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Climate Change Impacts on Water Resources : Hydraulics, Water Resources and Coastal Engineering (2021)

Jha, Ramakar. [editor.] ; Singh, Vijay P. [editor.] ; Singh, Vivekanand. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Earth sciences. ; Physical geography. ; Natural disasters. ; Water. ; Earth Sciences. ; Earth System Sciences. ; Natural Hazards.

Description / Table of Contents: Trend analyses of seasonal mean temperature Series pertaining to Tapi river basin, using monthly data -- . Dry and wet spell characterization of Naini river basin, western Maharashtra, India -- Assessment of Climate Change on Crop Water Requirement in Tandula Command of Chhattisgarh (India) -- Impact of climate change on hydrological regime of Narmada river basin -- Climate change impacts on water resource in Ethiopia -- Spatio-temporal trend analysis of long term IMD gridded precipitation in Godavari river basin, India -- Forecasting reference evapotranspiration using artificial neural network for Nagpur Region -- Assessment of extremes using time varying downscaling model -- Assessment of impact of land use land cover and climate change on quality of river using water quality index -- Assessment of tail behavior of probability distributions of daily precipitation data over India -- Probabilistic prediction of monthly streamflow using graphical modeling approach. .

Abstract: This book provides insights and a capacity to understand the climate change phenomenon, its impact on water resources, and possible remedial measures. The impact of climate change on water resources is a global issue and cause for concern. Water resources in many countries are extremely stressed, and climate change along with burgeoning populations, the rise in living standards, and increasing demand on resources are factors which serve to exacerbate this stress. The chapters provide information on tools that will be useful to mitigate the adverse consequences of natural disasters. Fundamental to addressing these issues is hydrological modelling which is discussed in this book and ways to combat climate change as an important aspect of water resource management.

Type of Medium: Online Resource

Pages: XVI, 551 p. 223 illus., 199 illus. in color. , online resource.

Edition: 1st ed. 2021.

ISBN: 9783030642020

Series Statement: Water Science and Technology Library, 98

URL: https://doi.org/10.1007/978-3-030-64202-0

DOI: 10.1007/978-3-030-64202-0

DDC: 551.48

Language: English

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Hydrological Modeling : Hydraulics, Water Resources and Coastal Engineering (2022)

Jha, Ramakar. [editor.] ; Singh, V. P. [editor.] ; Singh, Vivekanand. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Earth sciences. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Natural disasters. ; Sustainability. ; Water. ; Earth Sciences. ; Environmental Engineering/Biotechnology. ; Natural Hazards. ; Sustainability.

Description / Table of Contents: Performance improvement of usbr vi stilling basin model for pipe outlet -- Rain water harvesting for the main campus of jaipur national university, jagatpura, Jaipur -- Bio Inspired Genetic Algorithm for Optimal Design of Water Distribution Networks -- Drought assessment using various drought indices: a case study of banaskantha district -- Top surface soil moisture retrieval using c- band synthetic aperture radar over kudremukh grasslands -- Meteorological drought assessment in the bharathapuzha river basin -- Experimental and numerical analysis of mean pressure coefficient on C-shaped building with and without round corner. .

Abstract: This book carefully considers hydrological models which are essential for predicting floods, droughts, soil moisture estimation, land use change detection, geomorphology and water structures. The book highlights recent advances in the area of hydrological modelling in the Ganga Basin and other internationally important river basins. The impact of climate change on water resources is a global concern. Water resources in many countries are already stressed, and climate change along with burgeoning population, rising standard of living and increasing demand are adding to the stress. Furthermore, river basins are becoming less resilient to climatic vagaries. Fundamental to addressing these issues is hydrological modelling which is covered in this book. Integrated water resources management is vital to ensure water and food security. Integral to the management is groundwater and solute transport, and this book encompasses tools that will be useful to mitigate the adverse consequences of natural disasters.

