2017 Poland SWAT Conference Material
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June 28
Inaugural Session
| Prof dr hab. Kazimierz Banasik | Welcome Address | ||
|---|---|---|---|
| Prof dr hab. Tomasz Okruszko | Keynote Address: Water management challenges in Central and Eastern Europe – implications for hydrological modelling | ||
| Jeffrey G. Arnold | Model Development | ||
| Raghavan Srinivasan | Closing | ||
| Valentina Krysanova | Intercomparison of climate change impacts and uncertainties simulated by multiple hydrological models in 12 large river basins worldwide |
Session A1: SWAT+
| Jeff Arnold | Overview | ||
|---|---|---|---|
| Katrin Bieger | Watershed Configuration | ||
| Mike White | Land Management | ||
| Chris George | QGIS Interface | ||
| Jaclyn Tech | SWAT+ Editor | ||
| Peter Allen | New Modules - Lite Approaches |
Session B1: Environmental Applications
| Chih-Mei Lu | Integration of TUSLE in SWAT model for sediment prediction at a small mountainous catchment, Chenyulan watershed, Taiwan | ||
|---|---|---|---|
| Paul Wagner | Dynamic versus static representations of land use change in SWAT | ||
| Suria Tarigan | Simulation of water balance and soil moisture dynamic in a catchment dominated by oil palm plantation using SWAT model | ||
| Tommaso Pacetti | Evaluating the supply of hydrologic ecosystem services to support the water–food–energy Nexus in the Arno river basin (Italy) | ||
| João Rocha | Impacts of climate and land use changes on the water quality of a vineyard-dominated Mediterranean catchment |
Session B2: Climate Change Applications
| Yousef Hassanzadeh | Assessment of climate change impacts on blue and green water resources availability in a large scale basin by using CMIP5 model (Case Study: Kashafrood River Basin, Iran) | ||
|---|---|---|---|
| Kristian Näschen | Applying the Soil and Water Assessment Tool (SWAT) to estimate impacts of land use and climate change on water resources in a data scarce catchment in Tanzania | ||
| Ina Pohle | Can water resources management alleviate the uncertainty of projected climate change impacts on river discharge? - A comparative study in two hydrologically similar catchments with different level of management | ||
| Jesus Uresti-Gil | Data generation on the impact of climate change and adaptation measures to support the development of an intensive and sustainable agriculture in the peninsula of Yucatan, México. |
Session B3: Hydrology
| Roger Glick | Innovations in Urban Application of SWAT | ||
|---|---|---|---|
| Jaehak Jeong | Estimation of streamflow and sediment yield for Watershed Prioritization in the Upper Blue Nile River Basin, Ethiopia | ||
| Majid Delavar | Basin-wide water accounting based on modified SWAT model (SWAT-FARS): an application for the Tashk-Bakhtegan Basin, Iran. | ||
| Markhi Amal | Application of SWAT model to assess snowpack development and streamflow in the Nfis watershed, Marakesh, Morocco |
Session B4: SWAT Review Papers and Large Scale Applications
| Philip Gassman | The Soil and Water Assessment Tool (SWAT); Review of Global Use and Application Trends Circa 2017 | ||
|---|---|---|---|
| Michael Strauch | Modifying global precipitation data for enhanced hydrologic modeling of tropical Andean watersheds | ||
| Fred Fokko Hattermann | Intercomparison of climate change impacts simulated by regional and global hydrological models in eleven large river basins including quantification of uncertainties using ANOVA |
Session C1: Model Development
| Seshu Tirupathi | Software Development Tools for SWAT | ||
|---|---|---|---|
| Dong Jun Lee | Development Web-based SWAT LUC with SWAT BFlow Alpha Factor | ||
| Neelakantan Sajikumar | Incorporation of GIUH into the SWAT model | ||
| Christoph Schürz | Bringing two open source worlds closer together - execution and processing of SWAT projects in R | ||
| Befekadu Taddesse Woldegiorgis | A Comparison of Different Solution Schemes for CSTR-Based Instream Water Quality Simulators Using Hypothetical Experiments and a Real Data |
Session C2: SWAT Remote Sensing Applications
