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Klappentext: Tidal freshwater wetlands occur in the upper part of estuaries, where fresh water from the river is influenced by tides. Sedimentation is prominent in the tidal freshwater zone; mud flats become elevated and may become fertile agriculture areas after reclamation. Many prominent cities (e.g., Hamburg, Rotterdam, Philadelphia, Washington, DC) were founded in or near tidal freshwater systems, resulting in their loss or degradation. A number of characteristic plant and animal species occur in tidal freshwater wetlands, reflecting their unique biological, chemical, and physical processes. These communities are distributed over different subsystems, such as the river, tidal creeks, reed and bulrush marshes, higher marshes, and various types of tidal swamp forest. Productivity of tidal freshwater wetlands is similar to that of salt marshes but plant and macrofaunal diversity are higher. Sets of case studies illustrate various conditions from Europe and North America. While many tidal freshwater wetlands have disappeared, during the last decades restoration projects have been initiated to conserve this diverse and productive ecosystem.

"Freshwater is in great supply across much of Canada. However, competing and changing demands on its use are leading to ever more complex political arrangements. This volume offers an integrated survey of that complexity, combining historical and contemporary cases in a conceptually-informed exploration of water politics. It offers a set of tools, frameworks, and applications that enable readers to recognize and explore the political dimensions of freshwater

There is a general lack of understanding of the role of lipids in aquatic ecosystems. The fundamental purpose of this book is to synthesize the divergent literature on aquatic lipids into a coordinated, digestible form. A large part of the book addresses lipid composition and production in freshwater organisms, with chapters on phytoplankton, zooplankton and benthic invertebrates. A common theme throughout the book is the function of lipids in aquatic food webs, with a chapter devoted exclusively to lipids as indicators of health in fish populations. A complementary chapter highlights the role of lipids and essential fatty acids in mariculture. Methodologies to determine the lipid content of aquatic samples and suggestions as to the utility of fatty acids as trophic markers are provided. There is a chapter on the role of lipids in the bioaccumulation and bioconcentration of toxicants and another on the relationships between lipids and surface films and foams. The final chapter highlights the similarities and differences between lipids of marine and freshwater origin. Students and researchers in ecology, phycology, aquatic toxicology, physiological ecology and limnology will find this an invaluable guide and reference

Cover -- Copyright -- Table of contents -- Foreword -- Acknowledgements -- Abbreviations -- Executive Summary -- Advances in monitoring can help close the knowledge gap and support policy responses -- Moving towards proactive policy action to curb pharmaceutical pollution -- OECD Policy Recommendations on addressing pharmaceutical residues in freshwater -- Cross-cutting recommendations -- Source-directed recommendations. Pharmaceutical life cycle stages: design, marketing authorisation, manufacturing, post-authorisation -- Use-orientated recommendations. Pharmaceutical life cycle stages: Prescription and use -- End-of-pipe recommendations. Pharmaceutical life cycle stages: collection and disposal, and wastewater treatment and reuse -- 1. Defining the challenge of managing pharmaceuticals in water -- 1.1. Key messages -- 1.2. Introduction -- 1.3. Origins, entry-pathways, sinks and concentration patterns of pharmaceuticals in the environment -- 1.4. Effects of pharmaceuticals in the environment on human and freshwater ecosystem health -- References -- Notes -- 2. Opportunities to build a policy-relevant knowledge base -- 2.1. Key messages -- 2.2. Environmental risk assessment and authorisation of pharmaceuticals -- 2.3. Existing frameworks for monitoring pharmaceuticals in water -- 2.4. Advances in water quality monitoring and potential benefits for risk assessments and water quality policy making -- 2.5. The added value of system modelling -- References -- Notes -- 3. Emerging policy instruments for the control of pharmaceuticals in water -- 3.1. Key messages -- 3.2. Introduction -- 3.3. Source-directed approaches -- 3.4. Use-orientated approaches -- 3.5. End-of-pipe measures -- References -- 4. Recommendations for the management of pharmaceuticals in freshwater.