Type of Medium: Online Resource

Pages: X, 526 p. 289 illus., 219 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030813581

Series Statement: Water Science and Technology Library, 109

URL: https://doi.org/10.1007/978-3-030-81358-1

DOI: 10.1007/978-3-030-81358-1

DDC: 551.48

Language: English

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Surface and Groundwater Resources Development and Management in Semi-arid Region : Strategies and Solutions for Sustainable Water Management (2023)

Pande, Chaitanya B. [editor.] ; Kumar, Manish. [editor.] ; Kushwaha, N. L. [editor.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Geology. ; Geotechnical engineering. ; Sustainability. ; Water. ; Geology. ; Geotechnical Engineering and Applied Earth Sciences. ; Sustainability.

Description / Table of Contents: Chapter 1. Evapotranspiration importance in water resources management through cutting-edge approaches of Remote sensing and machine learning algorithms (Ali Raza) -- Chapter 2. Application of Remote Sensing and GIS for Morphometric Analysis: A Case Study of Burhanpur Watershed (Abhishek Patel) -- Chapter 3. A GIS-based DRASTIC approach for Aquifer vulnerability assessment: Study conducted in the Municipal Corporation region of Ranchi, Jharkhand (Shivam Saw) -- Chapter 4. Evaluation of Infiltration Models in an Agricultural Catchment Using Guelph Permeameter in Mysuru District (Harshith Y) -- Chapter 5. Investigation of trends and variability associated with the SPI and SPEI as a drought prediction tools in Gujarat regions, India (Paras Hirapara) -- Chapter 6. Fluoride mobilization and provenance identification in semi-arid conditions: A Hydrochemical and Isotopic approach (Abhinav Patel) -- Chapter 7. A comparative study of different inverse groundwater models for aquifer parameter estimation (Sharad Patel) -- Chapter 8. Water resources and irrigation management using GIS and Remote Sensing techniques: Case of Multan district (Pakistan) (Ali Raza).

Abstract: This book explains the challenges for efficient sustainable surface and groundwater development and management with the focus on India and other countries, providing a stable output presentation by using machine learning data mining methods, and modeling. It is a combination of machine learning, modeling, google earth engine, climate data modeling, remote sensing and GIS techniques, surface water modeling, AHP modeling, groundwater quality analysis, aquifer mapping, land use and land cover analysis, forecasting of water and rainfall and so on, its use to sustainable development, planning, and management of groundwater purposes in India and other countries. The main purpose of this book will develop better outlines for the development of surface and groundwater and management in the semi-arid region climate, which supports the Sustainable Development Goals (SDGs) in India, especially on sustainable surface water and groundwater resources management. This book provides a multidisciplinary overview for the faculty members, administrators scientists, policymakers, social science, and professionals involved in the various aspects of sustainable groundwater development, planning, and management.

Type of Medium: Online Resource

Pages: IX, 427 p. 172 illus., 161 illus. in color. , online resource.

Edition: 1st ed. 2023.

ISBN: 9783031293948

Series Statement: Springer Hydrogeology,

URL: https://doi.org/10.1007/978-3-031-29394-8

DOI: 10.1007/978-3-031-29394-8

DDC: 551.48

Language: English

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Scenarios and Responses to Future Deep Oil Spills : Fighting the Next War (2020)

Murawski, Steven A. [editor.] ; Ainsworth, Cameron H. [editor.] ; Gilbert, Sherryl. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Freshwater ecology. ; Marine ecology. ; Environmental chemistry. ; Environmental management. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Water. ; Freshwater and Marine Ecology. ; Environmental Chemistry. ; Environmental Management. ; Environmental Engineering/Biotechnology.

