Hydrology and Water Resources Management in a Changing World.

Hydrology and Water Resources Management in a Changing World.

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Superior document:In Focus - Special Book Series
:
Engeland, Kolbjø.
TeilnehmendeR:
Alfredsen, Knut.
Place / Publishing House:London : : IWA Publishing,, 2020.
{copy}2020.
Year of Publication:2020
Edition:1st ed.
Language:English
Series:In Focus - Special Book Series
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Physical Description:1 online resource (246 pages)
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id 5006978150
ctrlnum (MiAaPQ)5006978150
(Au-PeEL)EBL6978150
(OCoLC)1203016481
collection bib_alma
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spelling Engeland, Kolbjø.
Hydrology and Water Resources Management in a Changing World.
1st ed.
London : IWA Publishing, 2020.
{copy}2020.
1 online resource (246 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
In Focus - Special Book Series
Cover -- Contents -- Editorial: Hydrology and water resources management in a changing world -- ACKNOWLEDGEMENTS -- REFERENCES -- A dynamic river network method for the prediction of floods using a parsimonious rainfall-runoff model -- ABSTRACT -- INTRODUCTION -- METHODOLOGY -- Study catchments and data -- The DDD rainfall-runoff model -- Subsurface -- Runoff dynamics -- Model parameters and calibration -- Dynamic river network routine -- Correlation between Ac and Fc with environmental factors -- RESULTS -- Performance of DDD with and without dynamic river network -- Correlation between Ac and Fc with environmental factors -- DISCUSSION -- Dynamic river networks -- Correlation of Ac and Fc with environmental factors -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Testing the applicability of physiographic classification methods toward improving precipitation phase determination in conceptual models -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- METHODS -- Original-automated classification - all sites -- New-automated method - all sites -- Semi-manual method - all sites -- Relief versus elevation - mountain and hill sites only -- Station radius size - mountain and hill sites only -- Calculations -- RESULTS -- All sites - comparison of three methods -- Mountain and hill sites - relief versus elevation -- Mountain and hill sites - station radius size -- DISCUSSION -- Automated versus semi-manual methods -- Refinement of classification for topographically complex regions -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Precipitation phase uncertainty in cold region conceptual models resulting from meteorological forcing time-step intervals -- ABSTRACT -- INTRODUCTION -- METHOD -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Can model-based data products replace gauge data as input to the hydrological model? -- ABSTRACT.
INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHODS -- Data comparison -- HBV model -- Performance evaluation of datasets -- RESULTS -- Data comparison -- Performance in simulating the hydrological response -- Parameter uncertainty -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- CONFLICT OF INTEREST -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Evaluation of global forcing datasets for hydropower inflow simulation in Nepal -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- DATA AND METHODS -- Meteorological forcing data -- Observed data -- Reanalysis and regional climate model data -- Topographical and land cover datasets -- Spatial interpolation of observed and gridded forcing data -- Hydrological model -- Gamma snow -- Parameters and calibration -- Water balance estimation -- Model performance evaluation -- RESULTS -- Meteorological forcing data analysis -- Model parameters -- Evaluation of discharge simulation using different forcing datasets -- Water balance analysis -- DISCUSSION -- Discussion on model parameters -- Potential factors controlling hydrological model efficiency during model calibration and validation -- Discussion on the water balance analysis -- Uncertainty in the model simulation and observation -- CONCLUSIONS -- FUNDING -- ACKNOWLEDGEMENT -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Improving hydropower inflow forecasts by assimilating snow data -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Refsdal catchment -- Model forcing data -- Snow and inflow observations -- METHODS -- METHODS -- Model description -- Data assimilation algorithm -- Forcing ensemble generation -- Description of experiments -- RESULTS -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Reproducing different types of changes in hydrological indicators with rainfall-runoff models -- ABSTRACT -- INTRODUCTION -- METHODOLOGY.
