Autogenic and allogenic denudation in carbonate karst by the multiple basin method: An example from Svartisen,North Norway

In carbonate karst basins, adequate denudation rates are difficult to estimate when there are allogenic inputs. It is shown that the common practice of correcting for allogenic input by Corbel's modified formula leads to erroneous results unless the karst ratio is very high. When choosing small basins that are subsets of each other, assumptions of hydrologic and lithologic uniformity may be satisfied. Then the autogenic and allogenic components of the denudation may be calculated by a linear model of uniform mixing. The model was tested in a subarctic stripe karst in North Norway, yielding an autogenic denudation rate of 32.5 ± 10.2 mm ka^?1. The mean annual runoff is 2600 mm. The result is supported by independent denudation rates from comparable areas, micro-erosion meter data as well as the total post-glacial corrosion deduced from pedestal and vein heights.     

Reconstruction of Alpine Cenozoic paleorelief through the analysis of caves at Siebenhengste (BE,Switzerland)

Abstract

The cave region of Siebenhengste, situated north of Lake Thun (Switzerland), contains one of the most important cave systems in the world, which extends from 500 to 2000 m a.s.l. It has a complex multiphase history. The recognized speleogenetic phases are related to spring level and to old valley floors. The six most recent phases were investigated in St. Beatus cave and Bärenschacht. They suggest a progressive Quarternary Aare valley incision to 890, 805, 760, 700, 660, and 558 m a.s.l. that is confirmed by statistical analysis of small caves. U/Th-datings of flowstone allowed a timing of the valley deepening phases: the valley bottom was at 760 m already before 350 ka, the one at 700 m was active between 235 and 160 ka. The cave morphology in the upper part of the cave system was coupled with sedimentological observations. This combination leads to the hypothesis that the uppermost (oldest) cave parts were already created in the Miocene, during and after the last deposition of the Molasse. Ideas about the evolution of the paleorelief suggest that today's Aare valley is a product of glacial erosion, and that the old Aare valley shifted its position several times between the Miocene and today. © 2002 Éditions scientifiques et médicales Elsevier SAS. All rights reserved.     

Vertebrate remains in Holocene limestone cave sediments: faunal succession in the Sirijorda Cave, northern Norway

The faunal composition and temporal species succession dynamics during the Holocene are poorly known in Norway, and interpretations are often biased because of the potential overrepresentation of game species in the archaeological finds. Pitfall traps in limestone caves represent less biased long-term records of fauna, often being excellently preserved for thousands of years and thus providing an opportunity for reconstruction of the postglacial distribution history. We excavated fossiliferous sediments at the bottom of a 40-m entrance shaft, functioning as a pitfall trap, in the Sirijorda Cave, northern Norway, comprising 3467 identified vertebrate bone fragments. Radiocarbon-dating of mammalian bones at stratigraphic levels in excavated trenches was used for calibrating the time scale during the last 8000 ¹⁴C years BP, with a reconstruction of local vegetation history from a pollen profile in the cave deposits. At least 20 species were identified: one frog, two birds (plus 1-2 to genus level) and 17 mammals. Most of the species appeared more or less continuously during the covered time periods of the Atlantic, Subboreal and Subatlantic chronozones. With the exception of one species, Sorex isodon, which seems to have disappeared during the past 2000 years, all the registered species in the time profile are present in the area today. The possible immigration routes and time periods for (re)colonization of the recorded species are discussed.     

Comparison of the Climate during Marine Isotope Stage 9 and 11 Inferred from a Speleothem Isotope Record from Northern Norway

A stalagmite from northern Norway is dated with 12 thermal ionization mass spectrometry U-Th dates, and at least four separate growth periods are identified that correspond with marine isotope stages 9, 11, 13, and probably 15. The calcite is tested for isotopic equilibrium with the Hendy test. Oxygen isotope measurements on 231 subsamples on a vertical transect are used as a paleotemperature proxy. The detailed isotopic record from MIS 9 show apparent similarities to a Holocene record from the same cave, both in the climatic evolution and the overall temperatures: both show temperature oscillations changing from high-frequency, low-amplitude cycles in the beginning of the interglacial period to lower frequency, higher amplitude cycles in the later part of the interglacial period. The isotope record from MIS 11 shows a distinct isotopic event toward heavier values. The isotopic record together with the porous, humus-rich calcite are interpreted as indicating a warmer than present interglacial period with several episodes of heavy rainfall.     

