTROPOGENIC LOADING AT TURIA BASIN IN VOLYN REGION

The purpose of the study is to assess the anthropogenic load and to determine the ecological status of the Turia river basin in order to develop measures to improve it. The calculation of anthropogenic loading and assessment of the ecological status of the river basin was carried out in accordance with the method of determining the induction coefficient (ICAL), developed by A. Jacyk. According to the method, the general state of the river basin is considered as four independent main subsystems: “Radioactive contamination of the territory”, “Land use”, “Use of river runoff”, “Water quality”. The value of the primary indicators of the subsystem of land and water use is transformed into points and provides a qualitative characteristic for each of them. Then they calculate the complex index and determine the class of the status of the use of the subsystem on a scale. It was established that there is no radioactive contamination of land in the Turia river basin. According to the natural-agricultural zoning of Ukraine, the Turiar river basin, with a total area of 2,900 km2, is located in the Polisch Province of Western Ukraine. The level of land use resources in the basin is significant in all indicators and the state of the subsystem is rated as “extremely unsatisfactory” with a quantitative level of -3.2. It is also noted that in the Turia river basin there was a low irreversible water consumption and a discharge of water into the river network with quantitative measure 3. At the same time, very high discharges of polluted sewage and a high use of river runoff were observed and estimated at -5 and -3 points respectively. Consequently, the state of the subsystem “Use of river runoff” in the basin of the river Turia for the level of water consumption is classified as “bad” with a quantitative measure of 0.8. The state of the subsystem “Water Quality”, according to the integral ecological index (2.4), described the water as category 2 of the second class (“pure”) with a quantitative measure 1. In general, the ecological status of the river basin of the river Turia was classified as “bad”, and the level of anthropogenic loading by magnitude ICAN was -0.62, which testifies to a violation of the norms of management in it while using land and water resources. Hence, an estimation of anthropogenic load on the river basin is very important for the formation of environmental protection and the establishment of indicators that most influence the ecological status of the river. It is important to develop engineering and organizational measures to solve existing problems in its catchment. All this outlines the prospect of further research in the basins of the Volyn region rivers.

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Geospatial assessment of the Mokra Sura river ecological condition using remote sensing and in situ monitoring data

Journal of Geology Geography and Geoecology ◽

10.15421/111866 ◽

2019 ◽

Vol 27 (3) ◽

pp. 422-430

Author(s):

Mykola М. Kharytonov ◽

Andriy М. Pugach ◽

Sergey А. Stankevich ◽

Anna O. Кozlova

Keyword(s):