Datasets and catchments -- Hydrological model -- Indices of hydrological alteration -- Study set-up -- Estimation of changes in the hydrological indices -- Evaluation metrics -- Data analysis -- RESULTS AND DISCUSSION -- How do models calibrated with different objective functions differ in their ability to reproduce IHAs? -- Which objective function is most suitable for modelling IHA changes? -- How well can we estimate the direction of IHA changes? -- How well can we estimate the magnitude of IHA changes? -- Analysing the impact of the direction of change on the reproducibility of IHA changes -- Identification of catchment descriptors influencing the quality of the IHA estimates -- Limitations of the study -- SUMMARY AND CONCLUSIONS -- DATA AVAILABILITY STATEMENT -- ACKNOWLEDGEMENTS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Uncertainty of annual runoff projections in Lithuanian rivers under a future climate -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Response of melt water and rainfall runoff to climate change and their roles in controlling streamflow changes of the two upstream basins over the Tibetan Plateau -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHOD -- Hydrological model -- Model parameters -- Trends and attribution analyses -- RESULTS -- Model validation -- Runoff components -- The controlling roles of runoff components in the trend of river flow for the past 50 years -- DISCUSSION -- The hydrological role of melt runoff -- Model uncertainty -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- How extreme can unit discharge become in steep Norwegian catchments? -- ABSTRACT -- INTRODUCTION -- Norwegian floods -- European flash floods -- The study area and the flood event -- METHODS AND DATA.
Hydraulic modelling and data for estimation of the peak flood discharge -- Methods and data for estimating the precipitation -- Rainfall-runoff modelling and data for estimating the peak discharge -- RESULTS -- Calculated discharge at the dam crest -- Simulated precipitation and discharge -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Features and causes of catastrophic floods in the Nemunas River basin -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- Hydrological characteristics of investigated floods -- Characteristics of the meteorological conditions before catastrophic floods in 1958 and 1979 -- Spatial distribution of meteorological conditions in the Nemunas River basin -- Variability and spatial distribution of runoff coefficients in WGS catchments of the Nemunas River basin -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Risk assessment for areas prone to flooding and subsidence: a case study from Bergen, Western Norway -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Drainage system in Bergen city -- Flood modelling -- Present-day storm surge -- Subsidence data -- METHODOLOGY - RISK ASSESSMENT APPROACH -- Description of the simple grid overlay method (1) -- Description of the 'hot spot analysis' with aggregated flood areas method (2) -- RESULTS AND DISCUSSION -- Datasets and selected methods for analysis -- Subsidence data -- Flood data -- Simple grid overlay - method 1 -- 'Hot spot analysis' - method 2 -- Risk assessment map combined with the existing drainage system -- Risk assessment as a tool for end-users -- CONCLUSIONS -- Further work -- ACKNOWLEDGEMENTS -- REFERENCES -- Limitations in using runoff coefficients for green and gray roof design -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Laboratory measurements -- Field measurements.
RESULTS AND DISCUSSION -- Laboratory measured runoff coefficients -- Runoff coefficients based on field data -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- Detection and attribution of flood responses to precipitation change and urbanization: a case study in Qinhuai River Basin, Southeast China -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Selection of flood series -- Detect trend of the flood series -- Frequency analysis -- Attribution analysis -- RESULTS -- Changes in characteristics of flood series from the baseline period to the urbanization period -- Trends of flood series from the baseline period to the urbanization period -- Changes in the return period of flood series from the baseline period to the urbanization period -- Evaluation of causative precipitation and urbanization impacts on changes in flood size -- DISCUSSION -- Effects of two different sampling methods on flood change evaluation -- Attribution of trends in flood time series -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Usage of SIMWE model to model urban overland flood: a case study in Oslo -- ABSTRACT -- INTRODUCTION -- METHODS -- SIMWE model -- Classification flood risk levels of urban flood -- STUDY AREA AND DATA -- Study area -- Data -- A case study at Grefsen -- RESULTS -- Inundation area and water depth -- Classification of urban flood risks -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES.
Description based on publisher supplied metadata and other sources.
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
Electronic books.
Alfredsen, Knut.
