Verfügbarkeit: The near-surface layer of the ocean

The near-surface layer of the ocean: structure, dynamics and applications

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Bibliographische Detailangaben
Hauptverfasser:	Soloviev, Alexander (VerfasserIn), Lukas, Roger (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht Springer [2014]
Ausgabe:	Second edition
Schriftenreihe:	Atmospheric and oceanographic sciences library Volume 48
Schlagworte:	Oberflächenwasser Meer Meeresphysik
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	xxviii, 552 Seiten Illustrationen, Diagramme
ISBN:	9789400776203

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MARC


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Datensatz im Suchindex

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adam_text	Contents Mathematical Notations 1 Introduction....................................................... 1 1.1 The Ocean Near-Surface Layer in the Ocean-Atmosphere System ... 1 1.2 Basic Equations of Fluid Mechanics and Useful Approximations.. 4 1.2.1 Mathematical Notation and Governing Equations.............. 4 1.2.2 Boundaiy-Layer Approximation............................. 6 1.2.3 Low Rossby Number Approximation........................... 8 1.2.4 Turbulence and Turbulent Kinetic Energy Budget............. 8 1.3 Boundary Conditions.......................................... 10 1.3.1 Types of Surface Boundary Conditions..................... 11 1.3.2 Bulk-Flux Formulation................................... 13 1.4 Radiative F orcing............................................ 19 1.4.1 Definitions.............................................. 19 1.4.2 Solar Constant and Insolation.......................... 20 1.4.3 Insolation Under Clear Skies......................... 22 1.4.4 Insolation Under Cloudy Skies........................... 23 1.4.5 Albedo of the Sea Surface............................... 25 1.4.6 Attenuation of Solar Radiation in the Ocean............... 28 1.4.7 Longwave Radiation.................................... 32 1.5 Rain Forcing.................................................. 32 1.5.1 Dynamics of Raindrops at the Air-Sea Interface............ 32 1.5.2 Partition Between Surface and Submerged Fractions of Freshwater Due to Rain................................. 34 1.5.3 Volume Source of Freshwater Due to Rain.................. 35 1.5.4 Rain-Induced Heat Flux.................................. 37 1.5.5 Surface Stress Due to Rain................................ 38 1.6 Surface Waves................................................. 39 1.6.1 Potential Approximation................................. 39 1.6.2 Linear Waves.......................................... 42 1.6.3 Nonlinear Waves......................................... 43 1.6.4 Wave Breaking............................................ 44 1.6.5 Statistical Description of Surface Waves................. 46 1.6.6 Wave form Stress and Kinetic Energy Flux to Waves from Wind................................................ 49 1.7 Planetary Boundaiy Layers...................................... 51 1.7.1 Ekman Boundary Layer..................................... 52 1.7.2 Monin-Oboukhov S imilarity Theory........................ 56 1.7.3 Surface Mixed Layer...................................... 58 1.7.4 Barrier Layer and Compensated Layer...................... 60 1.7.5 Modeling Mixing in the Upper Ocean..................... 60 References........................................................ 63 2 Sea Surface Microlayer............................................. 71 2.1 Introduction................................................. 71 2.2 Phenomenology.................................................. 74 2.2.1 Viscous Sublayer....................................... 74 2.2.2 Thermal Sublayer......................................... 75 2.2.3 Diffusion Sublayer...................................... 77 2.2.4 Sea Surface Microlayer Ecosystem......................... 77 2.2.5 Surfactants and Surface Films............................ 78 2.3 Physics of Aqueous Molecular Sublayers......................... 81 2.3.1 Convective and Shear Instability........................ 82 2.3.2 Microscale Wave Breaking................................. 86 2.3.3 Wave Breaking and Whitecapping......................... 87 2.3.4 Capillary Wave Effects................................. 