Description / Table of Contents: Section I Overview -- 1 Introduction to the volume -- 2 Deep-water oil and gas production in the Gulf of Mexico, and related global trends -- 3 Spilled oil composition and the natural carbon cycle: The true drivers of environmental fate and effects of oil spills -- Section II Geological, Chemical, Ecological and Physical Oceanographic Settings and Baselines for Deep Oil Spills in the Gulf of Mexico -- 4 An overview of the geologic origins of hydrocarbons and production trends in the Gulf of Mexico -- 5 Gulf of Mexico (GoM) bottom sediments and depositional processes: A baseline for future oil spills -- 6 Benthic faunal baselines in the Gulf of Mexico: A precursor to evaluate future impacts -- 7 Linking abiotic variables with macrofaunal and meiofaunal abundance and community -- 8 The asphalt ecosystem of the southern Gulf of Mexico: abyssal habitats across space and time -- 9 Geochemical and faunal characterization in the sediments off the Cuban north and northwest coast -- 10 Mapping isotopic and dissolved organic matter baselines in waters and sediments of Gulf of Mexico -- 11 Toward a predictive understanding of the benthic microbial community response to oiling on the northern Gulf of Mexico coast -- 12 Combining isoscapes with tissue-specific isotope records to re-create the geographic histories of fish -- 13 The utility of stable and radio isotopes in fish tissues as biogeochemical tracers of marine oil spill food web effects -- 14 Modernizing protocols for aquatic toxicity testing of oil and dispersant -- 15 Polycyclic aromatic hydrocarbon baselines in Gulf of Mexico fishes -- 16 Case Study: Using a combined laboratory, field, and modeling approach to assess oil spill impacts -- Section III Simulations of Future Deep Spills -- 17 Testing the effect of MOSSFA (Marine Oil Snow Sedimentation and Flocculent Accumulation) events in benthic microcosms -- 18 Physical processes influencing the sedimentation and lateral transport of MOSSFA in the NE Gulf of Mexico -- 19 Simulating deep oil spills beyond the Gulf of Mexico -- Section IV Comparisons of likely impacts from simulated spills -- 20 Comparison of the spatial extent, impacts to shorelines, and ecosystem and 4-dimensional characteristics of simulated oil spills -- 21 A predictive strategy for mapping locations where future MOSSFA events are expected -- 22 Connectivity of Gulf of Mexico continental shelf fish populations and implications of simulated oil spills -- 23 Evaluating the effectiveness of fishery closures for deep oil spills using a 4-dimensional model -- 24 As Gulf oil extraction goes deeper, who is at risk? Community structure, distribution, and connectivity of the deep-pelagic fauna -- 25 Evaluating impacts of deep oil spills on oceanic marine mammals -- 26 Comparative environmental sensitivity of offshore Gulf of Mexico waters potentially impacted by ultra-deep oil well blowouts -- Section V Preparing for and Responding to the Next Deepwater Spill -- 27 Preparing for the inevitable: ecological and indigenous community impacts of oil spill-related mortality in the United States Arctic marine ecosystem -- 28 Summary of contemporary research on use of chemical dispersants for deep sea oil spills -- 29 Perspectives on research, technology, policy and human resources for improved management of ultra-deep oil and gas resources and responses to oil spills -- Index.

Abstract: It has often been said that generals prepare for the next war by re-fighting the last. The Deepwater Horizon (DWH) oil spill was unlike any previous – an underwater well blowout 1,500 meters deep. Much has been learned in the wake of DWH and these lessons should in turn be applied to both similar oil spill scenarios and those arising from “frontier” explorations by the marine oil industry. The next deep oil well blowout may be at 3,000 meters or even deeper. This volume summarizes regional (Gulf of Mexico) and global megatrends in marine oil exploration and production. Research in a number of key areas including the behavior of oil and gas under extreme pressure, impacts on biological resources of the deep sea, and the fate of oil and gas released in spills is synthesized. A number of deep oil spills are simulated with detailed computer models, and the likely effects of the spills and potential mitigation measures used to combat them are compared. Recommended changes in policies governing marine oil exploration and development are proposed, as well as additional research to close critical and emerging knowledge gaps. This volume synthesizes state-of-the-art research in deep oil spill behavior and response. It is thus relevant for government and industry oil spill responders, policy formulators and implementers, and academics and students desiring an in-depth and balanced overview of key issues and uncertainties surrounding the quest for deep oil and potential impacts on the environment.

