Oldest Dryas
The Oldest Dryas was a climatic period, which occurred during the coldest stadial after the Weichselian glaciation in north Europe. In the Alps, the Oldest Dryas corresponds to the Gschnitz stadial of the Würm glaciation. The three “Dryas” periods (younger, older, oldest) are named for a marker species, Dryas octopetala, detected in core samples of glacial ice and peat bogs. The Oldest Dryas corresponds to pollen zone Ia.
Dating
The dates of this period are approximately 16,050-13,050 BC, from Roberts, 1998. A date from Kilkeel, Northern Ireland, extends the start of the period to as early as 17,050 BC. A strong sequence of C-14 dates derived from layered material in the Hauterive/Rouges-Terres excavations on the northwest shore of Lake Neuchâtel in Switzerland, 1992–1993, places the end of the Oldest Dryas at about 12,700 BC calibrated. The same date from Antarctica and the south China sea is 14,600 and 14,700, respectively, while a Greenland ice core indicates 14,500.
The ultimate standard to which all these dates are to be compared is the graph of the oxygen isotope ratio cycles, which gives change in isotope concentration on the y-axis versus time on the x-axis. The graph plots many events that are sharply defined, but others are not. The selection of a terminal point is sometimes partially arbitrary.
The end of the Oldest Dryas is sharply defined. The beginning is a long, gently sloping band, probably no earlier than 17,050 BC, but the date might be set later by approximately 1000 years. Data derived from isotope variation of nitrogen and argon trapped in Greenland ice gives a high-resolution date for the end of the oldest Dryas at the sharp temperature rise of 14.67 ky BP.
Late Pleistocene climate sequence
The complete sequence of late Pleistocene climatic periods defined for northern Europe are the Oldest Dryas, the Bölling (interstadial), the Older Dryas (stadial), the Allerød (interstadial), and the Younger Dryas (stadial). The Holocene begins immediately afterward. The last three just mentioned are also Blytt-Sernander periods.
Sometimes the Older Dryas is missing, as in the Jura of France, or is negligible in the evidence. In that case, the initial part of the sequence appears to be: Oldest Dryas (cold), Bølling-Allerød (warm), Younger Dryas (cold). The Bølling-Allerød corresponds to the Windermere interstadial in Britain.
Often, however, the apparently missing Older Dryas is a problem of resolution in the evidence. Some scientists have undertaken “high-resolution” studies, which combine a variety of climatological methods. These studies, such as the ones conducted on Owens and Mono lakes in California, usually detect the Older Dryas. Even when detected, the Older Dryas appears to be no more than a few centuries of slightly cooler weather on the oxygen isotope ratio graph.
Flora
During the Oldest Dryas, a treeless Europe similar to the Arctic tundra presented itself. It contained shrubs and herbaceous plants such as:
- Poaceae, grasses
- Artemisia
- Betula nana, dwarf birch
- Salix retusa, dwarf willow
- Dryas octopetala
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Grassland (Inner Mongolia)
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Artemisia vulgaris
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Betula nana
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Dryas octopetala
Fauna
Species are mainly Arctic; however, during the glacial maximum the warmer weather species had withdrawn into refugia. Starting in the oldest Dryas they began to repopulate Europe.
The brown bear, Ursos arctos, was among the first to arrive in the north. Genetic studies indicate north European brown bears came from a refugium in the Carpathians of Moldavia. Other refugia were in Italy, Spain and Greece.
The bears would not have returned north except in pursuit of food. The tundra must already have been well populated. It is likely that the species hunted by man at Lake Neuchâtel in Switzerland by the end of the period were present during it:
Aves
- Gavia arctica, black-throated diver
- Podiceps nigricollis, black-necked grebe
- Cygnus cygnus, whooper swan
- Aquila chrysaetos, golden eagle
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Gavia arctica
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Podiceps nigricollis
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Cygnus cygnus
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Aquila chrysaetos
The above birds are primarily maritime. They must have fed in the copious glacial waters of the north just beginning to be released.
- Lota lota, burbot
- Thymallus thymallus, grayling
- Rutilus rutilus, roach
- Salmo trutta, trout
- Salvelinus alpinus, char
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Glacial stream
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Lota lota
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Salmo trutta
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Salvelinus
The smaller mammals of the food chain inhabited the herbaceous blanket of the tundra:
- Discrotonyx torquatus, collared lemming
- Microtus oeconomus, root vole
- Microtus arvalis, common vole
- Chionmys nivalis, snowy vole
- Lepus timidus, Arctic hare
Sciuridae
- Marmota marmota, marmot
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Microtus oeconomus
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Microtus arvalis
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Lepus timidus
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Marmota marmota
In addition to the bears and the birds were other predators of these small animals:
- Felis lynx, lynx
- Alopex lagopus, Arctic fox
- Canis lupus, wolf
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Lynx (or Felis) lynx
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Alopex lagopus
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Canis lupus
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Icelandic horse, perhaps like Equus ferus
Man was interested in the large mammals, which included:
- Rangifer tarandus, reindeer
- Equus ferus, wild horse
- Capra ibex, ibex
At some point the larger mammals arrived: the hyena, wooly rhinoceros, cave bear and mammoth.
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Rangifer tarandus
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Capra ibex
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Wooly rhinoceros
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Mammoth
Human prehistory
Human cultures in Europe were upper Palaeolithic and belonged to Cro-Magnon man. Neanderthals had long since disappeared either by replacement or by amalgamation with modern man. The Magdalenian culture of reindeer hunters prevailed in west Europe. From the Carpathians eastward the Epigravettian continued the prior Gravettian. To the far east, the Jōmon culture had already become sedentary, was producing some food, and possibly grew rice, even though they were not at all urban. They were manufacturing the first pottery ever, as far as we know now.
One of the most remarkable discoveries of the period was the domestic wolf, a distinct breed of canis lupus with smaller teeth. The domestic dog, canis familiaris, also has been found. It is thought that these animals helped with the hunting, but they would by the nature of the hunt have gradually become adept at herding.
See also
References
- Ehlers, Gibbard, Hughes (eds) (2011) Quaternary Glaciations - Extent and Chronology: A Closer Look Elsevier ISBN 9780444534477
- Bradley, Raymond S. (2013) Paleoclimatology: Reconstructing Climates of the Quaternary Academic Press ISBN 9780123869951
External links
- the Holocene
- High-resolution studies of lake sediments
- Glaciers and Climate in Western Austria
- Late Glacial Shetland
- Chronology of Climatic Change During the Last Deglaciation
- Late Glacial Ice Advances in Maritime Canada
- The Venus of Neuchatel
- Brown Bears
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