Lateglacial vegetation development in Denmark – New evidence based on macrofossils and pollen from Slotseng,a small-scale site in southern Jutland

This paper presents the first unambiguous terrestrial palaeoecological record for the late glacial “Bølling warming” in Denmark. Pollen and macrofossil stratigraphies from pre-Bølling to 10,800 cal yr BP are presented from a small kettle hole in Southwest Denmark, during which the lake basin developed from an immature stage after the deglaciation to complete infilling in the early Holocene. Results show that the recently deglaciated landscape bore a discontinuous vegetation of pioneer plants. After the Bølling warming, an open Dryas octopetala-Betula nana community developed with Helianthemum oelandicum. Subarctic species were dominant and local successions were probably delayed by relatively unstable and infertile soils. There is no indication of a climate cooling during the period corresponding to the Older Dryas, but the occurrence of several drought tolerant and steppe species indicates that the period was relatively dry. In the Allerød period the Dryas-B. nana vegetation was initially replaced by an open Salix and grass dominated vegetation and some 400 years later, the first tree birches were documented presumably occupying moist and sheltered soils while drier land remained open. In the Younger Dryas period trees disappeared and the vegetation became open again and dominated by subarctic species. Following climate warming at the Younger Dryas–Holocene transition a shrub community of Empetrum and Juniperus developed. After approximately 200 years it was replaced by birch forest. Overall, the late-glacial vegetation cover had a more open and patchy character than inferred from previous pollen studies as assessment of the vegetation succession based on macrofossil evidence is essential. The inferred general vegetation development corresponds well with results of other studies in the region. Canonical ordinations (RDA) indicate that vegetation changes at the landscape scale during the Lateglacial period were driven by changes in climate, soils and competition for light.     

Grid adaptation for the Dirichlet–Neumann representation method and the multiscale mixed finite-element method

A Dirichlet–Neumann representation method was recently proposed for upscaling and simulating flow in reservoirs. The DNR method expresses coarse fluxes as linear functions of multiple pressure values along the boundary and at the center of each coarse block. The number of flux and pressure values at the boundary can be adjusted to improve the accuracy of simulation results and, in particular, to resolve important fine-scale details. Improvement over existing approaches is substantial especially for reservoirs that contain high-permeability streaks or channels. As an alternative, the multiscale mixed finite-element (MsMFE) method was designed to obtain fine-scale fluxes at the cost of solving a coarsened problem, but can also be used as upscaling methods that are flexible with respect to geometry and topology of the coarsened grid. Both methods can be expressed in mixed-hybrid form, with local stiffness matrices obtained as “inner products” of numerically computed basis functions with fine-scale sub-resolution. These basis functions are determined by solving local flow problems with piecewise linear Dirichlet boundary conditions for the DNR method and piecewise constant Neumann conditions for MsMFE. Adding discrete pressure points in the DNR method corresponds to subdividing faces in the coarse grid and hence increasing the number of basis functions in the MsMFE method. The methods show similar accuracy for 2D Cartesian cases, but the MsMFE method is more straightforward to formulate in 3D and implement for general grids.     

Boreas Book Reviews

Book reviewed in this article:
Climate change in the Holocene BENT ODGAARD
Quaternary palynology in eastern Europe BJÖRN E. BERGLUND     

Meteorological Observations in 1999 at the Arctic Station,Qeqertarsuaq (Godhavn), Central West Greenland/Evidence of a warmer climate around AD 600, Mittivakkat Glacier,South East Greenland

In october 1990 an automatic weather station was established at the Arctic Station (65° 15', 53°31'W), Qeqertarsuaq (Godhavn), Central West Greenland. The Station register parameters each 20 minutes, and the paramters have been described in an earlier paper in this journal by Nielsen et al.(1995). The present paper summarizes meteorological parameters during 1999.