Print version: Engeland, Kolbjø Hydrology and Water Resources Management in a Changing World London : IWA Publishing,c2020 9781789062168
ProQuest (Firm)
https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=6978150 Click to View
language English
format eBook
author Engeland, Kolbjø.
spellingShingle Engeland, Kolbjø.
Hydrology and Water Resources Management in a Changing World.
In Focus - Special Book Series
Cover -- Contents -- Editorial: Hydrology and water resources management in a changing world -- ACKNOWLEDGEMENTS -- REFERENCES -- A dynamic river network method for the prediction of floods using a parsimonious rainfall-runoff model -- ABSTRACT -- INTRODUCTION -- METHODOLOGY -- Study catchments and data -- The DDD rainfall-runoff model -- Subsurface -- Runoff dynamics -- Model parameters and calibration -- Dynamic river network routine -- Correlation between Ac and Fc with environmental factors -- RESULTS -- Performance of DDD with and without dynamic river network -- Correlation between Ac and Fc with environmental factors -- DISCUSSION -- Dynamic river networks -- Correlation of Ac and Fc with environmental factors -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Testing the applicability of physiographic classification methods toward improving precipitation phase determination in conceptual models -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- METHODS -- Original-automated classification - all sites -- New-automated method - all sites -- Semi-manual method - all sites -- Relief versus elevation - mountain and hill sites only -- Station radius size - mountain and hill sites only -- Calculations -- RESULTS -- All sites - comparison of three methods -- Mountain and hill sites - relief versus elevation -- Mountain and hill sites - station radius size -- DISCUSSION -- Automated versus semi-manual methods -- Refinement of classification for topographically complex regions -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Precipitation phase uncertainty in cold region conceptual models resulting from meteorological forcing time-step intervals -- ABSTRACT -- INTRODUCTION -- METHOD -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Can model-based data products replace gauge data as input to the hydrological model? -- ABSTRACT.
INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHODS -- Data comparison -- HBV model -- Performance evaluation of datasets -- RESULTS -- Data comparison -- Performance in simulating the hydrological response -- Parameter uncertainty -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- CONFLICT OF INTEREST -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Evaluation of global forcing datasets for hydropower inflow simulation in Nepal -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- DATA AND METHODS -- Meteorological forcing data -- Observed data -- Reanalysis and regional climate model data -- Topographical and land cover datasets -- Spatial interpolation of observed and gridded forcing data -- Hydrological model -- Gamma snow -- Parameters and calibration -- Water balance estimation -- Model performance evaluation -- RESULTS -- Meteorological forcing data analysis -- Model parameters -- Evaluation of discharge simulation using different forcing datasets -- Water balance analysis -- DISCUSSION -- Discussion on model parameters -- Potential factors controlling hydrological model efficiency during model calibration and validation -- Discussion on the water balance analysis -- Uncertainty in the model simulation and observation -- CONCLUSIONS -- FUNDING -- ACKNOWLEDGEMENT -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Improving hydropower inflow forecasts by assimilating snow data -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Refsdal catchment -- Model forcing data -- Snow and inflow observations -- METHODS -- METHODS -- Model description -- Data assimilation algorithm -- Forcing ensemble generation -- Description of experiments -- RESULTS -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Reproducing different types of changes in hydrological indicators with rainfall-runoff models -- ABSTRACT -- INTRODUCTION -- METHODOLOGY.
Datasets and catchments -- Hydrological model -- Indices of hydrological alteration -- Study set-up -- Estimation of changes in the hydrological indices -- Evaluation metrics -- Data analysis -- RESULTS AND DISCUSSION -- How do models calibrated with different objective functions differ in their ability to reproduce IHAs? -- Which objective function is most suitable for modelling IHA changes? -- How well can we estimate the direction of IHA changes? -- How well can we estimate the magnitude of IHA changes? -- Analysing the impact of the direction of change on the reproducibility of IHA changes -- Identification of catchment descriptors influencing the quality of the IHA estimates -- Limitations of the study -- SUMMARY AND CONCLUSIONS -- DATA AVAILABILITY STATEMENT -- ACKNOWLEDGEMENTS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Uncertainty of annual runoff projections in Lithuanian rivers under a future climate -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Response of melt water and rainfall runoff to climate change and their roles in controlling streamflow changes of the two upstream basins over the Tibetan Plateau -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHOD -- Hydrological model -- Model parameters -- Trends and attribution analyses -- RESULTS -- Model validation -- Runoff components -- The controlling roles of runoff components in the trend of river flow for the past 50 years -- DISCUSSION -- The hydrological role of melt runoff -- Model uncertainty -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- How extreme can unit discharge become in steep Norwegian catchments? -- ABSTRACT -- INTRODUCTION -- Norwegian floods -- European flash floods -- The study area and the flood event -- METHODS AND DATA.