| Suzana Montenegro | Calibration of a Brazillian watershed using MODIS evapotranspiration data | ||
|---|---|---|---|
| Thomas Poméon | Hydrologic modeling of sparsely gauged West African river basins using SWAT – a remote sensing approach | ||
| Aklilu Teklesadik | Multi- step distributed SWAT model calibration using remote sensing ET and gauge flow data. Case study of the Upper Blue Nile basin. |
Session C3: Climate Change Applications
| João Rocha | Impacts of climate change on water availability in Alentejo (Portugal) | ||
|---|---|---|---|
| Mikołaj Piniewski | Projected climate change and its effects on mean and extreme runoff in Poland | ||
| B. Narasimhan | Multi Model Ensemble for Assessing the Impact of Climate Change on the Hydrology of a South Indian River Basin | ||
| Hiroaki Somura | SWAT application for water resources management in Khulm watershed, Afghanistan |
Session C4: Sediment, Nutrients, and Carbon
| Matjaz Glavan | Effective catchment management of soil erosion for long-term improvement of surface water bodies quality | ||
|---|---|---|---|
| Stefan Julich | The impact of load estimation procedures on the simulation of nitrogen fluxes in a small mountainous watershed in Germany. | ||
| Clément Fabre | An assessment of organic carbon exports in an Arctic watershed presenting permafrost using the coupled SWAT model and Carbon modules. | ||
| Clément Fabre | Organic carbon and nitrate transfers at a watershed scale with the SWAT + model using landscape units: application to a large watershed in France |
June 29
Session D1: Special Session: gSWATCloud
Session D2: Sediment, Nutrients, and Carbon
| Nicola Fohrer | How to improve the representation of nitrate processes and their dynamics in eco-hydrological models? | ||
|---|---|---|---|
| Natalja Čerkasova | Development of the Nemunas River watershed model for hydrology, sediment and nutrient calculations | ||
| Jeong Ho Han | Application of measured channel cross-section geometries data for flow and water quality estimation |
Session D3: Sensitivity Calibration and Uncertainty
| Björn Guse | How do hydrological processes change in their spatio-temporal relevance under changing climatic conditions? | ||
|---|---|---|---|
| Christoph Schürz | A comprehensive sensitivity analysis for discharge and nitrogen loads involving multiple model input factors | ||
| Asim Jahangir Khan | Correction and informed Regionalization of Precipitation Data in a high mountainous Region (Upper Indus Basin) and its Effect on SWAT-modelled Discharge |
Session D4: Large Scale Applications
| B Narasimhan | Analytic Element Method (AEM) and its Relevance with Subbasin/ HRU Concept of SWAT for Potential Integration of AEM Based Simple Ground Water Model | ||
|---|---|---|---|
| Prasad Daggupati | Development SWAT model for contributing basins to Lake Erie from Canadian side and evaluate the effects of inputs on hydrological budgets and streamflow | ||
| Talal Alharbi | Impact of climate change over Saudi Arabia | ||
| Tien-Viet Nguyen | SWAT application in Economics of Hydropower - a national assessment |
Session E1: Database and GIS Application and Development
| Ignacy Kardel | Open data for climate impact modelling in Poland: geoportal ClimateImpact.sggw.pl | ||
|---|---|---|---|
| Arthur Hrast Essenfelder | SWAT Weather Database: A Support Tool for the Long-Term Analysis of Climate Scenarios with SWAT | ||
| Thais Fujita | Response of Randomized Subsets of Rainfall Gauges Over a Paraná River Sub-basin | ||
| Thais Fujita | Hydrological Response of a Brazilian Catchment to Different Land Use and Land Cover Products |
Session E2: Environmental Applications
| Ann van Griensven | An adaptation to the vegetation growth module of SWAT for tropical condition | ||
|---|---|---|---|
| Joanna O'Keeffe | Index-based analysis of climate change impact on ecologically relevant flow regime | ||
| Hien Ha Ngoc | Integration of SWAT and QUAL2K for water quality modeling in a data scarce basin: a case study of Cau River basin of Vietnam |
Session E3: Climate Change Applications
