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| Features of Seasonal and Interannual Variability of the Sea Level and Water Circulation in the Laptev Sea | 3 | |
| Numerical Modelling of Storm Surges in the Laptev Sea Based on the Finite Element Method | 17 | |
| Large-Scale Variations of Sea Level in the Laptev Sea | 25 | |
| Extreme Oscillations of the Sea Level in the Laptev Sea | 37 | |
| Internal Waves in the Laptev Sea | 43 | |
| The Composition of the Coarse Fraction of Aerosols in the Marine Boundary Layer over the Laptev, Kara and Barents Seas | 53 | |
| New Data on Sea-Ice Albedo in the Laptev and Barents Seas | 59 | |
| Possible Causes of Radioactive Contamination in the Laptev Sea | 65 | |
| Oceanographic Causes for Transarctic Ice Transport of River Discharge | 73 | |
| Step-Like Vertical Structure Formation Due to Turbulent Mixing of Initially Continuous Density Gradients | 93 | |
| Dissolved and Particulate Major and Trace Elements in Newly Formed Ice from the Laptev Sea (Transdrift III, October 1995) | 101 | |
| Particle Entrainment into Newly Forming Sea Ice - Freeze-Up Studies in October 1995 | 113 | |
| Frazil Ice Formation during the Spring Flood and its Role in Transport of Sediments to the Ice Cover | 125 | |
| Pelagic-Benthic Coupling in the Laptev Sea Affected by Ice Cover | 143 | |
| Chlorophyll a Distribution in Water Column and Sea Ice during the Laptev Sea Freeze-Up Study in Autumn 1995 | 153 | |
| Composition, Abundance and Population Structure of Spring-Time Zooplankton in the Shelf-Zone of Laptev Sea | 161 | |
| Macrobenthos Distribution in the Laptev Sea in Relation to Hydrology | 169 | |
| Carepoctus solidus sp.n., a New Species of Liparid Fish (Scorpaeniformes, Liparidae) from the Lower Bathyal of the Polar Basin | 181 | |
| Spring Stopover of Birds on the Laptev Sea Polynya | 189 | |
| Major, Trace and Rare Earth Element Geochemistry of Suspended Particulate Material of East Siberian Rivers Draining to the Arctic Ocean | 199 | |
| Carbon Isotope Composition of Particulate Organic Material in East Siberian Rivers | 223 | |
| Distribution of River Water and Suspended Sediment Loads in the Deltas of Rivers in the Basins of The Laptev and East-Siberian Seas | 239 | |
| Dissolved Oxygen, Silicon, Phosphorous and Suspended Matter Concentrations During the Spring Breakup of The Lena River | 251 | |
| Distribution Patterns of Heavy Minerals in Siberian Rivers, the Laptev Sea and the eastern Arctic Ocean: An Approach to Identify Sources, Transport and Pathways of Terrigenous Matter | 265 | |
| The Role of Coastal Retreat for Sedimentation in the Laptev Sea | 287 | |
| Seasonal Changes in Hydrology, Energy Balance and Chemistry in the Active Layers of Arctic Tundra Soils in Taymyr Peninsula, Russia | 299 | |
| The Landscape and Geobotanical Characteristics of the Levinson-Lessing Lake Basin, Byrranga Mountains, Central Taimyr | 307 | |
| Studies of Methane Production and Emission in Relation to the Microrelief of a Polygonal Tundra in Northern Siberia | 329 | |
| Carbon Dioxide and Methane Emmissions at Arctic Tundra Sites in North Siberia | 343 | |
| The Features of the Hydrological Regime of the Lake-River Systems of the Byrranga Mountains (by the Example of the Levinson-Lessing Lake) | 353 | |
| Lead-210 Dating and Heavy Metal Concentration in Recent Sediments of Lama Lake (Norilsk Area, Siberia) | 361 | |
| Late Weichselian to Holocene Diatom Succession in a Sediment Core from Lama Lake, Siberia and Presumed Ecological Implications | 377 | |
| Climate and Vegetation History of the Taymyr Peninsula since Middle Weichselian Time - Palynological Evidence from Lake Sediments | 407 | |
| Laminated Sediments from Levinson-Lessing Lake, Northern Central Siberia - A 30,000 Year Record of Environmental History? | 425 | |
| High-Resolution Seismic Stratigraphy of Lake Sediments on the Taymyr Peninsula, Central Siberia | 437 | |
| Archaeological Survey in Central Taymyr | 457 | |
| Marine Pleistocene Deposits of the Taymyr Peninsula and their Age from ESR Dating | 469 | |
| Paleoclimatic Indicators from Permafrost Sequences in the Eastern Taymyr Lowland | 477 | |
| Stable Oxygen Isotope Ratios in Benthic Carbonate Shells of Ostracoda, Foraminifera, and Bivalvia from Surface Sediments of the Laptev Sea, Summer 1993 and 1994 | 503 | |