88 2.3.5 Chemical and Photochemical Reactions in the Sea Surface Microlayer....................................... 90 2.3.6 Natural and Anthropogenic Influences..................... 90 2.3.7 Effects of Surface Films................................. 91 2.4 Parameterization of Molecular Sublayers During Nighttime Conditions.................................................. 98 2.4.1 Dimensional Analysis..................................... 98 2.4.2 Renewal Model........................................... 101 2.4.3 Boundary-Layer Model.................................... 112 2.5 Effect of Penetrating Solar Radiation......................... 116 2.5.1 Model Equations......................................... 116 2.5.2 Renewal Time............................................ 120 2.5.3 Convective Instability of the Cool Skin During Daytime. 120 2.5.4 Model Calculations.................................... 121 2.5.5 Comparison with Daytime and Nighttime Cool-Skin Field Data........................................ 123 2.6 Cool and Freshwater Skin of the Ocean during Rainfall......... 127 2.6.1 Effects of Rain on the Cool Skin.................... 129 2.6.2 Freshwater Skin of the Ocean............................ 131 2.6.3 Surface Renewals Due to Rain Mixing.................. 133 2.6.4 Buoyancy Effects in Molecular Sublayer Due to Rain... 136 2.6.5 Rain Effects on Sea Surface Roughness.................. 137 2.6.6 Flux of Kinetic Energy Carried by Rain................. 140 2.6.7 Combined Effect........................................ 141 2.6.8 Comparison with Data................................. 143 2.6.9 Discussion............................................. 145 References........................................................ 146 3 Near-Surface Turbulence.......................................... 153 3.1 Introduction................................................. 153 3.2 Free- Surface Turbulent Boundary Layer..................... 154 3.2.1 Wave-Following Coordinate System..................... 154 3.2.2 Wall-Layer Analogy................................. 155 3.2.3 Deviations from the Wall-Layer Analogy in a Free-Surface Layer.............................. 157 3.2.4 Structure of the Upper Ocean Turbulent Boundary Layer Below Breaking Surface Waves................... 159 3.3 Observation of Near-Surface Turbulence..................... 161 3.3.1 Observational Challenges............................... 161 3.3.2 Wave-Following Versus Fixed Coordinate System.......... 162 3.3.3 Disturbances from Surface Waves...................... 162 3.3.4 Dynamics of a Free-Rising Instrument in the Near- Surface Layer of the Ocean............................. 164 3.3.5 A Near-Surface Turbulence and Microstructure Sensor System............................................... 167 3.4 Wave-Enhanced Turbulence.................................... 180 3.4.1 Dimensional analysis................................. 180 3.4.2 Craig and Banner ( 1994) Model of Wave-Enhanced Turbulence............................................. 182 3.4.3 Benilov and Ly (2002) Wave-Turbulent Model............. 193 3.4.4 Concluding Remarks on Wave-Enhanced Turbulence....... 200 3.5 Effects of Thermohaline Stratification..................... 202 3.5.1 Formulation of the Monin-Oboukho v Theory for the Upper Ocean........................................ 203 3.5.2 Asymptotic regimes..................................... 205 3.5.3 Boundary-Layer Scaling of the Velocity and Dissipation Rate Profiles.............................. 208 3.6 Parameterization of Turbulent Mixing......................... 210 3.6.1 Parameterization of Wave-Enhanced Mixing Coefficient. 210 3.6.2 Richardson-Number Type Mixing Parameterization......... 212 3.6.3 Rotation Effects..................................... 218 3.6.4 Boundary-Layer Horizontal Pressure Gradients........... 218 References.................................................... 219 4 Fine Structure and Microstructure.................................. 225 4.1 Introduction..................................................... 225 4.2 Near-Surface Thermohaline Structures............................. 226 4.2.1 Diurnal Mixed Layer and Diurnal Thermocline............... 226 4.2.2 Examples of Near-Surface Structures Associated with Diurnal Cycle........................................ 