Nataliia Osadcha scite author profile

Nataliia Osadcha

5Publications

9Citation Statements Received

14Citation Statements Given

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The Desna River Daily Multi-Site Streamflow Modeling Using SWAT with Detail Snowmelt Adjustment

Osypov¹,

Osadcha²,

Hlotka³

et al. 2018

JGG

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The Ukrainian Government started the process of EU water Directives implementation aimed at developing of the River Basin Management Plan for 9 main river catchments. The program SWAT was tested to simulate the water flow of a large plain river with a predominant snow supply. River discharges (12 gauges), snow cover depth (13 stations), and the soft data, including graphically defined surface runoff and MODIS evapotranspiration, were used to calibrate the model. The calibration flowchart, along with a detailed source data description, is proposed to aid with streamflow simulation for the snowmelt-driven watersheds and fill the existing gap of distributed hydrological modeling in the region. The main issues with snow simulation and climate data coverage are discussed. The program SUFI-2 in SWAT-CUP package was used for performing calibration/validation and uncertainty analysis. The statistics (R2, NSE, PBIAS) showed good agreement (NS > 0.7, R2 > 0.75, PBIAS < ±10%) for a major part of the gauges and satisfactory for all of them (NS > 0.5, R2 > 0.6, PBIAS < ±15%), except of two linked upstream outlets. This study provides the basis for further research on water resources, the impacts of climate change, and water quality issues.

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Methodology for the Nitrate Vulnerable Zones Designation in Surface and Ground Water

Osadcha¹,

Osadchyi²,

Osypov³

et al. 2020

Ukr. geogr. z.

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The article presents the national methodology for the identification of vulnerable areas to pollution of surface and ground water by nutrients compounds. The designation of nitrate vulnerable zones is an effective tool to reduce the impact of agricultural activities on water pollution by nutrients and is used for managing of diffuse pollution within river basins to achieve “good” ecological status. The analysis of heterogeneity of natural conditions in Ukraine and intensity of agricultural activity allows to determine 3 types of zones which differ in vulnerability: 1. Zones of high risk of water pollution, where nitrogen surplus in soil and washing and periodic washing regime are favorable for the nitrate leaching; 2. Zones of potential water pollution, where a deficient nitrogen balance in soil is observed in conditions of washing and periodic washing regime; 3. Zones of short-term pollution, where positive nitrogen balance in soil is noted by the unwashed water regime. The content of dissolved forms of mineral nitrogen (Nminer) in water and the presence of eutrophication process in the water body were recommended to use as criterias for designation of vulnerable zones. For the small rivers with a Strahler coefficient < 5, the nitrate vulnerable zones designation is recommended using the criterion of the nitrogen mineral forms content with a threshold value of 11,3 mgN/l. For the rivers with a Strahler coefficient ≥ 5, reservoirs, estuaries and coastal waters the designation is carried out on the basis of eutrophication. For the groundwater, it is based on the content of nitrogen mineral forms less than 9,7 mgN/l. This method was developed in Ukraine for the first time.

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SWAT Model Application for Simulating Nutrients Emission from an Agricultural Catchment in Ukraine

Osypov¹,

Osadcha²,

Osadchyi³

2016

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Кліматичні Зміни Та Водні Ресурси Басейну Десни До Середини ХХІ Століття

Osypov¹,

Osadcha²,

Osadchyi³

2021

Dopov. Nac. akad. nauk Ukr.

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Наведено проєкції зміни температури, опадів, евапотранспірації, запасів вологи ґрунту, компонентів водного стоку та витрат води у водотоках басейну річки Десна в період 2021—2050 рр. відносно 1991—2020 рр. Розрахунки виконано засобами процес-орієнтовної моделі SWAT (Soil and Water Assessment Tool). Прогнозні метеорологічні параметри (щоденні температура повітря, опади, швидкість вітру, вологість повітря, сонячна радіація) отримано за результатами регіональних кліматичних моделей (РКМ) проєкту Euro– CORDEX. Загалом ансамбль містить шість РКМ, які перевірено на спроможність відтворювати річний розподіл температури та опадів за базовий період (1970—2005 рр.). Для майбутнього періоду розглянуто два сценарії викидів парникових газів та аерозолей — RCP4.5 та RCP8.5. Більшість моделей свідчить про те, що на фоні 5—10 %-го зростання опадів взимку та навесні річні витрати води збільшаться на 5—33 % переважно завдяки зростанню об’єму ґрунтового живлення. Зрос- тає ймовірність посух, на що за результатами трьох із шести РКМ вказує зменшення на 10–20 % запасів вологи в ґрунті влітку. Результати дослідження мають вагоме значення для складання плану управління басейном річки Дніпро. Особливу уваги варто приділити адаптаційним заходам у сільському господарстві через можливий дефіцит вологи для розвитку рослин.

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Modeling background nitrogen and phosphorus concentrations (case study – the Desna river basin)

Osypov¹,

Osadcha²

2021

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