Climate change and inland waters impacts and mitigation for ecosystems and societies
Climate change and inland waters: impacts and mitigation for ecosystems and societies

"Effects of global warming on the physical, chemical, ecological structure and function and biodiversity of freshwater ecosystems are not well understood and there are many opinions on how to adapt aquatic environments to global warming in order to minimize the negative effects of climate chang...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
1. Verfasser: Goldman, Charles Remington 1930- (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Chichester Wiley & Sons 2013
Schlagworte:
Climatic changes / Environmental aspects
Climatic changes / Social aspects
Freshwater ecology
Greenhouse gas mitigation
SCIENCE / Earth Sciences / Hydrology
Geowissenschaften
Gesellschaft
Klimaänderung
Umwelt
Aquatisches Ökosystem
Hydrologie
Binnengewässer
Aufsatzsammlung
Zusammenfassung:"Effects of global warming on the physical, chemical, ecological structure and function and biodiversity of freshwater ecosystems are not well understood and there are many opinions on how to adapt aquatic environments to global warming in order to minimize the negative effects of climate change. Climatic Change and Global Warming of Inland Waters presents a synthesis of the latest research on a whole range of inland water habitats - lakes, running water, wetlands - and offers novel and timely suggestions for future research, monitoring and adaptation strategies.A global approach, offered in this book, encompasses systems from the arctic to the Antarctic, including warm-water systems in the tropics and subtropics and presents a unique and useful source for all those looking for contemporary case studies and presentation of the latest research findings and discussion of mitigation and adaptation throughout the world. Edited by three of the leading limnologists in the field this book represents the latest developments with a focus not only on the impact of climate change on freshwater ecosystems but also offers a framework and suggestions for future management strategies and how these can be implemented in the future.Limnologists, Climate change biologists, fresh water ecologists, palaeoclimatologists and students taking relevant courses within the earth and environmental sciences will find this book invaluable. The book will also be of interest to planners, catchment managers and engineers looking for solutions to broader environmental problems but who need to consider freshwater ecology"--
Beschreibung:Research solicited from scientists who attended sessions organized by the World Water and Climate Network, WWCN in Nice, France, 2009
Includes bibliographical references and index
Machine generated contents note: pt. I Impacts on Physical, Chemical, and Biological Processes -- 1.Climate Change Impacts on the Hydrology and Biogeochemistry of Arctic Rivers / Alexander V. Zhulidov -- 1.1.Introduction -- 1.2.The pan-Arctic watershed -- 1.3.Observational data---historical to contemporary time series -- 1.4.Projections of future fluxes -- 1.5.Conclusions -- 1.6.Acknowledgments -- References -- 2.Climate Impacts on Arctic Lake Ecosystems / Katey M. Walter Anthony -- 2.1.Introduction -- 2.2.Physical impacts of climate change -- 2.3.Biogeochemical impacts of climate change -- 2.4.Biological impacts of climate change -- 2.5.Human impacts of climate change -- 2.6.Conclusions -- 2.7.Acknowledgments -- References -- 3.Trends in Hydrological and Hydrochemical Processes in Lake Baikal under Conditions of Modern Climate Change / V.M. Domysheva -- 3.1.Introduction -- 3.2.Air temperature -- 3.3.Surface water temperature (Tw) --
Contents note continued: 3.4.Water temperature of the Lake Baikal upper zone -- 3.5.Deep water zone temperature -- 3.6.River inflows to Lake Baikal -- 3.7.Lake Baikal ice regime -- 3.8.Effect of atmospheric circulation on climatic and hydrological processes at Lake Baikal during the present period -- 3.9.Problems of possible hydrological condition changes at Lake Baikal in the twenty-first century are attributed to global change -- 3.10.Nutrient changes in Lake Baikal---silica -- 3.11.Concentration dynamics of phosphate, nitrate and dissolved oxygen in Lake Baikal -- 3.12.Acknowledgements -- References -- 4.Hydrological Analysis of the Yellow River Basin, China / Yoshihiro Fukushima -- 4.1.Introduction -- 4.2.Climate and land use in the Yellow River basin -- 4.3.Precipitation numerical experiment -- 4.4.Numerical experiment of river runoff -- 4.5.Hydrological impact due to human-induced land-use changes -- 4.6.Long-term water balance in the Yellow River basin --