228 4.2.3 Wave-Like Disturbances in the Diurnal Thermocline..... 230 4.2.4 Rain-Formed Mixed Layer and Halocline..................... 232 4.2.5 Low-Salinity Patches Due to Convective Rains.......... 233 4.2.6 Combined Effect of Diurnal and Freshwater Cycles on the Upper Ocean Structure............................. 235 4.3 Surface-Intensified Jets........................................ 241 4.3.1 Slippery Near-Surface Layer of the Ocean Arising Due to Diurnal Warming........................................ 241 4.3.2 Self-Regulating State of the Diurnal Thermocline.......... 243 4.3.3 Upper Velocity Limit for the Diurnal Jet.................. 249 4.3.4 Upper Velocity Limit for the Rain-Formed Jet.............. 250 4.4 Evolution of the Diurnal Mixed Layer and Diurnal Thermocline Under Low Wind Speed Conditions.............................. 250 4.5 Large Diurnal Warming Events..................................... 259 4.5.1 In Situ Data............................................ 259 4.5.2 Global Distribution of Large Diurnal Wanning Events... 261 4.5.3 Physics of Large Diurnal Warming Events................... 264 4.6 Modeling Large Diurnal Warming Events............................ 266 4.6.1 Radiative-Convective Mixed Layer.......................... 266 4.6.2 Transition from Radiative-Convective to Wind Mixing Regime.................................................. 272 4.6.3 A Rapid Increase in the SST When the Air is Warmer Than the Water and Low Wind Speed Conditions Persist....... 275 4.6.4 Parameterizations for the Diurnal SST Range............... 275 4.6.5 One-Dimensional Numerical Simulation of Diurnal Cycle... 277 4.6.6 Three-Dimensional Numerical Simulation of Diurnal Cycle... 280 4.7 Fine Structure of the Near-Surface Layer in the Polar Seas....... 282 References........................................................ 286 5 Spatially-Varying and Coherent Structures.............................. 291 5.1 Introduction................................................... 291 5.2 Self-Organization in Two-Dimensional Turbulence................ 293 5.3 Horizontal Mixing as a Nonlinear Diffusion Process.............. 300 5.3.1 Horizontal Wave Number Statistics......................... 301 5.3.2 Nonlinear Advection-Diffusion Model....................... 302 5.3.3 Buoyancy Flux Through the Bottom of the Mixed Layer... 303 5.3.4 Atmospheric Buoyancy Forcing.............................. 306 5.3.5 Equilibrium Subrange.................................... 307 5.3.6 Numerical Diagnostics of Nonlinear Diffusion Equation. 309 5.3.7 Relationship Between Vertical and Horizontal Mixing and Atmospheric Forcing Conditions.......................... 312 5.3.8 Implications for Horizontal Mixing Parameterization... 313 5.4 Sharp Frontal Interfaces........................................ 316 5.4.1 Observations of Sharp Frontal Interfaces in the Western Pacific Warm Pool....................................... 317 5.4.2 Statistics of Sharp Frontal Interfaces in the Western Pacific Warm Pool................................................. 329 5.4.3 Internal Wave-Shear Flow Interaction as a Cause of Repeating Frontal Interfaces.............................. 333 5.4.4 Interaction of Sharp Fronts with Wind Stress............... 336 5.4.5 Parameterization for Cross-Frontal Exchange................ 346 5.4.6 Implications for the T-S Relationship in the Mixed Layer... 347 5.4.7 Observations of Sharp Frontal Interfaces in Mid-Latitudes and High Latitudes.......................................... 347 5.5 Internal Waves in the Near-Surface Pycnocline................... 348 5.5. Î Large-Amplitude Internal Waves............................ 348 5.5.2 Surface-Internal Wave Resonant Interactions........... 351 5.5.3 Kelvm-Helmholtz Instability of a Sheared Stratified Flow... 353 5.6 Ramp-Like Structures............................................ 355 5.6.1 Phenomenology of Ramp-like Coherent Structures............. 355 5.6.2 Observation of Ramp-like Coherent Structures with Bow-Mounted Sensors....................................... 357 5.6.3 Skewness of temperature derivative........................ 360 5.6.4 Vertical Profiles.......................................... 362 5.6.5 Townsend’s Hypothesis and Ramp-Like Structures............. 364 5.6.6 Vorticity Waves in Shear Flows........................... 