The Seine River Basin.
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| Superior document: | The Handbook of Environmental Chemistry Series ; v.90 |
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| TeilnehmendeR: | |
| Place / Publishing House: | Cham : : Springer International Publishing AG,, 2021. ©2021. |
| Year of Publication: | 2021 |
| Edition: | 1st ed. |
| Language: | English |
| Series: | The Handbook of Environmental Chemistry Series
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| Online Access: | |
| Physical Description: | 1 online resource (430 pages) |
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Table of Contents:
- Intro
- Series Preface
- Preface
- Contents
- Trajectories of the Seine River Basin
- 1 Introduction: River Systems in the Anthropocene
- 2 Multiple and Heavy Pressures on the Seine River System
- 2.1 The Hydrological Features of the Seine River Basin
- 2.2 Evolution of the Basin Population
- 2.3 The Land Cover
- 2.4 Industries and Navigation
- 3 PIREN-Seine Research on the River Basin Trajectories
- 3.1 Circulation of Material Within the Basin
- 3.2 Multiple Long-Term Trajectories of River Control Factors
- 3.3 Trajectories of River State and Societal Response to River Issues
- 4 Structuration of the Socioecological Research in the Context of the PIREN-Seine
- 4.1 Evolution of Main Research Themes
- 4.2 Present Structuration of the PIREN-Seine Research Programme
- 5 The Spatio-Temporal Scales of the Research Themes Selected in This Publication
- References
- The Evolution of the Seine Basin Water Bodies Through Historical Maps
- 1 Introduction
- 2 The Physical Anthropogenic Transformation of the Seine River (1800-2010)
- 2.1 Transformations of Seine Water Bodies in the Early 1800s and Their Drivers
- 2.2 Current State of the Seine River Water Bodies
- 3 Historical Maps: A Tool for Quantifying the Physical Changes of Water Bodies
- 3.1 The Inventory and Critical Analysis of River Maps
- 3.2 General Use of Maps to Document River Environmental Changes
- 4 Historical Trajectories of Selected Water Bodies in the Seine River Basin
- 4.1 Stream Network Modification on the Versailles-Saclay Plateau (1670-1860)
- 4.2 Man-Made Heterogeneity of the Floodplain: Channelisation and Sandpits in the Bassée Floodplain
- 4.3 Simplification of Seine River Channel and Loss of Islands
- 5 Conclusion and Perspectives
- References
- Pluri-annual Water Budget on the Seine Basin: Past, Current and Future Trends
- 1 Introduction.
- 2 Historical Records of the Seine River Discharge in Paris
- 3 Development of the Seine Basin Model
- 3.1 CaWaQS Model
- 3.2 Implementation of the Seine Basin Model
- 4 Current State of the Seine Hydrosystem
- 4.1 General Two-Step Calibration Strategy of Hydrosystem Models
- 4.2 Average Water Budget 1993-2010
- 5 A Two-Century-Long Trajectory of the Seine Basin
- 5.1 Estimating Land Cover Changes
- 5.2 Estimating Anthropogenic Water Uptake
- 5.3 Climate Scenarios
- 5.3.1 Reanalysis of the Past
- 5.3.2 Selecting an Appropriate Climate Product for the Projection
- 5.4 Water Resources Trajectory from the 1900s to the 2100s
- 5.4.1 Water Budget and Recharge Modes
- 5.4.2 Surface Water-Groundwater Exchanges
- 5.4.3 Hydrological Regimes
- 6 Conclusion
- References
- The Seine Watershed Water-Agro-Food System: Long-Term Trajectories of C, N and P Metabolism
- 1 Introduction
- 2 Material and Methods
- 3 Trajectory and Biogeochemical Functioning of the Agricultural System
- 3.1 Long-Term Changes in the Structure of the Northern France Agricultural System
- 3.2 Changes in Land Use and Crop Rotations
- 3.3 Yield-Fertilisation Relationship
- 4 Soil Biogeochemistry Reflects This Trajectory
- 4.1 Soil Organic Carbon Storage
- 4.2 Agricultural Greenhouse Gas Emissions
- 4.3 Nitrogen Soil Storage and Leaching
- 4.4 Phosphorus Dynamics and Erosion
- 5 Hydrosystem Response to Agricultural Trajectories
- 5.1 Aquifer Storage of Nitrogen
- 5.2 Riparian Processes
- 5.3 Point and Diffuse Sources of Nutrients to the River System
- 5.4 N and P Budget of the Water-Agro-Food System
- 6 Conclusion and Scenarios for the Future
- 6.1 The Importance of Long-Term Storage Processes
- 6.2 The Importance of the Structural Pattern of Agro-Food Systems on the Environmental Imprint
- References.
- Past and Future Trajectories of Human Excreta Management Systems: Paris in the Nineteenth to Twenty-First Centuries
- 1 Introduction
- 1.1 Context
- 1.2 Temporal and Geographical Frame
- 1.3 Methodology
- 2 Resource-Oriented Management Leading to Circularity (1800-1905)
- 2.1 Intention Without Achievement (1800-1868)
- 2.2 Successful Mutualism (1868-1905)
- 3 Waste-Oriented Management Leading to Linearity (1905 to Today)
- 3.1 The Sacrifice of the Seine (1905-1968)
- 3.2 Pollution Treatment by Resource Destruction (1968 to Today)
- 4 Future Human Excreta Management Scenarios
- 4.1 Lock-In and Opportunities
- 4.2 Recovering Circularity Through Source Separation
- 5 Conclusion
- References
- How Should Agricultural Practices Be Integrated to Understand and Simulate Long-Term Pesticide Contamination in the Seine Rive...
