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Glacial Origin (glacial + origin)

Distribution by Scientific Domains
Humanities and Social Sciences50%

Selected Abstracts

Piceoxylon pseudotsugae GOTHAN emend.

FEDDES REPERTORIUM, Issue 1 2001
Deutschland, VAN DER BURGH aus dem Obermiozän von Ottendorf-Okrilla bei Dresden
1987 konnte im Westteil der Kiesgrube Ottendorf-Okrilla (höheres Obermiozän) aus Tonen mit kohligen Schmitzen ein 1,14 m langer Stammrest geborgen werden. Er wird als Piceoxylon pseudotsugae Gothan 1906 emend, van der Burgh (1973) bestimmt. Das fossile Holz zeigt große Ähnlichkeit mit der heute noch im pazifischen Nordamerika beheimateten Pseudotsuga menziesii (Mirb.) Franco. Xylotomische Nachweise dieser Art sind bis heute nur wenige bekannt. Sie stammen aus Nordamerika, Deutschland (Rheinland), Österreich und Slask (Schlesien/Polen). Zu der anatomischen Beschreibung des Holzes wird die Ökologie der rezenten und die Paläookologie der fossilen Pseudotsuga diskutiert. Piceoxylon pseudotsugae Gothan emend. Van der Burgh from the Upper Miocene from Ottendorf-Okrilla near Dresden, Germany. A fossil wood, collected in Ottendorf-Okrilla by H. Kubasch, Kamenz, is described in this paper. It is identified by the first author as Piceoxylon pseudotsugae Gothan 1906 emend, van der Burgh 1973 because of its clear spiral thickenings in the tracheids (early and late wood) together with vertical and horizontal resin ducts. Tertiary wood assigned to this species is up till now only known from a few localities in North America and Europe (Rheinland/Germany, Austria, Silesia/Poland). The recent comparable species, Pseudotsuga menziesii (Mirb.) Franco, is known from a wide variety of localities in North America, with a very variable range concerning temperature. It is a tree of well drained, slightly acidic soils, preferably on sedimentary rocks with a volcanic or glacial origin. In the Tertiary of Europe this tree is also known from brown coal deposits. Therefore, for the Tertiary species a habitat in swamp environment must be added. [source]

GLACIATION OF MT ALLEN, STEWART ISLAND (RAKIURA): THE SOUTHERN MARGIN OF LGM GLACIATION IN NEW ZEALAND

GEOGRAFISKA ANNALER SERIES A: PHYSICAL GEOGRAPHY, Issue 2 2009
MARTIN S. BROOK
ABSTRACT. The origin of two ridges on the eastern slopes of Mt Allen, southern Stewart Island, has remained equivocal, with differences of opinion over the exact process-mechanisms of formation. A variety of approaches was used to test a number of possible hypotheses about the origin of the ridges. These include topographic and spatial positioning, geomorphology, sedimentology and palaeoclimatological extrapolations to reconstruct two small former cirque glaciers with equilibrium line altitudes (ELAs) of c. 600 m. It would appear the two ridges reflect a glacial origin, the glaciers interpreted as forming during the Last Glacial Maximum (LGM) in New Zealand. Whilst glaciation during this time (18,19 ka) was extensive in the Southern Alps, the restricted nature of glaciation on Mt Allen suggests the low altitude restricted glaciation to niche sites on the lee side of upland areas. [source]

Permafrost and Little Ice Age glacier relationships, Posets Massif, Central Pyrenees, Spain

PERMAFROST AND PERIGLACIAL PROCESSES, Issue 3 2004
Ralph Lugon
Abstract This paper contributes to the study of permafrost in the Pyrenees by reporting geoelectrical investigations and thermal measurement on the Little Ice Age (LIA) forefields of two glaciers. The aim was to assess the internal composition of sedimentary bodies (debris rock glaciers and moraine deposits) located in this proglacial environment. Ground ice was prospected using two DC resistivity techniques: vertical electrical soundings and resistivity mapping at a fixed pseudo-depth. Extreme specific resistivities ranging between 1 and 25,M,,m were detected under a thin (1,2,m) unfrozen layer, indicating the presence of a massive ice layer, certainly buried glacier ice. This ice of glacial origin probably covers former permafrost bodies, i.e. a much thicker layer of perennially frozen sediments. Low subsurface temperatures measured on the deposits indicate that buried glacier ice could have been preserved on top of permafrost since the end of the LIA or earlier Holocene glacier advances. This stratigraphy demonstrates that glaciers and pre-existing perennially frozen sediments (permafrost) were in contact during the LIA. Copyright © 2004 John Wiley & Sons, Ltd. [source]

A New Method to Identify Quaternary Moraine: Acoustic Emission Stress Measurement

ACTA GEOLOGICA SINICA (ENGLISH EDITION), Issue 5 2006
ZHAO Zhizhong
Abstract: How to effectively identify glacial sediments, especially Quaternary moraine, has been in dispute for decades. The traditional methods, e.g., sedimentary and geomorphologic ones, are facing challenge in eastern China where controversial moraine deposits are dominatingly distributed. Here, for the first time, we introduce the acoustic emission (AE) stress measurement, a kind of historical stress measurement, to identify Quaternary moraine. The results demonstrate that it can be employed to reconstruct stress information of glaciation remaining in gravels, and may shed light on the identification of Quaternary moraine in eastern China. First, we measured the AE stress of gravels of glacial origin that are underlying the Xidatan Glacier, eastern Kunlun Mountains in western China. Second, we calculated the stress according to the actual thickness of the glacier. The almost identical stress values suggest that the glacial gravels can memorize and preserve the overlying glacier-derived aplomb stress. And then we introduce this new approach to the controversial moraine in Mount Lushan, eastern China. The results indicate that the stress is attributed to the Quaternary glacier, and the muddy gravels in the controversial moraine in Mount Lushan are moraine deposits but not others. [source]