| Paweł Marcinkowski | Effect of climate change on hydrology, sediment and nutrient losses in two lowland catchments in Poland | ||
|---|---|---|---|
| Fred Fokko Hattermann | Quantification of risks and costs of climate change impacts on floods and droughts in the Danube basin | ||
| Bahareh Kamali | Climate change impacts on meteorological, hydrological, and agricultural droughts in semi-arid regions of Iran | ||
| Manish Shrestha | Application of SWAT model to compare simple and complex bias correction techniques for climate change analysis |
Session E4: EPIC/APEX Modeling System
| Claire Baffaut | APEX model simulation of edge-of-field water quality benefits from upland buffers | ||
|---|---|---|---|
| Jaehak Jeong | The Agricultural Policy/Environmental eXtender (APEX) Model: Recent activities, model development, and plans | ||
| Jeff Arnold | Nutrient Delivery and Agricultural Conservation Effects on Water Quality in the Des Moines River Watershed |
Session F1: Poster
| Sameh Abou Rafee | Analysis of spatial distribution of observed ground-based data and large scale modelling of the Parana River Basin | ||
|---|---|---|---|
| Mojgansadat Azimi | Simulation of the effects different rangeland improvements scenarios on evapotranspiration of Case study: Gorganrud Watershed-Golestan-Iran | ||
| Claire Baffaut | Predicting Drought in an Agricultural Watershed given Climate Variability | ||
| Sbaa Boubeker | Hydrological modeling with SWAT under contrasting climate in a semi - arid zone: case of the wadi wahrane, Algeria. | ||
| Carla Camargos | How uncertainty of simulating water resources is affected by different input data information content | ||
| Lei Chen | A new tool for optimizing best management practices by integrating SWAT and NSGA | ||
| Kyunghwa Cho | Developing a SWAT Sub-Module for Simulating Dynamics of Cyanobacteria, Green algae, and Diatom | ||
| Il-Moon Chung | Hydrologic component analysis at the Water Curtain Cultivation site according to annual rainfall pattern | ||
| Cenk Donmez | Determination of the Environmental Impacts of Agricultural Land Use on Lower Seyhan Plain using SWAT Model | ||
| Vanessa Cristina Dos Santos | Land use change effects on hydrological regime in the Xingu Watershed – Brazil | ||
| Marc Fasel | Blue water scarcity in the Black Sea catchment: identifying key actors in the water-ecosystem-energy-food nexus | ||
| Josicleda Galvincio | Parallelization of SWAT calibration: a Windows HPC approach | ||
| Josicleda Galvincio | Challenges of Hydrological Modeling in a Basin in Northeast Brazil | ||
| Matjaz Glavan | Understanding of water and nitrogen cycle in an irrigated Mediterranean area in southern Turkey | ||
| Matjaz Glavan | Modelling diffuse and point source pollution risks in the case of transboundary Sotla river basin | ||
| Joanna Gudowicz | Application of the Soil and Water Assessment Tool for hydrological modeling in a High-Arctic catchment: Brøggerelva watershed, NW Spitsbergen | ||
| Marilen Haver | Modelling mountain hydrology using the SWAT model to understand the impact of abiotic environmental variables on the health of high altitude aquatic ecosystems | ||
| Qianwen He | Streamflow calibration of a semi-distributed hydrological model by single and multi-site measured data on the Yuan River Catchment, China | ||
| Jaehak Jeong | Water Resource Assessment, Gaps, and Constraints of Vegetable Production in Ethiopia | ||
| Chul-gyum Kim | Changes in runoff characteristics of streams in Jeju Island, Korea due to climate change | ||
| Petr Krpec | Assessment of SWAT model performance in case of Olešná reservoir watershed, Czech Republic | ||
| Juan Luis Lechuga-Crespo | Modelling potential impacts of Climate Change on hydrology of a small urban catchment on the North of Spain | ||
| Chi-Chun Liao | Assessment of SWAT sediment export and transport prediction in watersheds of different geomorphological and hydroclimatic conditions in Taiwan | ||
| Amina Mami | Assessing the Impact of Regional Climate Models on Hydrology of a Semi-Arid Watershed Using SWAT Model: The Case of the Wadi Tafna (Algeria) | ||