- 1 Introduction
- 2 Study Sites
- 2.1 Presentation of the Orgeval and Vesle Basins
- 2.2 Data Acquisition
- 3 Quantification of Past Pesticide Use
- 3.1 The Orgeval Case
- 3.2 The Vesle Case
- 4 The Orgeval Catchment Over Time
- 4.1 Long-Term Observed Contamination
- 4.2 Pesticide Fate Modelling with the STICS Crop Model
- 5 The Spatial Approach in the Vesle Catchment
- 6 Pesticides at the Seine River Basin Scale
- 7 Conclusion
- 8 Perspectives
- References
- Mass Balance of PAHs at the Scale of the Seine River Basin
- 1 Introduction
- 2 Material and Methods
- 2.1 Areas Studied
- 2.2 Dual-Scale Mass Balance Approach
- 2.3 Data Selection and Exploration
- 2.4 Flux Estimation Quality
- 3 Results
- 3.1 Urban Fluxes
- 3.1.1 Emissions to the Atmosphere
- 3.1.2 Atmospheric Deposition
- 3.1.3 Runoff
- 3.1.4 Domestic and Industrial Wastewater
- 3.1.5 Discharges from the Sewer System
- 3.1.6 Wastewater Treatment Plants
- 3.2 Rural Fluxes
- 3.2.1 Atmospheric Deposition.
- 3.2.2 Road Runoff Outside of Urban Areas
- 3.2.3 Stocks in Soils
- 3.2.4 Soil Erosion
- 3.2.5 Sediment Dredging
- 3.2.6 Storage in Reservoirs and Floodplains
- 3.2.7 Flux Transported by the Seine River
- 3.2.8 Estimation of Urban Fluxes at the Basin Scale
- 4 Discussion
- 5 Conclusions and Perspectives
- References
- Ecological Functioning of the Seine River: From Long-Term Modelling Approaches to High-Frequency Data Analysis
- 1 Introduction
- 2 A Modelling Approach for a Comprehensive Understanding of the Ecological Functioning of the Seine River
- 3 Long-Term Trends in Water Quality
- 3.1 Changes in Organic Pollution from Urban Point Sources
- 3.2 Long-Term Nutrient Contamination and Algal Growth
- 3.3 Modelling Nutrients and Phytoplankton Biomass
- 4 River Metabolisms: Autotrophy, Heterotrophy and CO2 Saturation
- 4.1 High-Frequency Analysis of Oxygen Data Along the Main Seine Stem
- 4.2 CO2 Supersaturation in the Seine River: Carbon Sources, Fate and Budget
- 5 Further Improvement of Water Quality
- 5.1 Progress Made in Wastewater Treatments
- 5.2 Acting on Diffuse Agricultural Sources to Improve Water Quality
- 5.3 Impact of the Seine River Nutrient Fluxes at the Coastal Zone
- 5.4 The Context of Climate Change
- 6 Conclusions and Perspectives
- References
- Aquatic Organic Matter in the Seine Basin: Sources, Spatio-Temporal Variability, Impact of Urban Discharges and Influence on M...
- 1 Introduction
- 2 Sources and Variability of Organic Matter in the Seine River Watershed
- 2.1 Context and Objectives
- 2.2 Methods for Characterising Organic Matter in River Water
- 2.3 Sources and Spatio-Temporal Variability of OM in the Seine River Basin
- 2.4 Impact of the Paris Conurbation Discharges on DOM Quantity and Quality in the Seine River.
- 3 Influence of Organic Matter on the Fate of Micro-pollutants and the Role Played by Urban Organic Matter
- 3.1 Context
- 3.2 Material and Methods
- 3.2.1 Sampling Points
- 3.2.2 Experimental Procedures
- 3.3 Characterisation of DOM Trace Metal-Binding Ability
- 3.3.1 Binding Site Modal Distribution
- 3.3.2 Me-DOM Stability Constants and Binding Site Density
- 3.4 Contribution of EfDOM from Seine-Aval WWTP to the Copper-Binding Site Flux in the Seine River Downstream of Paris
- 3.5 Modelling of Trace Metal Speciation in the Seine River Upstream and Downstream of the Paris Conurbation
- 3.6 Evaluation of the Role of DOM on Copper Bioavailability Toxicity to Daphnia magna
- 3.7 Effect of EfDOM on Trace Metal Sorption by Mineral Particles in Aquatic Systems Subjected to Strong Urban Pressure
- 3.8 Effect of EfDOM on PAH Adsorption by Mineral Particles in Aquatic Systems Subjected to Strong Urban Pressure
- 4 Conclusions and Perspectives
- References
- Experience Gained from Ecotoxicological Studies in the Seine River and Its Drainage Basin Over the Last Decade: Applicative Ex...
- 1 Introduction
- 2 Value of In Vitro Bioassays for an Ex Situ Evaluation of Water Contamination: The Case of Endocrine Disruptors
- 2.1 In Vitro Endocrine Disruptor Bioassays in Water Contamination Monitoring
- 2.2 Comparison of In Vitro Bioassays to Chemical Analysis in Water Contamination Monitoring
- 2.3 In Vitro Bioassays Applied to Sediment Matrix in Aquatic Environment Quality Monitoring
- 2.4 Conclusion
- 3 Biomarkers for the In Situ Biomonitoring of Water Contamination
- 3.1 Presentation of Sentinel Species and Their Advantages in Ecotoxicological Studies
- 3.2 Monitoring of Oxidative Stress in Fish Models
- 3.2.1 Introduction
- 3.2.2 Field Applications.
- 3.3 Value of Digestive Activities as Biomarkers in Two Aquatic Invertebrates: Application to the Seine River Basin.