| Determination of Depositional Beryllium-10 Fluxes in the Area of the Laptev Sea and Beryllium-10 Concentrations in Water Samples of High Northern Latitudes | 515 | |
| Spatial Distribution of Diatom Surface Sediment Assemblages on the Laptev Sea Shelf (Russian Arctic) | 533 | |
| Diatoms from Surface Sediments of the Saint Anna Trough (Kara Sea) | 553 | |
| Distribution of Aquatic Palynomorphs in Surface Sediments from the Laptev Sea, Eastern Arctic Ocean | 561 | |
| Distribution of Pollen and Spores in Surface Sediments of the Laptev Sea | 577 | |
| Clay Mineral Distribution in Surface Sediments of the Laptev Sea: Indicator for Sediment Provinces, Dynamics and Sources | 587 | |
| Planktic Foraminifera in Holocene Sediments from the Laptev Sea and the Central Arctic Ocean: Species Distribution and Paleobiogeographical Implication | 601 | |
| Holocene Diatiom Stratigraphy and Paleoceanography of the Eurasian Arctic Seas | 615 | |
| Late Quaternary Organic Carbon and Biomarker Records from the Laptev Sea Continental Margin (Arctic Ocean): Implications for Organic Carbon Flux and Composition | 635 | |
| Late Pleistocene Paleoriver Channels on the Laptev Sea Shelf - Implications from Sub-Bottom Profiling | 657 | |
| Main Structural Elements of Eastern Russian Arctic Continental Margin Derived from Satellite Gravity and Multichannel Seismic Reflection Data | 667 | |
| High Resolution Seismic Studies in the Laptev Sea Shelf: First Results and Future Needs | 683 | |
| Dynamics and History of the Laptev Sea and its Continental Hinterland: A Summary | 695 |
| Price | Condition | Delivery | Seller | Action |
| $144.75 | Digital |
| WonderClub |
Morlene Cohn
reviewed Land-Ocean Systems in the Siberian Arctic Dynamics and History on December 03, 2020
Land-Ocean Systems in the Siberian Arctic Dynamics and History
What a bizarre book! I had it marked as horror while on my tbr shelf. After reading it, I unclicked the horror box and selected gothic. It's truly a gothic story, very similar I'm sure to Anne Rices work. The entire book is a narrative of a past life and history. While this can grow annoying, at least the life led was interesting.
I was bitterly disappointed and aggrieved by something that happened when Bryon was made Vampire, but was happy the author resolved this a bit in the end with a surprise visit. I wish it would have worked out the other way though without misunderstanding.
There were a lot of changes to the classic vampire story here but I don't wish to say them as that would spoil the surprise of the story as Byron himself finds out the true horror of being undead.
Byron by himself was an okay sort pre-vamp, but due to his nature and just him in general he's not the greatest type of person. How truly awful it would be to live an existence as they did. Not an amazing piece of literature, but still a good piece of work for someone wanting a different sort of tortured vampire story. When I say tortured I don't mean innocent vampires trying to play nice, they are cruel and matter of fact in this book. The tortured element is just part of the the horrible existence of immortality for this piece.
I'm not familiar with Byron's work and this is the first piece of fiction I've read about the author. Really dug the writer's style and it's clear he has talent with the word.
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Add Land-Ocean Systems in the Siberian Arctic Dynamics and History, The Arctic and its surrounding marginal seas are considered some of the most sensitive elements of the global environment, which may respond rapidly to climate change. However, due to various reasons, our knowledge of the processes which drive the Arctic , Land-Ocean Systems in the Siberian Arctic Dynamics and History to the inventory that you are selling on WonderClubX
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Add Land-Ocean Systems in the Siberian Arctic Dynamics and History, The Arctic and its surrounding marginal seas are considered some of the most sensitive elements of the global environment, which may respond rapidly to climate change. However, due to various reasons, our knowledge of the processes which drive the Arctic , Land-Ocean Systems in the Siberian Arctic Dynamics and History to your collection on WonderClub |