Remote Sensing ◽

Water Quality ◽

Surface Water ◽

River Basin ◽

Ecological Status ◽

The State ◽

Water Bodies ◽

In Situ Monitoring ◽

Treated Wastewater

The use of remote sensing methods for environmental monitoring of the surface water quality is proved. Regression relationships are consistent with ground-based measurements at sampling sites in water bodies and are an effective tool for assessing the ecological status of water bodies. The state of the water bodies of the Mokra Sura river basin varies considerably. The best is the water quality in the upper part of the Mokra Sura river, the worst – in the middle and lower parts. The factors of water pollution are discharges of not enough treated wastewater of industrial enterprises of the Kamyans’koy and Dniprovs’koy industrial agglomeration. The purpose of our search included the following tasks: (a) calculation of integrated environmental water quality indices; b) obtaining satellite information, processing of multispectral satellite images of water bodies using appropriate applied software techniques; c) establishment of statistical dependencies between water quality indexes obtained for biotopically space images and data of actual in situ measurements. The results of systematic hydrochemical control of the Mokra Sura river basin from 2007 to 2011 years were initial data in 4 control areas located in the Dnipropetrovsk region: 1 – the Sursko-Litovske village; 2 – the Bratske village; 3 – the Novomykolayvka village; 4 – the Novooleksandryvka village. Environmental assessment of the water quality of the Mokra Sura river within the Dnipropetrovsk region was based on the calculation the integrated environmental index ( IEI ). Priority pollutants in this case are oil products and ions 2−SO 4, 2 + Mg , 2 + Zn , 6 + Cr . Two images with a difference in three years in April 2015 and May 2017 were used to determine the current changes in the land cover of the study area. Geomorphological assessment of the water network of the Morka Sura river was performed using satellite radar interferometry. Multispectral images of Landsat 5/TM (2007-2011) and Sentinel 2B/MSI (2017) satellite systems were used forremote assessment of water bodies in the study area of the Mokra Sura river basin. The multispectral index TCW (Tasseled Cap Wetness) was used to measure the spectral reflection of the aquatic environment along of the Mokra Sura river flow. The main advantage of the studies is a demonstration of remote sensing capabilities to estimate Mokra Sura river ecological status not only in individual sites, but also throughout the flow – from source to mouth. Follow the necessity to use water from the Mokra Sura river for irrigation, the level of soil water erosion can only increase and enhance the negative processes of eutrophication of reservoirs. Long term technogenic pollution requires information about the state of surface water of fishery, drinking and municipal water use facilities as an integral part of the aquatic ecosystem, the habitat of aquatic organisms and as a resource of drinking water supply. Over 80% of the Mokra Sura river basin surface (IEI 4-12) belong to the classes with the assessment of dirty, very and extremely dirty. The results of studies using remote sensing indicate the need to reduce the streams of not enough treated wastewater to the the Mokra Sura river. The obtained data can be used for ecological assessment of the current and retrospective state of water bodies, development of forecasts of rivers pollution.

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ESTIMATION OF ANTHROPOGENIC LOAD ON THE VESELUKHA SMALL RIVER BASIN

Міжвідомчий тематичний науковий збірник Меліорація і водне господарство ◽

10.31073/mivg201901-163 ◽

2019 ◽

pp. 82-87

Author(s):

І. V. Gopchak ◽

T. O. Basiuk

Keyword(s):

Water Quality ◽

River Basin ◽

River Runoff ◽

River Basins ◽

Ecological Condition ◽

The State ◽

Small River ◽

Anthropogenic Load ◽

Ecological State ◽

Small River Basin

Relevance of research. As a result of economic activities and irrational use of water and land resources in small river basins there are problems connected with pollution, destruction of natural landscape complexes of river valleys and adjoining territories, engineering reorganization of canals and floodplains as a result of melioration works. All these changes in river basins require operational control and response, which is possible only if real estimation of the level of anthropogenic load on river basins is carried out and the limits of permissible economic interference in their ecosystem are determined. The purpose of research – assessment of the ecological condition of the basin of the Veselukha River by the criteria of anthropogenic load. Research methods. The analysis of anthropogenic load and evaluation of the ecological condition of the Veselukha River basin was carried out in accordance with "Methodology for calculation of anthropogenic load and classification of the ecological state of small river basins of Ukraine". The calculation was made using the logic-mathematical model "Small River Basin", for four independent models of the main subsystems of the river basin: radioactive contamination of the territory, land use, use of river runoff, water quality. The quantitative and qualitative anthropogenic conditions by various indicators of four subsystems for classification of the ecological state of the river basin were estimated. Research results. According to the state of radioactive contamination, the area of the river catchment was estimated as "satisfactory". Based on the results of the analysis, the integrated value of land use was 3.7 and the state of the subsystem "Use of land" in the basin of the Veselukha river was determined as "good". The general state of river runoff use in the basin based on the joint effect of all these indicators of anthropogenic load on the state of the subsystem "Use of river runoff" was evaluated as "good" with a quantitative value of 3.0. The general condition of the subsystem "Water Quality" in the basin of the Veselukha River is characterized by the IV class of water quality, it corresponds to "polluted", with a quantitative level of -1. According to the results of the integrated assessment of all subsystems of the river basin, an induction coefficient of anthropogenic load (ICAN) was specified as is -1.0 and classifies the ecological state of the Veselukha River basin as "minor changes".