Hydraulic modelling and data for estimation of the peak flood discharge -- Methods and data for estimating the precipitation -- Rainfall-runoff modelling and data for estimating the peak discharge -- RESULTS -- Calculated discharge at the dam crest -- Simulated precipitation and discharge -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Features and causes of catastrophic floods in the Nemunas River basin -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- Hydrological characteristics of investigated floods -- Characteristics of the meteorological conditions before catastrophic floods in 1958 and 1979 -- Spatial distribution of meteorological conditions in the Nemunas River basin -- Variability and spatial distribution of runoff coefficients in WGS catchments of the Nemunas River basin -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Risk assessment for areas prone to flooding and subsidence: a case study from Bergen, Western Norway -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Drainage system in Bergen city -- Flood modelling -- Present-day storm surge -- Subsidence data -- METHODOLOGY - RISK ASSESSMENT APPROACH -- Description of the simple grid overlay method (1) -- Description of the 'hot spot analysis' with aggregated flood areas method (2) -- RESULTS AND DISCUSSION -- Datasets and selected methods for analysis -- Subsidence data -- Flood data -- Simple grid overlay - method 1 -- 'Hot spot analysis' - method 2 -- Risk assessment map combined with the existing drainage system -- Risk assessment as a tool for end-users -- CONCLUSIONS -- Further work -- ACKNOWLEDGEMENTS -- REFERENCES -- Limitations in using runoff coefficients for green and gray roof design -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Laboratory measurements -- Field measurements.
RESULTS AND DISCUSSION -- Laboratory measured runoff coefficients -- Runoff coefficients based on field data -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- Detection and attribution of flood responses to precipitation change and urbanization: a case study in Qinhuai River Basin, Southeast China -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Selection of flood series -- Detect trend of the flood series -- Frequency analysis -- Attribution analysis -- RESULTS -- Changes in characteristics of flood series from the baseline period to the urbanization period -- Trends of flood series from the baseline period to the urbanization period -- Changes in the return period of flood series from the baseline period to the urbanization period -- Evaluation of causative precipitation and urbanization impacts on changes in flood size -- DISCUSSION -- Effects of two different sampling methods on flood change evaluation -- Attribution of trends in flood time series -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Usage of SIMWE model to model urban overland flood: a case study in Oslo -- ABSTRACT -- INTRODUCTION -- METHODS -- SIMWE model -- Classification flood risk levels of urban flood -- STUDY AREA AND DATA -- Study area -- Data -- A case study at Grefsen -- RESULTS -- Inundation area and water depth -- Classification of urban flood risks -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES.
author_facet Engeland, Kolbjø.
Alfredsen, Knut.
author_variant k e ke
author2 Alfredsen, Knut.
author2_variant k a ka
author2_role TeilnehmendeR
author_sort Engeland, Kolbjø.
title Hydrology and Water Resources Management in a Changing World.
title_full Hydrology and Water Resources Management in a Changing World.
title_fullStr Hydrology and Water Resources Management in a Changing World.
title_full_unstemmed Hydrology and Water Resources Management in a Changing World.
title_auth Hydrology and Water Resources Management in a Changing World.
title_new Hydrology and Water Resources Management in a Changing World.
title_sort hydrology and water resources management in a changing world.
series In Focus - Special Book Series
series2 In Focus - Special Book Series
publisher IWA Publishing,
publishDate 2020
physical 1 online resource (246 pages)
edition 1st ed.
