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 Pechora Sea: Past,recent, and future

The main stages in the development of the Pechora Sea are discussed. It is established that, during the high sea level stand corresponding to the warmest epoch of the Mikulino Interglacial, the Pechora Sea represented a more spacious, as compared with its present-day size, basin owing to the flooded valleys of river lower reaches. No sea in its present-day configuration existed during the last (Valdai) glaciation. At that time, the sea could have occupied only a narrow area along the southern coast of Novaya Zemlya, where marine sedimentation was in progress during the Late Pleistocene and Holocene. During the glaciation and postglacial time, the dried bottom of the former Pechora Sea accumulated large volumes of sand that are now concentrated largely in the accretion structures along its southern coast. In the current century, changes will occur mainly in the coastal zone of the Russkii Zavorot Peninsula, Pesyakov Island, the Varandei Settlement area, and the Medynskii Zavorot Peninsula, where a shoreline retreat for a distance of 0.5 km is expected.     

Evolution of borate minerals from contact metamorphic to hydrothermal stages: Ludwigite-group minerals and szaibélyite from the Vysoká – Zlatno skarn,Slovakia

Mineralogy and Petrology - Borate minerals of the ludwigite group (LGM) and szaibélyite in association with hydroxylclinohumite, clinochlore, a serpentine mineral, magnesian magnetite, spinel,...     

EN photographic Perseids

Many Perseid meteors were photographed in the Czech part of the European Fireball Network during the activity of the new strong and sharp maximum on August 12, 1993. Basic data on many of them were evaluated and radiants, atmospheric trajectories and some orbital elements are presented here and compared with atmospheric and orbital data of regular Perseids, which were photographed outside the new activity in 1993 and preceding years. No substantial difference between these two groups of Perseid meteors was found.     

Ground motion simulations for seismic stations in southern and eastern Romania and seismic hazard assessment

This research focuses on the evaluation of soil conditions for seismic stations in southern and eastern Romania, their influence on stochastic finite-fault simulations, and the impact of using them on the seismic hazard assessment. First, the horizontal-to-vertical spectral ratios (HVSR) are evaluated using ground motions recorded in 32 seismic stations during small magnitude (M _W  ≤ 6.0) Vrancea seismic events. Most of the seismic stations situated in the southern part of Romania exhibit multiple HVSR peaks over a broad period range. However, only the seismic stations in the eastern-most part of Romania have clear short-period predominant periods. Subsequently, stochastic finite-fault simulations are performed in order to evaluate the influence of the soil conditions on the ground motion amplitudes. The analyses show that the earthquake magnitude has a larger influence on the computed ground motion amplitudes for the short- and medium-period range, while the longer-period spectral ordinates tend to be influenced more by the soil conditions. Next, the impact of the previously evaluated soil conditions on the seismic hazard results for Romania is also investigated. The results reveal a significant impact of the soil conditions on the seismic hazard levels, especially for the sites characterized by long-period amplifications (sites situated mostly in southern Romania), and a less significant influence in the case of sites which have clear short predominant periods.     

Effect of snow cover on pan-Arctic permafrost thermal regimes

This study quantitatively evaluated how insulation by snow depth (SND) affected the soil thermal regime and permafrost degradation in the pan-Arctic area, and more generally defined the characteristics of soil temperature (T_SOIL) and SND from 1901 to 2009. This was achieved through experiments performed with the land surface model CHANGE to assess sensitivity to winter precipitation as well as air temperature. Simulated T_SOIL, active layer thickness (ALT), SND, and snow density were generally comparable with in situ or satellite observations at large scales and over long periods. Northernmost regions had snow that remained relatively stable and in a thicker state during the past four decades, generating greater increases in T_SOIL. Changes in snow cover have led to changes in the thermal state of the underlying soil, which is strongly dependent on both the magnitude and the timing of changes in snowfall. Simulations of the period 2001–2009 revealed significant differences in the extent of near-surface permafrost, reflecting differences in the model’s treatment of meteorology and the soil bottom boundary. Permafrost loss was greater when SND increased in autumn rather than in winter, due to insulation of the soil resulting from early cooling. Simulations revealed that T_SOIL tended to increase over most of the pan-Arctic from 1901 to 2009, and that this increase was significant in northern regions, especially in northeastern Siberia where SND is responsible for 50 % or more of the changes in T_SOIL at a depth of 3.6 m. In the same region, ALT also increased at a rate of approximately 2.3 cm per decade. The most sensitive response of ALT to changes in SND appeared in the southern boundary regions of permafrost, in contrast to permafrost temperatures within the 60°N–80°N region, which were more sensitive to changes in snow cover. Finally, our model suggests that snow cover contributes to the warming of permafrost in northern regions and could play a more important role under conditions of future Arctic warming.     

Integral transformations of gradiometric data onto a GRACE type of observable

Integral transformations of gravitational gradients onto a Gravity Recovery And Climate Experiment (GRACE) type of observable are derived in this article. The gravitational gradients represent components of the gravitational tensor in the local north-oriented frame. The GRACE type of observable corresponds to a difference between two gravitational vectors as projected onto the line of sight between the two GRACE satellites. In total, three integral transformations relating vertical–vertical, vertical–horizontal and horizontal–horizontal gravitational gradients with the GRACE type of observable are provided. Spectral and closed forms of corresponding isotropic kernels are derived for each transformation. Special cases show that the integral transformations are general and relate gravitational gradients to many other quantities of the gravitational field, such as the gravitational vector, and its radial and tangential components. Correctness of the mathematical derivations is validated in a closed-loop simulation using synthetic data.     

