南极东方站深冰层及冰下湖钻探技术

自1970年至今,前苏联和俄罗斯在南极东方站持续进行了近50年的冰层钻探活动,先后攻克了包含粒雪层、冰层、冰岩夹层和湖水冻结冰的复杂冰层钻进难题,逐渐形成了一套集热融取芯钻探、电动机械取芯钻探和分支孔钻探等为一体的深冰芯钻探技术。创造了冰层最深干孔钻进深度记录（952.4 m）、最深热融取芯钻进记录（2755 m）、最深冰芯钻探记录（3769.3 m）,累计进尺达13000 m,并获取了总长超46 m的含湖水冻结冰样品的冰芯。东方站的钻探活动对极地冰层钻探技术的发展起到了巨大的推动和引领作用,同时积累了宝贵的深冰钻探经验。通过对东方站深冰钻探技术的系统梳理,将为我国正在实施的深冰芯钻探和即将开启的冰下湖科学钻探提供重要的借鉴。     

Hypoxia of bottom waters of the Razdolnaya River estuary

The hypoxia of the bottom waters in the Razdolnaya River estuary was observed for the first time in September 2014 during the survey. It is formed as in the seaward part: oxygen is absorbed as a result of destruction of excessive phytoplankton biomass that settles to the bottom and is synthesized on the upper horizon. The high value of primary production in the riverine part of the estuary was caused by the pycnocline formed. Thus, phytoplankton “blooms” above and undergoes destruction beneath the pycnocline. Oxygen is distributed symmetrically in both parts of the estuary with respect to a bar: similar oxygen concentrations, which are maximum on the surface and minimum at the bottom, 300 and <60 μm/L, respectively, are recorded. The anomalies of hydrochemical parameters that have been formed during this process are sharply different in the two parts of the estuary, which most vividly manifests itself in the N/P value and the partial pressure of carbon dioxide pCO₂. The causes of this unique situation are discussed.

     

Geological development of Jabal al Akhdar,Libya

The northern Cyrenaic headland situated north of 32 degrees latitude between Benghází and Tubruq was subject of a geological mapping. This paper draws attention to the results of this geological survey concerning Upper Cretaceous and Tertiary facies development, paleogeography, tectonic and geomorphologic evolution.The essential part of the investigated area corresponds to Jabal al Akhdar (Green Mountains), a gently uparched plateau built of Upper Cretaceous and Tertiary sediments (mostly limestones, subordinate dolomites and marls). These sediments were deposited at the southern margin of the Tethys sea and were moderately folded, mainly during the intra-Senonian (pre-Campanian) and early Ypresian intervals.From Middle Eocene till Middle Miocene, the area was subject to a slight warping followed by oscillating transgressions of a shallow sea.The youngest tectonic movements resulted in a gentle doming of the area associated with downfaulting of certain zones. Some prominent faults revealed rejuvenated activity, partly with movement inversion. Deep faulting probably controlled the paleogeographic and tectonic development of certain zones.The present gross geomorphology of Jabal al Akhdar roughly corresponds to its final uparching dated after the Middle Miocene. Topographic evolution of the northern slope of the mountains has been importantly influenced by marine erosion. Two broad littoral terraces bordered by cliffs were formed successively.

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Zusammenfassung Die nördliche Cyrenaica nördlich des 32. Breitengrades, zwischen Benghazi und Tobruk, wurde geologisch kartiert. Ergebnisse dieser Aufnahmen sind unten wiedergegeben und umfassen die fazielle Entwicklung der Oberkreide und des Tertiär sowie die paläogeographische, tektonische und geomorphologische Entwicklung.Der wesentliche Teil des untersuchten Gebietes liegt im Djebel el Akhdar. Er repräsentiert ein herausgehobenes Plateau, das sich aus Oberkreide und Tertiärsedimenten (meistens Kalke, untergeordnet Dolomite und Mergel) zusammensetzt. Diese Sedimente wurden am Südrand der Tethys abgelagert und sind vorwiegend während des Senon (Prä-Campan) und frühen Ypresien schwach verfaltet worden.Vom mittleren Eozän bis ins mittlere Miozän wurde das Gebiet teilweise gehoben und von oszillierenden Transgressionen einer Flachsee erfaßt.Die jüngsten tektonischen Bewegungen führten zu einer domartigen Aufwölbung und zu Bruchtektonik entlang bestimmter Zonen. Dabei wurden markante Störungen mehrfach regeneriert, wobei auch inverse Bewegungen nachgewiesen werden konnten. Tiefgreifende Lineamente kontrollierten wahrscheinlich die paläogeographische Situation wie auch die tektonische Entwicklung entlang bestimmter Zonen.Die augenblickliche geomorphologische Ausgestaltung des Djebel el Akhdar korrespondiert mit der zuletzt stattgefundenen Aufwölbung nach dem mittleren Miozän. Die topographische Entwicklung seines nördlichen Randes ist weitgehend beeinflußt durch marine Erosionen. Zwei breite Küstenterrassen — durch Steilküsten begrenzt — haben sich dabei sukzessive herausgebildet.