contents Cover -- Contents -- Editorial: Hydrology and water resources management in a changing world -- ACKNOWLEDGEMENTS -- REFERENCES -- A dynamic river network method for the prediction of floods using a parsimonious rainfall-runoff model -- ABSTRACT -- INTRODUCTION -- METHODOLOGY -- Study catchments and data -- The DDD rainfall-runoff model -- Subsurface -- Runoff dynamics -- Model parameters and calibration -- Dynamic river network routine -- Correlation between Ac and Fc with environmental factors -- RESULTS -- Performance of DDD with and without dynamic river network -- Correlation between Ac and Fc with environmental factors -- DISCUSSION -- Dynamic river networks -- Correlation of Ac and Fc with environmental factors -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Testing the applicability of physiographic classification methods toward improving precipitation phase determination in conceptual models -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- METHODS -- Original-automated classification - all sites -- New-automated method - all sites -- Semi-manual method - all sites -- Relief versus elevation - mountain and hill sites only -- Station radius size - mountain and hill sites only -- Calculations -- RESULTS -- All sites - comparison of three methods -- Mountain and hill sites - relief versus elevation -- Mountain and hill sites - station radius size -- DISCUSSION -- Automated versus semi-manual methods -- Refinement of classification for topographically complex regions -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Precipitation phase uncertainty in cold region conceptual models resulting from meteorological forcing time-step intervals -- ABSTRACT -- INTRODUCTION -- METHOD -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Can model-based data products replace gauge data as input to the hydrological model? -- ABSTRACT.
INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHODS -- Data comparison -- HBV model -- Performance evaluation of datasets -- RESULTS -- Data comparison -- Performance in simulating the hydrological response -- Parameter uncertainty -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- CONFLICT OF INTEREST -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Evaluation of global forcing datasets for hydropower inflow simulation in Nepal -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- DATA AND METHODS -- Meteorological forcing data -- Observed data -- Reanalysis and regional climate model data -- Topographical and land cover datasets -- Spatial interpolation of observed and gridded forcing data -- Hydrological model -- Gamma snow -- Parameters and calibration -- Water balance estimation -- Model performance evaluation -- RESULTS -- Meteorological forcing data analysis -- Model parameters -- Evaluation of discharge simulation using different forcing datasets -- Water balance analysis -- DISCUSSION -- Discussion on model parameters -- Potential factors controlling hydrological model efficiency during model calibration and validation -- Discussion on the water balance analysis -- Uncertainty in the model simulation and observation -- CONCLUSIONS -- FUNDING -- ACKNOWLEDGEMENT -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Improving hydropower inflow forecasts by assimilating snow data -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Refsdal catchment -- Model forcing data -- Snow and inflow observations -- METHODS -- METHODS -- Model description -- Data assimilation algorithm -- Forcing ensemble generation -- Description of experiments -- RESULTS -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Reproducing different types of changes in hydrological indicators with rainfall-runoff models -- ABSTRACT -- INTRODUCTION -- METHODOLOGY.
Datasets and catchments -- Hydrological model -- Indices of hydrological alteration -- Study set-up -- Estimation of changes in the hydrological indices -- Evaluation metrics -- Data analysis -- RESULTS AND DISCUSSION -- How do models calibrated with different objective functions differ in their ability to reproduce IHAs? -- Which objective function is most suitable for modelling IHA changes? -- How well can we estimate the direction of IHA changes? -- How well can we estimate the magnitude of IHA changes? -- Analysing the impact of the direction of change on the reproducibility of IHA changes -- Identification of catchment descriptors influencing the quality of the IHA estimates -- Limitations of the study -- SUMMARY AND CONCLUSIONS -- DATA AVAILABILITY STATEMENT -- ACKNOWLEDGEMENTS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Uncertainty of annual runoff projections in Lithuanian rivers under a future climate -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Response of melt water and rainfall runoff to climate change and their roles in controlling streamflow changes of the two upstream basins over the Tibetan Plateau -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHOD -- Hydrological model -- Model parameters -- Trends and attribution analyses -- RESULTS -- Model validation -- Runoff components -- The controlling roles of runoff components in the trend of river flow for the past 50 years -- DISCUSSION -- The hydrological role of melt runoff -- Model uncertainty -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- How extreme can unit discharge become in steep Norwegian catchments? -- ABSTRACT -- INTRODUCTION -- Norwegian floods -- European flash floods -- The study area and the flood event -- METHODS AND DATA.