During a field campaign in 1999, woody remains from Salix glauca were found on a nunatak, 515 m. a.s.l. on the Mittivakkat Glacier, South East Greenland. Radio carbon dating determined the age of a wood sample to AD 640. Together with analyses of macroscopic botanical remains and insect rests in peaty material found nearby, these results indicate, that a warmer climate prevailed near the glacier around AD 600. These findings are in accordance with temperature records based on studies of ice cores from the Greenland Ice sheet.     

Meteorological observations 2006 and ground temperature variations over 12-year at the Sermilik Station,Ammassalik Island,Southeast Greenland

Geografisk Tidsskrift, Danish Journal of Geography 108(1):153–161, 2008

Meteorological stations have been in operation since 1993 at the Sermilik Research Station (65°40′N, 38°10′W), Ammassalik Island, Southeast Greenland. This note presents meteorological observations for the calendar year 2006 from the two meteorological stations: Station Nunatak (515 m a.s.l.) and Station Coast (25 m a.s.l.). The year 2006 record is not complete due to a temporal break down of Station Coast (from end-of June through beginning of August). Special focus is given to ground temperature measurements at the meteorological Station Nunatak (1994–2006) 0.1 and 0.3 m below the surface. Data are presented to illustrate the intra- and inter-annual temperature variability and possible trends in the upper part of the soil.     

2D surface topography boundary conditions in seismic wave modelling

New formulations of boundary conditions at an arbitrary two-dimensional (2D) free-surface topography are derived. The top of a curved grid represents the free-surface topography while the grid's interior represents the physical medium. The velocity–stress version of the viscoelastic wave equations is assumed to be valid in this grid. However, the rectangular grid version attained by grid transformation is used to model wave propagation in this work in order to achieve the numerical discretization. We show the detailed solution of the particle velocities at the free surface resulting from discretizing the boundary conditions by second-order finite-differences (FDs). The resulting system of equations is spatially unconditionally stable. The FD order is gradually increased with depth up to eighth order inside the medium. Staggered grids are used in both space and time, and the second-order leap-frog and Crank–Nicholson methods are used for time-stepping. We simulate point sources at the surface of a homogeneous medium with a plane free surface containing a hill and a trench. Applying parameters representing exploration surveys, we present examples with a randomly realized surface topography generated by a 1D von Kármán function of order 1. Viscoelastic simulations are presented using this surface with a homogeneous medium and with a layered, randomized medium realization, all generating significant scattering.     

Isotopic datings of reddish granitoids in southern Värmland,southwestern Sweden

Three reddish granites from the Gneiss Complex of south-western Sweden have been dated with the U-Pb and one of them also with the Rb-Sr method. The Gneiss Complex consists of two mega-units separated by a tectonic discontinuity. The two granites from the western mega-unit (»the Western Gneiss Segment«) yield zircon upper-intercept ages of 1552 _–36 ⁺³⁸ and 1499 _–36 ⁺³⁶ Ma (2). These ages are minimum estimates of the intrusion ages, but the difference between the obtained and the true age is probably small. This assumption is based on studies of the morphology and internal structures of the zircons and also on air abrasion experiments.The third granite is located in the eastern mega-unit (the »Eastern Gneiss Segment«) and forms a number of small massifs, 50 m in diameter. The U-Pb and Rb-Sr ages agree within the limits of the errors — 1140 _–52 ⁺⁵⁴ Ma (upper intercept) and 1104 ± 100 Ma, respectively — but the obtained age is nevertheless dubious. Thin-section studies reveal that the zircons are heterogeneous with different types of material making up the inner and outer parts. Electron-microscopic studies as well as air abrasion and leaching experiments were performed to establish possible differences in age and chemistry between the inner and outer parts. The central parts are made up of almost pure ZrSiO₄ whereas the outer parts are layered with alternating pure ZrSiO₄ layers and layers rich in trace elements. The leaching and air abrasion data do not indicate any age difference between the inner and outer parts. This supports the validity of the upper-intercept age as an intrusion age.The Rb-Sr age is questionable since the obtained initial⁸⁷Sr/⁸⁶Sr ratio is as low as 0.7027. This cannot possibly be true for a felsic, late Proterozoic granite. A plausible explanation could be a rotation of the isochron due to migration of Rb and Sr during a low-grade event. This event is also responsible for the alteration of the biotites and plagioclases.These data provide additional evidence for extensive ensialic magmatism in the period succeeding the lithosphere-forming event.