366 5.7 Langmuir Circulations............................................. 369 5.7.1 Phenomenology.............................................. 369 5.7.2 Concepts and Theories...................................... 372 5.7.3 Numerical Models of Langmuir Circulations.................. 378 5.7.4 An Alternative Mechanism of Langmuir Circulation...... 380 5.8 Convection...................................................... 381 5.8.1 Phenomenology.............................................. 382 5.8.2 Penetrative Convection..................................... 384 5.8.3 Diurnal and Seasonal Cycle of Convection................... 386 5.9 Conclusions....................................................... 388 References........................................................... 388 6 High Wind Speed Regime................................................ 397 6.1 Introduction.................................................... 397 6.2 Air Bubbles in the Near-Surface Turbulent Boundary Layer..... 398 6.2.1 Active and Passive Phases in Bubble Life................. 398 6.2.2 Bubble Rise Velocity..................................... 398 6.2.3 Bubble Size Distribution Function.......................... 402 6.2.4 Bubble Dispersion and Diffusion......................... 406 6.2.5 Buoyancy Effects in Bubble Plumes........................ 409 6.3 Sea Spray Aerosol Production.................................... 411 6.3.1 Introduction............................................. 411 6.3.2 Mechanisms of Sea Spray Production....................... 412 6.3.3 Sea Spray Source Function............................... 414 6.3.4 Primary Aerosol Number Distributions..................... 417 6.3.5 Parameterization of Sea Spray Aerosol Production Flux.. 418 6.4 Air-sea Exchange During High Wind Speeds........................ 420 6.4.1 Effect of Spray on Air-Sea Exchanges..................... 420 6.4.2 Dynamics of Suspension Flow............................ 425 6.4.3 The Air-Sea Interface Under Hurricane Conditions......... 430 6.4.4 Direct disruption of the air-sea interface............... 431 6.4.5 The Air-Sea Momentum Exchange in Very Strong Winds... 436 6.4.6 Problem of Parameterization of the Air-Sea Drag Coefficient in Hurricane Conditions..................... 440 References......................................................... 445 Applications......................................................... 451 7.1 Introduction.................................................... 451 7.2 Remote Sensing of the Ocean..................................... 452 7.2.1 Remote Sensing of Surface Winds.......................... 452 7.2.2 Sea Surface Temperature.................................. 454 7.2.3 Sea Surface Salinity..................................... 457 7.2.4 Surface Ocean Currents................................. 460 7.3 High-Resolution Microwave Imagery of the Sea Surface........... 461 7.3.1 Surface Features of Natural Origin....................... 463 7.3.2 Wakes of Ships........................................... 466 7.3.3 Atmospheric Influences................................ 475 7.3.4 Numerical Simulation of Natural and Artificial Features in Radar Imagery......................................... 476 7.4 Remote Sensing of Oil Spills................................... 477 7.5 Marine Optics................................................... 484 7.5.1 Monochromatic and Color Imagery.......................... 484 7.5.2 Remote Sensing of Ocean Color............................ 485 7.5.3 Inherent Optical Characteristics of the Upper Ocean Water............................................. 488 7.5.4 Influence of Bubbles on Optical Scattering in the Upper Ocean.............................................. 489 7.6 Marine Chemistry and Biology.................................. 492 7.7 Ocean Acoustics................................................. 495 7.7.1 Effects of Stratification................................ 496 7.7.2 Biological Scattering Layers............................. 497 7.7.3 Effects of Bubbles on Sound Propagation.................. 498 7.7.4 Acoustic Technique for Measuring Bubble Size Distributions........................................... 502 7.7.5 Ambient Noise Produced by Bubbles........................ 503 7.7.6 Ambient Noise Produced by Rain........................... 504 7.7.7 Passive Acoustic Monitoring of Sea Surface Processes... 