Hydraulic modelling and data for estimation of the peak flood discharge -- Methods and data for estimating the precipitation -- Rainfall-runoff modelling and data for estimating the peak discharge -- RESULTS -- Calculated discharge at the dam crest -- Simulated precipitation and discharge -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Features and causes of catastrophic floods in the Nemunas River basin -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- Hydrological characteristics of investigated floods -- Characteristics of the meteorological conditions before catastrophic floods in 1958 and 1979 -- Spatial distribution of meteorological conditions in the Nemunas River basin -- Variability and spatial distribution of runoff coefficients in WGS catchments of the Nemunas River basin -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Risk assessment for areas prone to flooding and subsidence: a case study from Bergen, Western Norway -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Drainage system in Bergen city -- Flood modelling -- Present-day storm surge -- Subsidence data -- METHODOLOGY - RISK ASSESSMENT APPROACH -- Description of the simple grid overlay method (1) -- Description of the 'hot spot analysis' with aggregated flood areas method (2) -- RESULTS AND DISCUSSION -- Datasets and selected methods for analysis -- Subsidence data -- Flood data -- Simple grid overlay - method 1 -- 'Hot spot analysis' - method 2 -- Risk assessment map combined with the existing drainage system -- Risk assessment as a tool for end-users -- CONCLUSIONS -- Further work -- ACKNOWLEDGEMENTS -- REFERENCES -- Limitations in using runoff coefficients for green and gray roof design -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Laboratory measurements -- Field measurements.
RESULTS AND DISCUSSION -- Laboratory measured runoff coefficients -- Runoff coefficients based on field data -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- Detection and attribution of flood responses to precipitation change and urbanization: a case study in Qinhuai River Basin, Southeast China -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Selection of flood series -- Detect trend of the flood series -- Frequency analysis -- Attribution analysis -- RESULTS -- Changes in characteristics of flood series from the baseline period to the urbanization period -- Trends of flood series from the baseline period to the urbanization period -- Changes in the return period of flood series from the baseline period to the urbanization period -- Evaluation of causative precipitation and urbanization impacts on changes in flood size -- DISCUSSION -- Effects of two different sampling methods on flood change evaluation -- Attribution of trends in flood time series -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Usage of SIMWE model to model urban overland flood: a case study in Oslo -- ABSTRACT -- INTRODUCTION -- METHODS -- SIMWE model -- Classification flood risk levels of urban flood -- STUDY AREA AND DATA -- Study area -- Data -- A case study at Grefsen -- RESULTS -- Inundation area and water depth -- Classification of urban flood risks -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES.