| Julio Perez-Sanchez | Impact of temporal resolution of rainfall inputs on the performance of the SWAT model in Peninsular Spain | ||
| Sushama Pradhan | Impacts of On-site System Status: Water Quality and Quantity in Micro to Macro Scale | ||
| Giovanni Francesco Ricci | Comparison between SWAT and AnnAGNPS model simulations in a Mediterranean watershed | ||
| Hande Sagir | SWAT Modeling of Seasonal Differences in Nitrate Leaching | ||
| Carlos Amiliton Santos | Hierarchical Calibration of SWAT Model in Paraguaçu Basin River. | ||
| Sabine Sauvage | Modelling flash floods at hourly time-step: relevance of the SWAT model evaluated with the MARINE model | ||
| Sabine Sauvage | Using a SWAT and a GIS coupled approach to assess the role of Amazonian wetlands in carbon and nitrogen biogeochemical cycles. | ||
| Christoph Schürz | SWATpasteR: Parallel SWAT execution and sensitivity testing in R | ||
| Christoph Schürz | SWATfarmR: A simple rule-based scheduling of management operations for SWAT | ||
| Javier Senent-Aparicio | Forecast of Instantaneous Peak Flow using SWAT and ANN | ||
| Zhenyao Shen | Identifying critical source areas for the control of nonpoint source pollution using the SWAT model | ||
| José Miguel Sánchez-Pérez | Modelling nitrate in-stream retention using SWAT model and STATISTICAL model at watershed scale: the case of the Garonne watershed (France) | ||
| Pavel Terskii | SWAT applications for transboundary river management between EU, Ukraine and Russian Federation | ||
| Ye Tuo | Joint use of snow and discharge time series for SWAT model calibration | ||
| Janja Vrzel | Using SWAT in a coupled modeling framework for the development of renewable gases in the heating market | ||
| Xi Wei | Modelling self-purification in rivers from hydro-morphological units to watershed scale | ||
| Guoyuan Wei | A NSGA-II based calibration platform for the SWAT and other universal models | ||
| Paweł Wilk | Evaluation of climate change and land use impact on suspended sediment production and its quality in different catchments of Poland | ||
| Michał Wróbel | Determination of the CN parameter in the forest catchment area on the example of Łutownia river in Bialowieza Primeval Forest | ||
| Amin Zettam | Application of the SWAT model to investigate hydrology, sediment and nitrate flux towards the Mediterranean Sea: case of the North Africa catchments |
June 30
Session G1: Sediment, Nutrients, and Carbon
| Damian Badora | The influence of the DEM resolution on the LS factor and SWAT estimates of soil erosion on the example of upland loess watershed in Poland. | ||
|---|---|---|---|
| Bano Mehdi | Improved understanding of the impacts of hydroclimate, land use and agricultural management practices on nitrate concentration dynamics using SWAT | ||
| Valeriy Osypov | SWAT Model Application for Simulating Nutrient Emission from Small Agricultural Catchment in the Desna River Basin (Ukraine) |
Session G2: Climate Change Applications
| Farzad Emami | Modeling the Projected Impact of Climate Change on Boukan Dam Inflow and Water Availability in the Zarrine River Basin of Iran | ||
|---|---|---|---|
| Majid Fereidoon | An integrated MODSIM- PSO Model for optimal Multi-Crop Planning in the agricultural Areas of the Karkheh River Basin, Iran, under the Impacts of Climate Change | ||
| Saeed Morid | Assessing the impact of climate variability and human activities on the drawdown of Lake Urmia (Iran) using SWAT-LU | ||
| Javier Senent Aparicio | Climate Change effects on the hydrological regime in the Ladra River Basin (NW Spain) |
Session G3: Environmental Applications
| Anna Maria De Girolamo | Modelling streamflow to set an environmental flow | ||
|---|---|---|---|
| Chunggil Jung | Evaluation of the Groundwater Use Impact on the Drying Stream by Modifying SWAT Groundwater Balance Equation | ||
| Michael Strauch | Towards multifunctional agricultural landscapes in Europe: SWAT as a key to asses synergies and trade-offs between ecosystem services and biodiversity | ||
| Michel Rahbeh | Evaluation of Soil Water Assessment Tool for the simulation of preferential contaminant transport in cultivated lands near Zarqa river |