507 7.7.8 Passive Acoustic Monitoring of Surface Waves from Seafloor Pressure Fluctuations in the Deep Ocean...... 513 7.7.9 3D Sonar Technology for Near-Surface Studies............. 515 7.8 Ocean State Estimation, Climate Modeling, and Prediction...... 517 7.8.1 Air-Sea Fluxes........................................... 519 7.8.2 Interactions............................................. 523 7.8.3 Ocean State Estimation and Prediction.................... 524 References.......................................................... 527 Index................................................................... 539 The rationale for publishing a second edition of this monograph is that this area of research continues to show remarkable advancement. The new generation of synthetic aperture radar satellites has provided unprecedented spatial resolution of sea surface features. In addition, satellites to measure sea surface salinity have been launched. Computational fluid dynamics models open new opportunities in understanding the processes in the near-surface layer of the ocean and their visibility from space. Passive acoustic methods for monitoring short surface waves have significantly progressed. Of importance for climate research, processes in the near-surface layer of the ocean contribute to errors in satellite estimates of sea surface temperature trends. Due to growing applications of near-surface science, it is anticipated that more students will be trained in this area of research. Therefore this second edition of the monograph is closer to a textbook format.
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spelling	Soloviev, Alexander Verfasser (DE-588)1201681359 aut The near-surface layer of the ocean structure, dynamics and applications Alexander Soloviev, Roger Lukas Second edition Dordrecht Springer [2014] xxviii, 552 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Atmospheric and oceanographic sciences library Volume 48 Oberflächenwasser (DE-588)4172265-6 gnd rswk-swf Meer (DE-588)4038301-5 gnd rswk-swf Meeresphysik (DE-588)4038324-6 gnd rswk-swf Meer (DE-588)4038301-5 s Oberflächenwasser (DE-588)4172265-6 s Meeresphysik (DE-588)4038324-6 s DE-604 Lukas, Roger Verfasser (DE-588)1201681642 aut Erscheint auch als Online-Ausgabe 978-94-007-7621-0 Atmospheric and oceanographic sciences library Volume 48 (DE-604)BV043290319 48 Digitalisierung UB Augsburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029812694&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Augsburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029812694&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Soloviev, Alexander Lukas, Roger The near-surface layer of the ocean structure, dynamics and applications Atmospheric and oceanographic sciences library Oberflächenwasser (DE-588)4172265-6 gnd Meer (DE-588)4038301-5 gnd Meeresphysik (DE-588)4038324-6 gnd
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title	The near-surface layer of the ocean structure, dynamics and applications
title_auth	The near-surface layer of the ocean structure, dynamics and applications
title_exact_search	The near-surface layer of the ocean structure, dynamics and applications
title_full	The near-surface layer of the ocean structure, dynamics and applications Alexander Soloviev, Roger Lukas
title_fullStr	The near-surface layer of the ocean structure, dynamics and applications Alexander Soloviev, Roger Lukas
title_full_unstemmed	The near-surface layer of the ocean structure, dynamics and applications Alexander Soloviev, Roger Lukas
title_short	The near-surface layer of the ocean
title_sort	the near surface layer of the ocean structure dynamics and applications
title_sub	structure, dynamics and applications
topic	Oberflächenwasser (DE-588)4172265-6 gnd Meer (DE-588)4038301-5 gnd Meeresphysik (DE-588)4038324-6 gnd
topic_facet	Oberflächenwasser Meer Meeresphysik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029812694&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029812694&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV043290319
work_keys_str_mv	AT solovievalexander thenearsurfacelayeroftheoceanstructuredynamicsandapplications AT lukasroger thenearsurfacelayeroftheoceanstructuredynamicsandapplications

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