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fullrecord <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>10555nam a22004573i 4500</leader><controlfield tag="001">5006978150</controlfield><controlfield tag="003">MiAaPQ</controlfield><controlfield tag="005">20240229073846.0</controlfield><controlfield tag="006">m o d | </controlfield><controlfield tag="007">cr cnu||||||||</controlfield><controlfield tag="008">240229s2020 xx o ||||0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9781789062175</subfield><subfield code="q">(electronic bk.)</subfield></datafield><datafield tag="020" ind1=" " ind2=" "><subfield code="z">9781789062168</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)5006978150</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL6978150</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1203016481</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="082" ind1="0" ind2=" "><subfield code="a">551.48</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Engeland, Kolbjø.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Hydrology and Water Resources Management in a Changing World.</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">1st ed.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">London :</subfield><subfield code="b">IWA Publishing,</subfield><subfield code="c">2020.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">{copy}2020.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (246 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="490" ind1="1" ind2=" "><subfield code="a">In Focus - Special Book Series</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Cover -- Contents -- Editorial: Hydrology and water resources management in a changing world -- ACKNOWLEDGEMENTS -- REFERENCES -- A dynamic river network method for the prediction of floods using a parsimonious rainfall-runoff model -- ABSTRACT -- INTRODUCTION -- METHODOLOGY -- Study catchments and data -- The DDD rainfall-runoff model -- Subsurface -- Runoff dynamics -- Model parameters and calibration -- Dynamic river network routine -- Correlation between Ac and Fc with environmental factors -- RESULTS -- Performance of DDD with and without dynamic river network -- Correlation between Ac and Fc with environmental factors -- DISCUSSION -- Dynamic river networks -- Correlation of Ac and Fc with environmental factors -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Testing the applicability of physiographic classification methods toward improving precipitation phase determination in conceptual models -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- METHODS -- Original-automated classification - all sites -- New-automated method - all sites -- Semi-manual method - all sites -- Relief versus elevation - mountain and hill sites only -- Station radius size - mountain and hill sites only -- Calculations -- RESULTS -- All sites - comparison of three methods -- Mountain and hill sites - relief versus elevation -- Mountain and hill sites - station radius size -- DISCUSSION -- Automated versus semi-manual methods -- Refinement of classification for topographically complex regions -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Precipitation phase uncertainty in cold region conceptual models resulting from meteorological forcing time-step intervals -- ABSTRACT -- INTRODUCTION -- METHOD -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Can model-based data products replace gauge data as input to the hydrological model? -- ABSTRACT.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHODS -- Data comparison -- HBV model -- Performance evaluation of datasets -- RESULTS -- Data comparison -- Performance in simulating the hydrological response -- Parameter uncertainty -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- CONFLICT OF INTEREST -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Evaluation of global forcing datasets for hydropower inflow simulation in Nepal -- ABSTRACT -- INTRODUCTION -- STUDY AREA -- DATA AND METHODS -- Meteorological forcing data -- Observed data -- Reanalysis and regional climate model data -- Topographical and land cover datasets -- Spatial interpolation of observed and gridded forcing data -- Hydrological model -- Gamma snow -- Parameters and calibration -- Water balance estimation -- Model performance evaluation -- RESULTS -- Meteorological forcing data analysis -- Model parameters -- Evaluation of discharge simulation using different forcing datasets -- Water balance analysis -- DISCUSSION -- Discussion on model parameters -- Potential factors controlling hydrological model efficiency during model calibration and validation -- Discussion on the water balance analysis -- Uncertainty in the model simulation and observation -- CONCLUSIONS -- FUNDING -- ACKNOWLEDGEMENT -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Improving hydropower inflow forecasts by assimilating snow data -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Refsdal catchment -- Model forcing data -- Snow and inflow observations -- METHODS -- METHODS -- Model description -- Data assimilation algorithm -- Forcing ensemble generation -- Description of experiments -- RESULTS -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Reproducing different types of changes in hydrological indicators with rainfall-runoff models -- ABSTRACT -- INTRODUCTION -- METHODOLOGY.