Session G4: Hydrology
| Leonardo Domingues | Field Observations and Model Simulations of an Extreme Drought Event in the Southeast Brazil | ||
|---|---|---|---|
| Asim Jahangir Khan | Comparison of Interpolation Methods for Precipitation Data in a mountainous Region (Upper Indus Basin) | ||
| Abelardo Montenegro | Hydrological analysis for representative small catchments in Caatinga and Cerrado biomes using SWAT model | ||
| Thanapon Piman | Impacts of climate variability and water resources development on river flows and water balance of Huai Luang Watershed, Thailand | ||
| Mohamad Soheil Rezazadeh | Performance evaluation of conceptual models and data-driven models to predict basin runoff (Case Study: Soltani basin, Iran) |
Session H1: Large Scale Applications
| Anthony Lehmann | Sharing input and outputs data for large scale applications of SWAT with OGC web services | ||
|---|---|---|---|
| José A. F. Monteiro | Overcoming challenges of large-scale SWAT applications with R: Modelling of the Amazon basin | ||
| Kausila Timsina | Assessment of Changes in Hydrologic Regime of the Teesta River by Teesta –V Hydroelectric Power Project in Sikkim India | ||
| Celray James Chawanda | Automated implementation of irrigation in SWAT |
Session H2: Sensitivity Calibration and Uncertainty
| Daniel Hawtree | Using Multi-Criterea Calibration Methods to Estimate Nitrate Pollution in a Large Basin with Limited Data | ||
|---|---|---|---|
| Gerald Corzo Pérez | Hydrological modeling of a tropical basin with SWAT: A study case of Cauto River, Cuba |
Session H3: BMPs
| Natalia Uribe | SWAT modelling approach to assess the effect of Potato Conservation Tillage (CT) on nutrients concentration and losses in runoff water in Fuquene watershed. | ||
|---|---|---|---|
| Arthur Hrast Essenfelder | Evaluating Impacts of Alternative Adaptation Strategies on the Dynamics of Human-Water Systems: A Methodological Framework for an Integrated Modular SWAT and Multi-Attribute Revealed Preference Model | ||
| Slim Mtibaa | Technical-economic analysis of best management practices for appropriate control of sediment yield: Case of Joumine river basin, Tunisia |
Session I1: Climate Change Applications
| Karim Abbaspour | Introducing Climate Change Toolkit (CCT): a modular toolkit for climate change and extreme weather analysis | ||
|---|---|---|---|
| Stephan Kpoti Gunn | Assessing the impacts of climate change on discharge and nutrient losses from a karstic agricultural sub-basin in the Upper Chesapeake Bay watershed | ||
| Olga Nasonova | Climate change impact on streamflow in ISI-MIP large-scale river basins: projections and their uncertainties | ||
| Aziz Abouabdillah | Using SWAT to predict projected climate change impact on water resource within a Mediterranean watershed: the R'dom basin Case study, Morocco |
Session I2: Hydrology
| Joanna Suliga | A comparison between SWAT and WETSPA hydrological models for riparian fen modelling at the catchment scale | ||
|---|---|---|---|
| Suzana Montenegro | Comparative hydrology using the SWAT model in Pernambuco State watersheds, Northeast of Brazil for SUPer system development | ||
| Gokhan Cuceloglu | Assessing the Influence of Climate Datasets for Quantification of Water Balance Components in Black Sea Catchment: Case Study for Melen Watershed in Turkey | ||
| Ann van Griensven | A methodology for calculating the Water Accounting and Water Productivity based on SWAT-T simulations. Case Study: Mara Catchment |
Session I3: Environmental Applications
| Nina Zarrineh | Impact analysis of land sharing vs. land sparing strategies on catchment-scale agroecosystem services using SWAT | ||
|---|---|---|---|
| Rafael Magris | Modelling vulnerability of coastal ecosystems to land-based mining pollution: a case study from Brazil | ||
| Darae Kim | Parameter Calibration of SWAT Hydrology and Water Quality Focusing on Long-term Drought Periods | ||
| Ji Wan Lee | Discussion of a Decade Accumulative Assessment from Baseline for Future Climate Change Impact on Watershed Hydrology and Water Quality Using SWAT |