Contents note continued: 4.7.Water saving effect in the Yellow River basin -- 4.8.Conclusions -- 4.9.Acknowledgements -- References -- 5.Water Resources under Climate Change in the Yangtze River Basin / Tong Jiang -- 5.1.Introduction -- 5.2.Observed changes of precipitation and temperature -- 5.3.Observed changes of streamflow and flood/drought indices -- 5.4.Projections -- 5.5.Mitigating the negative effects of climatic change -- References -- 6.Biogeochemical Ecosystem Dynamics in Lake Biwa under Anthropogenic Impacts and Global Warming / Mitsuru Sakamoto -- 6.1.Introduction -- 6.2.Environmental features of Lake Biwa -- 6.3.Global warming and its effects on the thermal and hydrological regimes in Lake Biwa -- 6.4.Biogeochemical evolution in the pelagic system of Lake Biwa -- 6.5.Effects of hypoxic hypolimnion development on biological and geochemical processes in Lake Biwa -- 6.6.Possible effects of climate change on Lake Biwa and adaptation measures to expected changes --
Contents note continued: References -- 7.Eutrophication, Warming and Historical Changes of the Plankton Community in Lake Biwa during the Twentieth Century / Jotaro Urabe -- 7.1.Introduction -- 7.2.Factors affecting historical changes in the plankton community -- 7.3.Winter warming and life history changes in Dophnia -- 7.4.Conclusion -- References -- 8.Numerical Simulation of Future Overturn and Ecosystem Impacts for Deep Lakes in Japan / Daisuke Kitazawa -- 8.1.Introduction -- 8.2.Numerical model -- 8.3.Comparison with observations -- 8.4.Future prediction -- 8.5.Conclusions -- 8.6.Acknowledgements -- References -- 9.Model Development to Evaluate the Impacts of Climate Change on Total Phosphorus Concentrations in Lakes / Kohei Yoshiyama -- 9.1.Introduction -- 9.2.Model framework -- 9.3.Concluding remarks -- References -- 10.Recent Climate-Induced Changes in Freshwaters in Denmark / Torben L. Lauridsen -- 10.1.Introduction --
Contents note continued: 10.2.Trends in water flow in streams and diffuse nutrient losses -- 10.3.Trends in stream temperature -- 10.4.Trends in lake temperature -- 10.5.Trends in the formation and duration of the thermocline in lakes -- 10.6.Changes in trophic structure and ecological state -- 10.7.Predictions of the future -- 10.8.Adaptation needed -- 10.9.Acknowledgments -- References -- 11.Lake Phytoplankton Responses to Global Climate Changes / Helene Annadotter -- 11.1.Introduction -- 11.2.Changes in phytoplankton of the circumpolar zones -- 11.3.Changes in phytoplankton of the boreal and temperate climatic zones -- 11.4.Changes in phytoplankton assemblies of the semi-arid subtropical climatic zone -- 11.5.Changes in phytoplankton assemblies of the tropical climatic zone -- 11.6.Concluding remarks -- 11.7.Acknowledgements -- References -- 12.The Influence of Climate Change on Lake Geneva / Adeline Amouroux -- 12.1.Introduction --
Contents note continued: 12.2.Atmospheric boundary layer temperatures -- 12.3.Lake warming trends -- 12.4.Discussion -- 12.5.Conclusion -- 12.6.Acknowledgements -- References -- 13.Climate Change and Wetlands of the Prairie Pothole Region of North America: Effects, Management and Mitigation / Marley J. Waiser -- 13.1.Introduction -- 13.2.Climate and its influence on wetlands in the PPR -- 13.3.Wetland hydrology -- 13.4.Linkages between climate and wetland processes -- 13.5.Existing climate change -- 13.6.Predicted climate change and its effects -- 13.7.Mitigation/management of climate change -- 13.8.Action required -- 13.9.What is currently being done? -- 13.10.Acknowledgements -- References -- 14.Historic and Likely Future Impacts of Climate Change on Lake Tahoe, California-Nevada, USA / Charles R. Goldman -- 14.1.Introduction and background -- 14.2.Historic climate trends in the Tahoe Basin -- 14.3.Modeling the impacts of future climate change --
Contents note continued: 14.4.Impacts on the watershed -- 14.5.Impact on the lake -- 14.6.Reducing negative impacts -- 14.7.Summary and conclusions -- 14.8.Acknowledgements -- References -- 15.Our New Biological Future? The Influence of Climate Change on the Vulnerability of Lakes to Invasion by Non-Native Species / Sudeep Chandra -- 15.1.Introduction -- 15.2.Lake Tahoe: a history of change attributed to cultural eutrophication, thermal changes from climate, and the introduction of nonnative species -- 15.3.The effects of an altered thermal regime to Tahoe invasive species -- 15.4.The effect of climate change to water transparency in western montane lakes and the impact on vulnerability to invasion -- 15.5.Complications for natural resource managers: understanding and mitigating the response of nonnative aquatic species to climate change -- 15.6.Acknowledgements -- References --
Contents note continued: 16.Long-Term Changes in the Lake Kinneret Ecosystem: The Effects of Climate Change and Anthropogenic Factors / Tamar Zohary -- 16.1.Introduction -- 16.2.Changes in the watershed and their long-term impacts on Lake Kinneret -- 16.3.Long-term lake salinity changes -- 16.4.Long-term lake stratification changes -- 16.5.Long-term changes to phytoplankton -- 16.6.The invasion of nitrogen-fixing cyanobacteria (Nostocales) -- 16.7.Winter populations of toxic Microcystis -- 16.8.Long-term variation of chlorophyll and primary production -- 16.9.Long-term sedimentation flux changes -- 16.10.Gaseous methane emission -- 16.11.Long-term changes in fish populations and the fishery -- 16.12.Conclusions -- 16.13.Acknowledgements -- References -- 17.Climate Change and the Floodplain Lakes of the Amazon Basin / Michael T. Coe -- 17.1.Introduction -- 17.2.Current limnological conditions -- 17.3.Current climatic conditions --