桂林盘龙洞石笋发光性特征及其古环境记录的初步研究

洞穴次生化学沉积物的发光性的研究可以提供分辨率更高的古环境变化信息。桂林盘龙洞一石笋发光性的研究表明，该地区在３．２～１．１万ａ之间普遍处于干冷条件下，而且微层发光谱线表明在此阶段仍存在多次次一级气候变化。在１．１３万ａ左右，谱线值突然由低升高，在１．１０万ａ后，在不断变化中逐渐上升，这可能是新仙女木事件（１．１３～１．１万ａ）在该地区的记录。此外，通过发光性记录与稳定同位素记录和微量元素记录的对比，其变化趋势基本一致，且具更高的分辨率。因此，洞穴次生化学沉积物发光性的研究可能会提供一个地区分辨率更高的古     

The Younger Dryas Event and Holocene Climate Fluctuations Recorded in a Stalagmite from the Panlong Cave of Guilin

Comprehensive studies on a stalagmite from the Panlong cave, Guilin, have shown that the isotopic records and sedimentary characteristics can reflect the changes of both palaeotemperatures and palaeorainfall, that is to say, it is possible to get some information about the changes in climate of the area from the speleothem. The results suggest that: (1) the Younger Dryas event might have persisted in the area from 11 300 to 10 800 a B.P.; (2) from 9000 to 7000 a B.P., the climate got warmer and wetter, and the summer monsoon was gradually enhanced; (3) from 7000 to 4500 a B.P., the climate was warm and wet, and the summer monsoon prevailed; and (4) from 4500 a B.P. on, the summer monsoon was weakened and the modern climate pattern appeared, but there were several cold and dry periods, namely, from 4000 to 2500 a B.P., ca. 2400 a B.P. and < 1000 a B.P.     

Cave stratigraphy in western Norway; multiple Weichselian glaciations and interstadial vertebrate fauna

Skjonghclleren is a marine-cut cave with 15–20. m thick pre-Holocene sediments. Corings and excavations reveal three beds of extremely fine-grained, laminated sediments alternating with blocky sediments. The laminated beds are interpreted as glaciolacustrine sediments deposited subglacially at times when ice sheets covered the area, suggesting at least three glaciations after the cave was formed. The blocky/diamictic sediments were formed by frost-shattered blocks from the roof of the cave during ice-free periods, and mixing with the fines through slow mass movements along the floor of the cave. In the diamictic sediment beneath the uppermost laminated bed, almost 7,000 bone and teeth fragments of birds, mammals and fish were found. Birds dominated, with little auk and brunnich's guillemot as the most frequently occurring species. Arctic fox was the dominating mammal. During climatic optimum of the interstadial, conditions seem to have been similar to present-day coastal Finnmark, with North Atlantic warm water entering the Norwegian Sea. Two radiocarbon dates on bones and three Uranium series dates on speleothems from this bed all cluster around 30,000 B.P., i.e., the end of the Ålesund interstadial. Above the uppermost laminated bed, bone fragments of birds, fish and mammals, deposited between c . 12,000 and c . 10,000 B.P., were found. Little auk dominate. The occurrence of squirrel is worth noting since it is limited mainly to areas with coniferous forest today. The beds below the 30,000B.P. bed are poorly dated or undated, but it is tentatively concluded that the entire sediment sequence was deposited during the Weichselian stage. It seems that the cave was formed at a high relative sea-level stand sometime during the Early Weichsclian. Two recorded palaeomagnetic excursions seem to correlate with the Laschamp/Olby and the Lake Mungo events, respectively.