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Datasets and catchments -- Hydrological model -- Indices of hydrological alteration -- Study set-up -- Estimation of changes in the hydrological indices -- Evaluation metrics -- Data analysis -- RESULTS AND DISCUSSION -- How do models calibrated with different objective functions differ in their ability to reproduce IHAs? -- Which objective function is most suitable for modelling IHA changes? -- How well can we estimate the direction of IHA changes? -- How well can we estimate the magnitude of IHA changes? -- Analysing the impact of the direction of change on the reproducibility of IHA changes -- Identification of catchment descriptors influencing the quality of the IHA estimates -- Limitations of the study -- SUMMARY AND CONCLUSIONS -- DATA AVAILABILITY STATEMENT -- ACKNOWLEDGEMENTS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Uncertainty of annual runoff projections in Lithuanian rivers under a future climate -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- CONCLUSIONS -- REFERENCES -- Response of melt water and rainfall runoff to climate change and their roles in controlling streamflow changes of the two upstream basins over the Tibetan Plateau -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Study area -- Data -- METHOD -- Hydrological model -- Model parameters -- Trends and attribution analyses -- RESULTS -- Model validation -- Runoff components -- The controlling roles of runoff components in the trend of river flow for the past 50 years -- DISCUSSION -- The hydrological role of melt runoff -- Model uncertainty -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- How extreme can unit discharge become in steep Norwegian catchments? -- ABSTRACT -- INTRODUCTION -- Norwegian floods -- European flash floods -- The study area and the flood event -- METHODS AND DATA.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Hydraulic modelling and data for estimation of the peak flood discharge -- Methods and data for estimating the precipitation -- Rainfall-runoff modelling and data for estimating the peak discharge -- RESULTS -- Calculated discharge at the dam crest -- Simulated precipitation and discharge -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Features and causes of catastrophic floods in the Nemunas River basin -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- RESULTS AND DISCUSSION -- Hydrological characteristics of investigated floods -- Characteristics of the meteorological conditions before catastrophic floods in 1958 and 1979 -- Spatial distribution of meteorological conditions in the Nemunas River basin -- Variability and spatial distribution of runoff coefficients in WGS catchments of the Nemunas River basin -- CONCLUSIONS -- SUPPLEMENTARY MATERIAL -- REFERENCES -- Risk assessment for areas prone to flooding and subsidence: a case study from Bergen, Western Norway -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- Drainage system in Bergen city -- Flood modelling -- Present-day storm surge -- Subsidence data -- METHODOLOGY - RISK ASSESSMENT APPROACH -- Description of the simple grid overlay method (1) -- Description of the 'hot spot analysis' with aggregated flood areas method (2) -- RESULTS AND DISCUSSION -- Datasets and selected methods for analysis -- Subsidence data -- Flood data -- Simple grid overlay - method 1 -- 'Hot spot analysis' - method 2 -- Risk assessment map combined with the existing drainage system -- Risk assessment as a tool for end-users -- CONCLUSIONS -- Further work -- ACKNOWLEDGEMENTS -- REFERENCES -- Limitations in using runoff coefficients for green and gray roof design -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Laboratory measurements -- Field measurements.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">RESULTS AND DISCUSSION -- Laboratory measured runoff coefficients -- Runoff coefficients based on field data -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- Detection and attribution of flood responses to precipitation change and urbanization: a case study in Qinhuai River Basin, Southeast China -- ABSTRACT -- INTRODUCTION -- STUDY AREA AND DATA -- METHODS -- Selection of flood series -- Detect trend of the flood series -- Frequency analysis -- Attribution analysis -- RESULTS -- Changes in characteristics of flood series from the baseline period to the urbanization period -- Trends of flood series from the baseline period to the urbanization period -- Changes in the return period of flood series from the baseline period to the urbanization period -- Evaluation of causative precipitation and urbanization impacts on changes in flood size -- DISCUSSION -- Effects of two different sampling methods on flood change evaluation -- Attribution of trends in flood time series -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES -- Usage of SIMWE model to model urban overland flood: a case study in Oslo -- ABSTRACT -- INTRODUCTION -- METHODS -- SIMWE model -- Classification flood risk levels of urban flood -- STUDY AREA AND DATA -- Study area -- Data -- A case study at Grefsen -- RESULTS -- Inundation area and water depth -- Classification of urban flood risks -- DISCUSSION -- CONCLUSIONS -- ACKNOWLEDGEMENTS -- REFERENCES.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield></datafield><datafield tag="655" ind1=" " ind2="4"><subfield code="a">Electronic books.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Alfredsen, Knut.</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">Engeland, Kolbjø</subfield><subfield code="t">Hydrology and Water Resources Management in a Changing World</subfield><subfield code="d">London : IWA Publishing,c2020</subfield><subfield code="z">9781789062168</subfield></datafield><datafield tag="797" ind1="2" ind2=" "><subfield code="a">ProQuest (Firm)</subfield></datafield><datafield tag="830" ind1=" " ind2="0"><subfield code="a">In Focus - Special Book Series</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="u">https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=6978150</subfield><subfield code="z">Click to View</subfield></datafield></record></collection>

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