Type of Medium: Online Resource

Pages: XII, 542 p. 167 illus., 138 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030129637

URL: https://doi.org/10.1007/978-3-030-12963-7

DOI: 10.1007/978-3-030-12963-7

DDC: 551.48

Language: English

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Deep Oil Spills : Facts, Fate, and Effects (2020)

Murawski, Steven A. [editor.] ; Ainsworth, Cameron H. [editor.] ; Gilbert, Sherryl. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Description / Table of Contents: Section I. Introduction -- 1. Introduction to the Volume -- Section II. Physics and Chemistry of Deep Oil Well Blowouts -- 2. The importance of understanding fundamental physics and chemistry of deep oil blowouts -- 3. Physical and chemical properties of oil and gas under reservoir and deep-sea conditions -- 4. Jet formation at the blowout site -- 5. Behavior of rising droplets and bubbles – impact on the physics of deep-sea blowouts and oil fate -- Section III. Transport and Degradation of Oil and Gas from Deep Spills -- 6. The importance of understanding transport and degradation of oil and gasses from deep sea blowouts -- 7. Biodegradation of petroleum hydrocarbons in the deep sea -- 8 Partitioning of organics between oil and water phases with and without the application of dispersants -- 9. Dynamic coupling of near-field and far-field models -- 10. Effects of oil properties and slick thickness on dispersant field effectiveness and oil fate -- 11. Far-field modeling of a deep-sea blowout: sensitivity studies of initial conditions, biodegradation, sedimentation and sub-surface dispersant injection on surface slicks and oil plume concentrations -- Section IV. Oil Spill Records in Deep Sea Sediments -- 12. Formation and sinking of MOSSFA (Marine Oil Snow Sedimentation and Flocculent Accumulation) events: Past and Present -- 13. The sedimentary record of MOSSFA events in the Gulf of Mexico: A comparison of the Deepwater Horizon (2010) and Ixtoc 1 (1979) oil spills -- 14. Characterization of the sedimentation associated with the Deepwater Horizon blowout: depositional pulse, initial response, and stabilization -- 15. Applications of FTICR-MS in oil spill studies -- 16. Changes in redox conditions of surface sediments following the Deepwater Horizon and Ixtoc 1 events -- 17. Long-term preservation of oil spill events in sediments: the case for the Deepwater Horizon spill in the northern Gulf of Mexico -- 18. Effect of marine snow on microbial oil degradation -- 19. Molecular legacy of the 1979 Ixtoc 1 oil spill in deep-sea sediments of the southern Gulf of Mexico -- 20. 40 years of weathering of coastal oil residues in the southern Gulf of Mexico -- Section V. Impacts of Deep Spills on Plankton, Fishes, and Protected Resources -- 21. Overview of ecological impacts of deep spills -- 22. Deep-sea benthic faunal impacts and community evolution before, during and after the Deepwater Horizon event -- 23. Impact and resilience of benthic foraminifera in the aftermath of the Deepwater Horizon and Ixtoc 1 oil spills -- 24. Chronic sublethal effects observed in wild caught fish following two major oil spills in the Gulf of Mexico: Deepwater Horizon and Ixtoc 1 -- 25. Impacts of deep spills on fish and fisheries -- 26. Impacts of the Deepwater Horizon oil spill on marine mammals and sea turtles -- Section VI. Toxicology of Deep Oil Spills -- 27. Ecotoxicology of deep ocean spills -- 28 A synthesis of Deepwater Horizon oil, chemical dispersant and chemically dispersed oil aquatic standard laboratory acute and chronic toxicity studies -- 29. Digging deeper than LC/EC50: non-traditional endpoints and non-model species in oil spill toxicology -- 30. Genetics and oil: transcriptomics, epigenetics and population genomics as tools to understand animal responses to exposure across different time scales -- Section VI. I Ecosystem-level modeling of deep oil spill impacts -- 31. A synthesis of top down and bottom up impacts of the Deepwater Horizon oil spill using ecosystem modeling -- 32. Comparing ecosystem model outcomes between Ixtoc 1 and Deepwater Horizon oil spills -- 33. Effects of the Deepwater Horizon oil spill on Human Communities: Catch and Economic Impacts -- Section VIII. Summary -- 34. Summary of Major Themes – Deep Oil Spills -- Index.

