scholarly journals Quaternary glacial history of the Mediterranean mountains

2006 ◽  
Vol 30 (3) ◽  
pp. 334-364 ◽  
Author(s):  
P. D. Hughes ◽  
J. C. Woodward ◽  
P. L. Gibbard
Keyword(s):  
Mediterranean Region ◽  
Global Climate ◽  
Radiometric Dating ◽  
Middle Pleistocene ◽  
Glacial Cycles ◽  
Mountain Glaciers ◽  
Advanced Phase ◽  
Mediterranean Mountains ◽  
The Mediterranean ◽  
Glacial Landforms

Glacial and periglacial landforms are widespread in the mountains of the Mediterranean region. The evidence for glacial and periglacial activity has been studied for over 120 years and it is possible to identify three phases of development in this area of research. First, a pioneer phase characterized by initial descriptive observations of glacial landforms; second, a mapping phase whereby the detailed distribution of glacial landforms and sediments have been depicted on geomorphological maps; and, third, an advanced phase characterized by detailed understanding of the geochronology of glacial sequences using radiometric dating alongside detailed sedimentological and stratigraphical analyses. It is only relatively recently that studies of glaciated mountain terrains in the Mediterranean region have reached an advanced phase and it is now clear from radiometric dating programmes that the Mediterranean mountains have been glaciated during multiple glacial cycles. The most extensive phases of glaciation appear to have occurred during the Middle Pleistocene. This represents a major shift from earlier work whereby many glacial sequences were assumed to have formed during the last cold stage. Glacial and periglacial deposits from multiple Quaternary cold stages constitute a valuable palaeoclimatic record. This is especially so in the Mediterranean mountains, since mountain glaciers in this latitudinal zone would have been particularly sensitive to changes in the global climate system.

scholarly journals Late Quaternary Fluvial Sedimentation in the Voidomatis Basin, Epirus, Northwest Greece

1991 ◽  
Vol 35 (1) ◽  
pp. 103-115 ◽  
Author(s):  
John Lewin ◽  
Mark G. Macklin ◽  
Jamie C. Woodward
Keyword(s):  
Mediterranean Basin ◽  
Late Quaternary ◽  
Radiometric Dating ◽  
Middle Pleistocene ◽  
The Mediterranean ◽  
Fluvial Sedimentation ◽  
The Mediterranean Basin

AbstractDetailed morpho- and lithostratigraphic investigations, allied with radiometric dating, in the Voidomatis basin, Epirus, northwest Greece, have identified four Quaternary terraced alluvial fills that range from middle Pleistocene to historic in age. Major-periods of alluviation during the late Quaternary were associated with valley glaciation (ca. 26,000–20,000 yr B.P.) and subsequent deglaciation (ca. 20,000–15,000 yr B.P.) in the Pindus Mountains during Late Würmian times, and more recently linked to overgrazing sometime before the 11th century AD. The late Quaternary alluvial stratigraphy of the Voidomatis River is more complex than the “Older Fill” and “Younger Fill” model outlined previously, and it is suggested that these terms should no longer form the basis for defining alluvial stratigraphic units in the Mediterranean Basin.

scholarly journals Glacial Landforms as Geodiversity Resources for Geotourism in Tierra del Fuego, Argentina

2021 ◽  
Vol 0 (0) ◽  
Author(s):  
Andrea Coronato ◽  
Soledad Schwarz ◽  
Flavia Flores Barrera
Keyword(s):  
Ad Hoc ◽  
Global Climate ◽  
Tierra Del Fuego ◽  
Middle Pleistocene ◽  
Quaternary Period ◽  
Global Climate Changes ◽  
Natural Processes ◽  
Glacial Landforms ◽  
The Last Glacial Maximum ◽  
The Last Glacial

Abstract The southern extreme location and the natural landscapes, highly modelled by glaciers during the Quaternary period, give Tierra del Fuego a unique opportunity to attract visitors worldwide. Its glacial landforms are geodiversity resources that are witness to global climate changes as natural processes. Therefore, this study aims to highlight different glacial landforms considering their geodidactic potential for educational information in terms of geographical study. Sixteen georesources connected by routes are analysed, using bibliographic research, fieldwork and a datasheet designed ad-hoc. Four of them were formed during middle Pleistocene glaciations and the other twelve during the Last Glacial Maximum (LGM), out of which two also represent the Holocene, which happens to be the youngest glaciation.

scholarly journals Global glacier dynamics during 100 ka Pleistocene glacial cycles

2018 ◽  
Vol 90 (1) ◽  
pp. 222-243 ◽  
Author(s):  
Philip D. Hughes ◽  
Philip L. Gibbard
Keyword(s):  
Solar Radiation ◽  
Global Climate ◽  
Ice Cores ◽  
External Control ◽  
Glacial Cycles ◽  
Mountain Glaciers ◽  
Ice Volume ◽  
Double Peaks ◽  
Dust Flux ◽  
Solar Radiation Flux

AbstractIce volume during the last ten 100 ka glacial cycles was driven by solar radiation flux in the Northern Hemisphere. Early minima in solar radiation combined with critical levels of atmospheric CO2drove initial glacier expansion. Glacial cycles between Marine Isotope Stage (MIS) 24 and MIS 13, whilst at 100 ka periodicity, were irregular in amplitude, and the shift to the largest amplitude 100 ka glacial cycles occurred after MIS 16. Mountain glaciers in the mid-latitudes and Asia reached their maximum extents early in glacial cycles, then retreated as global climate became increasingly arid. In contrast, larger ice masses close to maritime moisture sources continued to build up and dominated global glacial maxima reflected in marine isotope and sea-level records. The effect of this pattern of glaciation on the state of the global atmosphere is evident in dust records from Antarctic ice cores, where pronounced double peaks in dust flux occur in all of the last eight glacial cycles. Glacier growth is strongly modulated by variations in solar radiation, especially in glacial inceptions. This external control accounts for ~50–60% of ice volume change through glacial cycles. Internal global glacier–climate dynamics account for the rest of the change, which is controlled by the geographic distributions of glaciers.

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