One singularity of northwestern Europe (NWE) is that severe droughts are rare events in the region and water scarcity has hardly been experienced in its history. The DROP pilot sites are not exceptions to this context. Although the lack of a drought history in wet areas can explain why drought and water scarcity are not necessarily the focus of (if ever considered in) river basin management plans, it must be noted that freshwater availability for drinking water provision remains a priority stake in both quantitative and qualitative aspects. Providing a reliable and safe supply of drinking water may thus be a leading entryway to the development of drought risk awareness and drought adaptation measures in a river basin. When such essential resource is threatened and the competition for water among users increases, there is a good chance that reflections and changes will be triggered. Water use conflicts and drinking water supply threats may arise due to increased water demand, but also due to decreased water availability. The later may occur because of natural climate variability, i.e., drier years than average, or as the result of the impact of climate change on local water resources. Climate change awareness is then an important asset to manage water availability. Where climate change awareness is low and adaptation measures are basically inexistent, social and political responses to drought adaptation may be slow and inefficient. However, even in those cases where climate change awareness is still low in general society, water authorities and other stakeholders are conscious that water demand tends to intensify with population and economic growth, rendering water scarcity conceivable and even foreseeable. Freshwater availability for drinking water supply is therefore an issue that can motivate the introduction of drought and water scarcity risks into the political and public agenda , even in " drought-scarce " regions. This chapter highlights the links between drought governance and the vulnerability of ...

One singularity of northwestern Europe (NWE) is that severe droughts are rare events in the region and water scarcity has hardly been experienced in its history. The DROP pilot sites are not exceptions to this context. Although the lack of a drought history in wet areas can explain why drought and water scarcity are not necessarily the focus of (if ever considered in) river basin management plans, it must be noted that freshwater availability for drinking water provision remains a priority stake in both quantitative and qualitative aspects. Providing a reliable and safe supply of drinking water may thus be a leading entryway to the development of drought risk awareness and drought adaptation measures in a river basin. When such essential resource is threatened and the competition for water among users increases, there is a good chance that reflections and changes will be triggered. Water use conflicts and drinking water supply threats may arise due to increased water demand, but also due to decreased water availability. The later may occur because of natural climate variability, i.e., drier years than average, or as the result of the impact of climate change on local water resources. Climate change awareness is then an important asset to manage water availability. Where climate change awareness is low and adaptation measures are basically inexistent, social and political responses to drought adaptation may be slow and inefficient. However, even in those cases where climate change awareness is still low in general society, water authorities and other stakeholders are conscious that water demand tends to intensify with population and economic growth, rendering water scarcity conceivable and even foreseeable. Freshwater availability for drinking water supply is therefore an issue that can motivate the introduction of drought and water scarcity risks into the political and public agenda , even in " drought-scarce " regions. This chapter highlights the links between drought governance and the vulnerability of ...

Chapter 1. Introduction -- Chapter 2. The Aquatic Habitat -- Chapter 3. Life Forms of Aquatic Organisms -- Chapter 4. Ecophysiology -- Chapter 5. Populations -- Chapter 6. Interactions -- Chapter 7. Communities and Ecosystems -- Chapter 8. Biogeochemistry -- Chapter 9. Human Impacts.

This book is about freshwater fish in streams, lakes, reservoirs, and special habitats around the world. It addresses approximately twenty major topics in freshwater fish ecology in a format suitable for use in graduate-level courses. The book focuses on basic ecology and contains much data from fisheries ecology. Dr. Matthews explains the way in which empirical studies, theoretical concepts, and experimental evaluations blend into the current state-of-the-art with respect to each major topic, and provides original data and interpretations on some points as well as new syntheses. Each chapter contains empirical information, a synthesis, and a summary

International audience ; This chapter explores the links between drought governance and the vulnerability of freshwater for drinking water supply, with a focus on drought adaptation. The public awareness of drought and water scarcity risks in such a flood-prone region is still low. However, the fact that fresh water availability for drinking water supply is threatened not only by a decrease in water availability, related to climate variability and climate change, but also due to the increase in water demand, related to population and economic growth, this issue can potentially motivate the introduction of drought and water scarcity risks into the public and political agenda. Even if the northwestern European countries in this study have similar climatic settings, other aspects of their contexts can be quite contrasting in each pilot case. Depending on where the freshwater reservoir is placed, upstream or downstream within the catchment, different levels and scales are mobilized to tackle water management challenges. The priority hierarchy of water uses in case of drought can also be surprisingly different in neighboring countries. Even if some actions, as the expansion of spatial water networks connectivity, have started to improve the robustness of drinking water systems, the solutions that require a paradigm shift to a most systemic strategy including water demand control remain out of the agenda and could greatly improve the resilience of the region to drought and water scarcity risk.