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Water Quality Effects of Economically Viable Land Use Change in the Mississippi River Basin under the Renewable Fuel Standard

Environmental Science & Technology ◽

10.1021/acs.est.0c04358 ◽

2021 ◽

Vol 55 (3) ◽

pp. 1566-1575 ◽

Cited By ~ 1

Author(s):

Kelsie M. Ferin ◽

Luoye Chen ◽

Jia Zhong ◽

Sarah Acquah ◽

Emily A. Heaton ◽

...

Keyword(s):

Water Quality ◽

Land Use ◽

Land Use Change ◽

River Basin ◽

Mississippi River ◽

Mississippi River Basin ◽

Renewable Fuel Standard ◽

Renewable Fuel

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Integrative hydrogeo-ecological assessment of the quantitative and qualitative response of groundwater to hydrological extremes

10.5194/egusphere-egu21-13111 ◽

2021 ◽

Author(s):

Steffen Birk ◽

Johannes Haas ◽

Alice Retter ◽

Raoul Collenteur ◽

Heike Brielmann ◽

...

Keyword(s):

Water Quality ◽

Land Use ◽

Ecological Status ◽

Urban Land Use ◽

In Situ Monitoring ◽

Drought Indices ◽

Groundwater Levels ◽

Hydrological Conditions ◽

Hydrological Extremes ◽

Observation Wells

<p>An integrative interdisciplinary approach is currently developed to investigate groundwater systems in alpine and prealpine environments and how they respond to hydrological extremes such as droughts, heavy rain and floods in terms of water quantity, hydrochemical quality, and ecological status. The new approach is aimed at improving the understanding of the interaction between physical, chemical, and biological processes in groundwater responses to extreme events as well as developing indicators suitable for an integrative monitoring and management of the aquifers. For this purpose, observation wells of the existing state hydrographic monitoring net have been selected within the Austrian part of the Mur river basin, stretching from the alpine origin to the national border in the foreland. The investigation area thus comprises diverse hydrogeological settings and land-use types. The selected observation wells have long-term records of groundwater levels and are used for sampling campaigns under different hydrological conditions. Groundwater level fluctuations are evaluated using drought indices and statistical approaches, such as auto-correlation and cross-correlation with precipitation and stream stages. Our hydrochemical analyses of groundwater and surface waters also consider compounds indicative of agricultural sources (e.g., nitrate), wastewater-borne micro-pollutants, and stable isotopes of water. These indicators are used to identify different drivers controlling water origin and quality. The ecological status is characterized using microbiological measures, such as total number of bacteria and microbial activity, groundwater fauna, and the qualitative composition of dissolved organic matter (DOM). First results demonstrate a deterioration of water quality from groundwater to surface water and from the alpine region towards the foreland, corresponding to the more intense agricultural and urban land use in the foreland. Linkages between water quality and hydrological conditions are currently being evaluated and will be further examined using UV-Vis spectrometry for high-resolution in-situ monitoring of water quality changes (DOM and nitrate) at selected observation wells.</p>

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Impacts of land-use and land-cover changes on river runoff in Yellow River basin for period of 1956–2012

Chinese Geographical Science ◽

10.1007/s11769-017-0843-3 ◽

2017 ◽

Vol 27 (1) ◽

pp. 13-24 ◽

Cited By ~ 11

Author(s):

Fang Wang ◽

Quansheng Ge ◽

Qibiao Yu ◽

Huaxin Wang ◽

Xinliang Xu

Keyword(s):

Land Use ◽

Land Cover ◽

River Basin ◽

River Runoff ◽

Yellow River ◽

Yellow River Basin ◽

Land Cover Changes

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Development and application of GIS-based assessment of land-use impacts on water quality: A case study of the Kharaa River Basin