Contents note continued: 17.4.Current characteristics of discharge and inundation -- 17.5.Simulations of inundation under altered climates and land uses -- 17.6.Limnological implications of altered climate, land uses and inundation -- 17.7.Management options and research directions -- 17.8.Acknowledgements -- References -- 18.Climatic Variability, Mixing Dynamics, and Ecological Consequences in the African Great Lakes / Sally MacIntyre -- 18.1.Introduction -- 18.2.Controls on mixing dynamics in the African Great Lakes -- 18.3.Mixing Dynamics in a shallow Great Lake---Lake Victoria -- 18.4.Mixing Dynamics in a Meromictic Great Lake---Lake Tanganyika -- 18.5.Lake Kivu---a chemically stratified lake -- 18.6.Changes in mixing dynamics and ecosystem dynamics due to changes in climate and land use -- 18.7.Acknowledgements -- References -- 19.Effects of Climate Change on New Zealand Lakes / Wei Ye -- 19.1.Introduction -- 19.2.Geographical and climate perspective --
Contents note continued: 19.3.Historical climate -- 19.4.Future climate -- 19.5.Overview of lake types and formation processes -- 19.6.Climate change and impacts on endemic and exotic flora and fauna -- 19.7.Climate change impacts on fish -- 19.8.Climate change impacts on aquatic plants and macroinvertebrates -- 19.9.Effects of climate change on shallow NZ lakes -- 19.10.Effects of climate change on high-altitude NZ lakes -- 19.11.Case study: Lake Taupo -- 19.12.Case study: Lake Pupuke -- 19.13.Case study: surface temperature in monomictic and polymictic Rotorua lakes -- 19.14.Case study: bottom-water dissolved oxygen in Lake Rotoiti -- 19.15.Case study: modeling effects of land use and climate change for Lake Rotonia -- 19.16.Management challenges and mitigation measures -- 19.17.Conclusions -- References -- 20.Global Change Effects on Antarctic Freshwater Ecosystems: The Case of Maritime Antarctic Lakes / David Velazquez -- 20.1.Introduction -- 20.2.Antarctic lakes --
Contents note continued: 20.3.Changes in physical parameters -- 20.4.Watershed changes -- 20.5.Changes in chemical parameters -- 20.6.Changes in the biota -- 20.7.Proposed model for the response of Antarctic maritime lakes to global climate change -- 20.8.Conclusions -- 20.9.Acknowledgements -- References -- pt. II Impacts on Societies -- 21.Adaptation to a Changing Climate in Northern Mongolia / Munhtuya N. Goulden -- 21.1.Background -- 21.2.Impacts of climate change -- 21.3.Herder responses and meteorological data -- 21.4.Adaptations to climate change -- 21.5.Acknowledgement -- References -- 22.Managing the Effects of Climate Change on Urban Water Resources / Gabriela da Costa Silva -- 22.1.Introduction -- 22.2.Building adaptive capacity to face urban water stress -- 22.3.Adapting to climate change: the action plans of ten megacities -- 22.4.Integrating agendas in Delhi, Mexico City and Sao Paulo --
Contents note continued: 22.5.The New York City plan: predicting climate change at the watershed scale -- 22.6.Tokyo---let's become a low-energy society! -- 22.7.Don't they need a climate change action plan? The cases of Mumbai, Kolkata (Calcutta), Karachi, Dhaka and Shanghai -- 22.8.Challenges of adapting urban watersheds to climate change -- References -- pt. III Mitigation Approaches -- 23.Water Management Preparation Strategies for Adaptation to Changing Climate / Eugene Stakhiv -- 23.1.Introduction -- 23.2.Hydrological modeling experiment -- 23.3.Contemporary observations -- 23.4.Conclusions -- References -- 24.In Search of Strategies to Mitigate the Impacts of Global Warming on Aquatic Ecosystems / Alfred Wuest -- 24.1.Global warming and impacts on aquatic ecosystems -- 24.2.First level---potential for reducing temperature in aquatic habitats -- 24.3.Second level---opportunities to modify heat distribution --
Contents note continued: 24.4.Third level---opportunities for lakes to reduce greenhouse gases -- 24.5.Conclusions -- 24.6.Acknowledgements -- References -- 25.Artificial Decomposition of Water into Hydrogen and Oxygen by Electrolysis to Restore Oxygen in Climate Change-Impacted Waters / Hiroyasu Takenaka -- 25.1.Introduction -- 25.2.New strategy based on energy and environmental conservation -- 25.3.Application of an electrolysis system to save nature and society -- 25.4.Acknowledgements -- References -- 26.Summary and Conclusions / Michio Kumagai -- 26.1.Introduction -- 26.2.Regime shifts in inland waters -- 26.3.Adaptation and mitigation to save inland waters -- 26.4.Conclusion -- 26.5.Acknowledgements -- References
Beschreibung:XXIV, 472, [16] S. Ill., graph. Darst., Kt.

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