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Zusammenfassung Drei rötliche Granite aus dem Südwestschwedischen Gneiskomplex sind mit der U-Pb Methode und einer davon zusätzlich mit der Rb-Sr Methode datiert worden. Der Gneiskomplex besteht aus zwei Haupteinheiten, die tektonisch voneinander getrennt sind. Zwei Granite aus der westlichen Haupteinheit (dem sogenannten »Western Gneiss Segment«) ergeben obere Schnittpunktsalter der Zirkone von 1552 _–36 ⁺³⁸ bzw. 1499 _–36 ⁺³⁶ Ma (2). Diese Alter stellen Minimumalter für die Instrusionen dar, die nur geringfügig jünger sind als die wahren Instrusionsaltern. Diese Vermutung stützt sich auf Untersuchungen der Morphologie und der internen Struktur der Zirkone sowie auf Experimente mit Hilfe der Luftabriebstechnik (air abrasion technique).Der dritte Granit stammt aus der östlichen Haupteinheit (dem sogenannten »Eastern Gneiss Segment«), in der er kleine Körper von etwa 50 m Durchmesser bildet. Die U-Pb und Rb-Sr Alter von 1140 _–52 ⁺⁵⁴ Ma (oberer Schnittpunkt), bzw. 1104 ± 100 Ma stimmen innerhalb des Fehlers überein. Trotzdem ist dieses Alter fragwürdig. Dünnschliffuntersuchungen zeigen, da\ die Zirkone heterogen sind, und da\ Rand und Kern unterschiedlich zusammengesetzt sind. Um Unterschiede in Alter und Chemismus zwischen Rand und Kern festzustellen, wurden Untersuchungen mit dem Elektronenmikroskop, Luftabriebsexperimente und Anätzexperimente durchgeführt. Die Kerne bestehen fast aus reinem ZrSiO₄, wogegen die äu\eren Ränder aus Wechsellagerungen von reinem ZrSiO₄ und Lagen mit hohem Spurenelementgehalt bestehen.Die Anätzversuche und die Luftabriebsexperimente brachten keinen Altersunterschied zwischen Rand und Kern. Diese Tatsachen sprechen dafür, da\ das obere Schnittpunktsalter dem Instrusionsalter entspricht.Das Rb-Sr Alter ist fragwürdig, zumal das⁸⁷Sr/⁸⁶Sr-Initialverhältnis einen sehr niedrigen Wert von 0,7027 aufweist, der für einen spätproterozoischen Granit viel zu niedrig ist. Eine mögliche Erklärung ist die Rotation der Isochrone wegen einer Migration von Rb und Sr während eines Ereignisses bei niedriger Temperatur, ein Ereignis, das auch für die Umwandlung von Biotit und Plagioklas verantwortlich zu sein scheint. Die oben aufgeführten Daten geben zusätzliche Hinweise für einen sialischen Magmatismus im Zeitraum des fortschreitenden Ereignisses der Bildung der Lithosphäre.