AMBIO ◽

10.1007/s13280-018-1123-y ◽

2018 ◽

Vol 48 (10) ◽

pp. 1154-1168 ◽

Cited By ~ 5

Author(s):

Gunsmaa Batbayar ◽

Martin Pfeiffer ◽

Martin Kappas ◽

Daniel Karthe

Keyword(s):

Water Quality ◽

Land Use ◽

River Basin ◽

Land Use Impacts ◽

Application Of Gis

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The Chao Phraya River Basin: water quality and anthropogenic influences

Water Science & Technology Water Supply ◽

10.2166/ws.2018.167 ◽

2018 ◽

Vol 19 (5) ◽

pp. 1287-1294 ◽

Cited By ~ 2

Author(s):

Nuanchan Singkran ◽

Pitchaya Anantawong ◽

Naree Intharawichian ◽

Karika Kunta

Keyword(s):

Water Quality ◽

Land Use ◽

River Basin ◽

River Mouth ◽

Oxygen Demand ◽

Quality Parameters ◽

Paddy Fields ◽

Coliform Bacteria ◽

Wet Season ◽

Chao Phraya River

Abstract Land use influences and trends in water quality parameters were determined for the Chao Phraya River, Thailand. Dissolved oxygen (DO), biochemical oxygen demand (BOD), and nitrate-nitrogen (NO3-N) showed significant trends (R2 ≥ 0.5) across the year, while total phosphorus (TP) and faecal coliform bacteria (FCB) showed significant trends only in the wet season. DO increased, but BOD, NO3-N, and TP decreased, from the lower section (river kilometres (rkm) 7–58 from the river mouth) through the middle section (rkm 58–143) to the upper section (rkm 143–379) of the river. Lead and mercury showed weak/no trends (R2 < 0.5). Based on the river section, major land use groups were a combination of urban and built-up areas (43%) and aquaculture (21%) in the lower river basin, paddy fields (56%) and urban and built-up areas (21%) in the middle river basin, and paddy fields (44%) and other agricultural areas (34%) in the upper river basin. Most water quality and land use attributes had significantly positive or negative correlations (at P ≤ 0.05) among each other. The river was in crisis because of high FCB concentrations. Serious measures are suggested to manage FCB and relevant human activities in the river basin.

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The Impacts of Land Use Patterns on Water Quality in a Trans-Boundary River Basin in Northeast China Based on Eco-Functional Regionalization

International Journal of Environmental Research and Public Health ◽

10.3390/ijerph15091872 ◽

2018 ◽

Vol 15 (9) ◽

pp. 1872 ◽

Cited By ~ 7

Author(s):

Peixuan Cheng ◽

Fansheng Meng ◽

Yeyao Wang ◽

Lingsong Zhang ◽

Qi Yang ◽

...

Keyword(s):

Water Quality ◽

Land Use ◽

River Basin ◽

Natural Environment ◽

Flow Region ◽

High Flow ◽

Land Use Patterns ◽

Use Patterns ◽

The Impact ◽

Degraded Water Quality

The relationships between land use patterns and water quality in trans-boundary watersheds remain elusive due to the heterogeneous natural environment. We assess the impact of land use patterns on water quality at different eco-functional regions in the Songhua River basin during two hydrological seasons in 2016. The partial least square regression indicated that agricultural activities associated with most water quality pollutants in the region with a relative higher runoff depth and lower altitude. Intensive grazing had negative impacts on water quality in plain areas with low runoff depth. Forest was related negatively with degraded water quality in mountainous high flow region. Patch density and edge density had major impacts on water quality contaminants especially in mountainous high flow region; Contagion was related with non-point source pollutants in mountainous normal flow region; landscape shape index was an effective indicator for anions in some eco-regions in high flow season; Shannon’s diversity index contributed to degraded water quality in each eco-region, indicating the variation of landscape heterogeneity influenced water quality regardless of natural environment. The results provide a regional based approach of identifying the impact of land use patterns on water quality in order to improve water pollution control and land use management.

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