Last Glacial Maximum climate of the former Soviet Union and Mongolia reconstructed from pollen and plant macrofossil data

 An improved concept of the best analogues method was used to reconstruct the Last Glacial Maximum (LGM) climate from a set of botanical records from the former Soviet Union and Mongolia. Terrestrial pollen and macrofossil taxa were grouped into broad classes – plant functional types (PFTs), defined by the ecological and climatic parameters used in the BIOME1 model. PFT scores were then calibrated in terms of modern climate using 1245 surface pollen spectra from Eurasia and North America. In contrast to individual taxa, which exhibit great variability and may not be present in the palaeoassemblages, even in suitable climates, PFTs are more characteristic of the vegetation types. The modified method thus allows climate reconstruction at time intervals with partial direct analogues of modern vegetation (e.g. the LGM). At 18 kBP, mean temperatures were 20–29 °C colder than today in winter and 5–11 °C colder in summer in European Russia and Ukraine. Sites from western Georgia show negative, but moderate temperature anomalies compared to today: 8–11 °C in January and 5–7 °C in July. LGM winters were 7–15 °C colder and summers were 1–7 °C colder in Siberia and Mongolia. Annual precipitation sums were 50–750 mm lower than today across northern Eurasia, suggesting a weakening of the Atlantic and Pacific influences. Reconstructed drought index shows much drier LGM conditions in northern and mid-latitude Russia, but similar to or slightly wetter than today around the Black Sea and in Mongolia, suggesting compensation of precipitation losses by lower-than-present evaporation. Received: 11 May 1998 / Accepted: 25 September 1998     

The GEOMON network of Czech catchments provides long-term insights into altered forest biogeochemistry: From acid atmospheric deposition to climate change

In 1994, a network of small catchments (GEOMON) was established in the Czech Republic to determine input–output element fluxes in semi-natural forest ecosystems recovering from anthropogenic acidification. The network consists from 16 catchments and the primary observations of elements fluxes were complemented by monitoring of biomass stock, element pools in soil and vegetation, and the main water balance components. Over last three decades, reductions of SO₂, NO_x and NH₃ emissions were followed by sulphur (S) and nitrogen (N) deposition reductions of 75% and 30%, respectively. Steeper declines of strong acid anion concentrations compared to cations (Ca, Mg, Na, K, NH₄) in precipitation resulted in precipitation pH increase from 4.5 to 5.2 in bulk precipitation and from 4.0 to 5.1 in spruce throughfall. Stream chemistry responded to changes in deposition: S leaching declined. However at majority of catchments soils acted as a net source of S to runoff, delaying recovery. Stream pH increased at acidic streams (pH < 6) and aluminium concentration decreased. Stream nitrate (NO₃) concentration declined by 60%, considerably more than N deposition. Stream NO₃ concentration was tightly positively related to stream total dissolved nitrogen to total phosphorus (P) ratio, suggesting the role of P availability on N retention. Trends in dissolved organic carbon fluxes responded to both acidification recovery and to runoff temporal variation. An exceptional drought occurred between 2014 and 2019. Over this recent period, streamflow decreased by ≈ 40% on average compared to 1990s, due to the increases of soil evaporation and vegetation transpiration by ≈ 30% and declines in precipitation by ≈ 15% on average across the elevational gradient. Sharp decreases of stream runoff at catchments <650 m a.s.l. corresponded to areas of recent forest decline caused by bark beetle infestation on drought stressed spruce forests. Understanding of the interactions among legacies of acidification and eutrophication, drought effects on the water cycle and forest disturbance dynamics is requisite for effective management of forested ecosystems under anthropogenic influence.     

Assess hydrological responses to a warming climate at the Lysina Critical Zone Observatory in Central Europe

Climate warming is having profound effects on the hydrological cycle by increasing atmospheric demand, changing water availability, and snow seasonality. Europe suffered three distinct heat waves in 2019, and 11 of the 12 hottest years ever recorded took place in the past two decades, which will potentially change seasonal streamflow patterns and long-term trends. Central Europe exhibited six dry years in a row since 2014. This study uses data from a well-documented headwater catchment in Central Europe (Lysina) to explore hydrological responses to a warming climate. We applied a lumped parameter hydrologic model Brook90 and a distributed model Penn State Integrated Hydrologic Model (PIHM) to simulate long-term hydrological change under future climate scenarios. Both models performed well on historic streamflow and in agreement with each other according to the catchment water budget. In addition, PIHM was able to simulate lateral groundwater redistribution within the catchment validated by the groundwater table dynamics. The long-term trends in runoff and low flow were captured by PIHM only. We applied different EURO-CORDEX models with two emission scenarios (Representative Concentration Pathways RCP 4.5, 8.5) and found significant impacts on runoff and evapotranspiration (ET) for the period of 2071–2100. Results from both models suggested reduced runoff and increased ET, while the monthly distribution of runoff was different. We used this catchment study to understand the importance of subsurface processes in projection of hydrologic response to a warming climate.