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Résumé Trois granites rougeâtres provenant du complexe gneissique du sud-ouest de la Suède ont été datés par la méthode U-Pb et, pour l'un d'entre eux, également par la méthode Rb-Sr. Le complexe gneissique consiste en deux grandes unités séparées par une discontinuité tectonique. Les zircons de deux granites provenant de l'unité occidentale (»Western Gneiss Segment«) fournissent des âges (intersection supérieure) de 1552 _–36 ⁺³⁸ et 1499 _–36 ⁺³⁶ Ma (2). Ces âges constituent des estimations minimales des âges d'intrusion, la différence entre l'âge mesuré et l'âge véritable étant probablement minime. Cette supposition se base sur l'étude de la morphologie et des structures internes des zircons, ainsi que sur des expériences d'abrasion à l'air.Le troisième granite est situé dans l'unité orientale (»Eastern Gneiss Segment«) et se présente en plusieurs massifs d'une cinquantaine de mètres de diamètre. Les âges U-Pb et Rb-Sr coÏncident dans les limites des erreurs (1140 _–52 ⁺⁵⁴ (point d'intersection supérieur) et 1104±100 Ma) l'âge obtenu étant néanmoins incertain. L'étude en coupes minces montre que les zircons sont hétérogènes, leurs parties centrales et périphériques présentant des constitutions différentes. Des examens au microscope électronique, ainsi que des essais d'abrasion à l'air et de corrosion à l'acide ont eté effectués afin de mettre en évidence des différences éventuelles d'âge et de composition chimique entre les parties contrales et périphériques. Tandis que les parties centrales consistent en ZrSiO₄ pratiquement pur, les parties extérieures se composent de couches de ZrSiO₄ pur alternant avec des couches contenant de multiples éléments en traces. Les données obtenues sur les grains corrodés à l'acide ou soumis à une abrasion à l'air n'indiquent cependant pas de différence d'âge entre les parties centrales et périphériques. Ceci confirme la validité de l'âge obtenu (point d'intersection supérieur) comme âge d'intrusion.L'âge Rb-Sr est douteux, étant donné que le rapport initial⁸⁷Sr/⁸⁶Sr n'est que de 0,7027, valeur improbable pour un granite felsique du ProtérozoÏque supérieur. Il paraÎt raisonnable de supposer une rotation de l'isochrone, due à une migration de Rb et Sr durant un événement à basse température. Cet événement serait également responsable de l'altération des biotites et des plagioclases. Ces données fournissent un argument supplémentaire en faveur d'un magmatisme ensialique pendant la période qui suit la formation de la lithosphère.

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- U/Pb, Rb/Sr. , . — . . Western Gneiss Segments — 1552 _–36 ⁺³⁸ 1499 _–36 ⁺³⁶ (2). . , air abrasion technique. — Eastern Gneiss Segments —, 50 . U/Pb 1140 _–52 ⁺⁵⁴ Ma ( ), Rb/Sr - 1104 ± 100 ; , . . , . , : , air abrasion technique . ZrSiO₄, ZrSiO₄, . air abrasion technique . , ., Rb/Sr, , ⁸⁷Sr/⁸⁶Sr (0,7027), . . - . — , , , . , .

     

Motion response of floating structures to regular waves

Linearized and non-linear methods for analysing motion response of floating structures to regular waves are discussed in this paper. The linearized method is based upon a traditional frequency domain approach, whereas the non-linear method is based upon the time integration method as proposed by Newmark. In addition, a new approximate method is proposed. This method, which employs a Newton-Raphson solution of the equations of motion, is an extension of the linearized method and is therefore valid for near linear systems. These methods are applied to a taut line moored structure; the Aker Tethered Production Platform and to a conventional semi-submersible, the Aker H3.     

The age of the Kaalijärv meteorite craters

Abstract— Precise radiometric age determination of the Kaalijärv meteorite craters on the island of Saaremaa in Estonia have so far proved inconclusive. Here we present trace element analyses of peat cores taken several kilometers away from the Kaalijärv craters that reveal a distinct Ir‐enriched layer produced by the meteorite impact. By radiocarbon dating the peat cores, we have determined for the first time the precise age of the impact that generated the Kaalijärv craters. The calibrated date of the impact is 400–370 B.C. at ± 1σ.     

Memories of Donald V. Helmberger: Mentor and seismologist extraordinaire

I grew up in one of the most aseismic regions of the planet but decided as a child that I wanted to be a seismologist.Ignoring all the naysayers who claimed tha...