Abstract: The demand for oil and gas has brought exploration and production to unprecedented depths of the world’s oceans. Currently, over 50% of the oil from the Gulf of Mexico now comes from waters in excess of 1,500 meters (one mile) deep, where no oil was produced just 20 years ago. The Deepwater Horizon oil spill blowout did much to change the perception of oil spills as coming just from tanker accidents, train derailments, and pipeline ruptures. In fact, beginning with the Ixtoc 1 spill off Campeche, Mexico in 1979-1980, there have been a series of large spill events originating at the sea bottom and creating a myriad of new environmental and well control challenges. This volume explores the physics, chemistry, sub-surface oil deposition and environmental impacts of deep oil spills. Key lessons learned from the responses to previous deep spills, as well as unresolved scientific questions for additional research are highlighted, all of which are appropriate for governmental regulators, politicians, industry decision-makers, first responders, researchers and students wanting an incisive overview of issues surrounding deep-water oil and gas production.

Type of Medium: Online Resource

Pages: XIV, 611 p. 152 illus., 110 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030116057

URL: https://doi.org/10.1007/978-3-030-11605-7

DOI: 10.1007/978-3-030-11605-7

DDC: 551.48

Language: English

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River Hydraulics : Hydraulics, Water Resources and Coastal Engineering Vol. 2 (2022)

Jha, Ramakar. [editor.] ; Singh, V. P. [editor.] ; Singh, Vivekanand. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Earth sciences. ; Natural disasters. ; Environment. ; Physical geography. ; Water. ; Earth Sciences. ; Natural Hazards. ; Environmental Sciences. ; Earth System Sciences.

Description / Table of Contents: Effect of bed permeability on flow turbulence in gravel-bed stream -- Study on Erosion and Undercut of Cohesive River Bank – An Experimental Approach -- Hydraulic design of reservoir in permeable pavement for mitigating urban storm water -- Analytical expression for measurement of discharge using conical obstruction in a small rectangular channel -- Efficient numerical algorithm for flow field around vertically submerged tandem and aligned circular cylinders. .

Abstract: This book presents key principles of the hydraulics of river basins, with a unique focus on the interplay between stream flows and sediment transport. Addressing a number of basic topics related to the hydraulics of river systems, above all it emphasizes applicative aspects in order to provide the reader with a solid grasp of river engineering. The understanding of the river hydraulics is essential for the assessment of optimum locations for the conservation of water resources and its structures. This book will be interesting to readers and researchers working in the specialized area of river hydraulics of Ganga basin, Narmada, Tapi, Godavari, and other basins of India. It consists of review on hydraulics of meandering river; hydraulic design of reservoir in permeable pavement; optimization of hydraulic design; hydraulic investigations to optimize the design of spillway and design of energy dissipater; and analysis of performance of orifice spillway using computational fluid dynamics.

Type of Medium: Online Resource

Pages: X, 471 p. 284 illus., 187 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030817688

Series Statement: Water Science and Technology Library, 110

URL: https://doi.org/10.1007/978-3-030-81768-8

DOI: 10.1007/978-3-030-81768-8

DDC: 551.48

Language: English

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