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Résumé La Cyrénaique septentrionale au Nord du 32ème parallèle, entre Benghazi et Tobrouk, a été l'objet d'un lever géologique. Les résultats donnés ici concernent le développement des facies au Crétacé supérieur et au Tertiaire, ainsi que l'évolution paléogéographique, tectonique et géomorphologique.La plus grande partie du territoire se trouve dans le Djebel el Akhdar, plateau soulevé composé de sédiments du Crétacé supérieur et du Tertiaire (la plupart des calcaires, plus rarement des dolomites et des marnes). Ces sédiments se sont déposés dans la bordure meridionale de la Téthys et furent faiblement plissés principalement au cours du Sénonien (Précampanien) et au début de l'Yprésien.De l'Eocène moyen au Miocène moyen, cette région fut en partie soulevée et soumise à des transgressions oscillatives de mer peu profonde.Les mouvements tectoniques les plus récents ont eu pour conséquence un faible bombement de la région accompagné d'affaissements de certaines zones le long de failles. Certaines failles importantes ont rejoué plusieurs fois, partiellement avec inversion de mouvement. Des failles profondes ont influencé l'évolution paléogéographique et tectonique de certaines zones.La géomorphologie générale actuelle du Djebel el Akhdar correspond grosso-modo a son bombement final d'après le Miocène moyen. L'évolution topographique du versant septentrional de la chaîne a été influencée d'une façon importante par des érosions marines. Il s'est formé successivement deux terraces littorales bordées de falaises.

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The map of vertical crustal movements in Czechoslovakia and its interpretation

In addition to the measurements carried out in the framework of the 1973–1978 international relevellings, further levelling lines have been remeasured on the territory of Czechoslovakia till now. Considering all new relevellings on the region under study, an independent adjustment of annual velocities of vertical movements in whole network was performed. The values of vertical movements were determined relatively to the fundamental benchmark Želešice in the central part of Czechoslovakia, monumented in the bedrock of the southeastern border of the Bohemian Massif. The results are presented in a map of vertical movements and preliminarily interpreted in connection to the geological features of the territory under study.     

Transient hysteresis of near-surface permafrost response to external forcing

Estimates of changes in near-surface permafrost (NSP) area S _p relative to change in globally averaged surface air temperature T _g are made by using the global climate model developed at the A.M. Obukhov Institute of Atmospheric Physics RAS (IAP RAS CM). For ensemble of runs forced by scenarios constructed as return-to-preindustrial continuations of the RCP (Representative Concentration Pathways) scenarios family, a possibility of transient hysteresis in dependence of S _p versus T _g is exhibited: in some temperature range which depends on imposed scenario of external forcing, NSP area is larger, at the same global mean surface air temperature, in a warming climate than in a cooling climate. This hysteresis is visible more clearly for scenarios with higher concentration of greenhouse gases in the atmosphere in comparison to those in which this concentration is lower. Hysteresis details are not sensitive to the type of the prescribed continuation path which is used to return the climate to the preindustrial state. The multiple-valued dependence of S _p on T _g arises due to dependence of soil state in the regions of extra-tropical wetlands and near the contemporary NSP boundaries on sign of external climatic forcing. To study the dependence of permafrost hysteresis on amplitude and temporal scale of external forcing, additional model runs are performed. These runs are forced by idealised scenarios of atmospheric CO₂ content varying, depending on run, with periods from 100 to 1,000 year and with different amplitudes. It is shown that the above-mentioned hysteresis is related to the impact of phase transitions of soil water on apparent inertia of the system as well as to the impact of soil state on atmospheric hydrological cycle and radiation transfer in the atmosphere.     

Boundary conditions in the hydromagnetic dynamo problem

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Total ozone response to major geomagnetic storms and changes in meteorological situations

Summary The total ozone response to strong major geomagnetic storms (A_p≥60) in winter along the 50° N latitudinal circle is studied. The results add to the recent results of Laštovička et al. (1992) obtained for European middle latitudes (∼50°N) and to the results of Mlch (1994). A significant response of total ozone is only observed in winter under high solar activity/E-phase of QBO conditions (E-max) and seems to be caused by geomagnetic storm-induced changes of atmospheric dynamics. There are two sectors along latitude 50°N, which are sensitive to forcing by geomagnetic storms both in total ozone and the troposphere — north-eastern Atlantic-European and eastern Siberia-Aleutian sectors. The total ozone response under E-max conditions manifests itself mainly as a large decrease in the longitudinal variation of ozone after the storm, which means an increase of ozone in Europe. The observed effects in total ozone consist in redistribution, not production or loss of ozone.     

Interpretation of shallow refraction seismic data by reflection/refraction tomography

A new algorithm for tomographic inversion of traveltimes of reflected and refracted seismic waves is developed. The inversion gives interface configurations and velocity distributions in layers. The important features of the algorithm are: (a) the inclusion of shot time delays in the list of unknown parameters; (b) the regularization is applied in such a way that the most probable model is characterized by the similarity of neighbouring interfaces. As the problem under consideration is non-linear, several iterations are necessary in order to obtain the final model. In the case of a very inexact initial model, a 'layer-by-layer' inversion strategy is recommended as a first inversion step. The inversion program is supplied with a user interface, thanks to which one can: (a) pick interactively and identify seismic traveltimes; (b) build and edit depth/velocity models; and (c) display calculated traveltime curves and compare them with picked traveltimes as well as with the original seismic sections. The efficiency of the inversion software developed is illustrated by a numerical example and a field example in which shallow seismic data are considered. Application to wide-aperture reflection/refraction profiling (WARRP) data is also possible.