Human Settlements and the Last Deglaciation in the French Alps

Evin, Jacques; Bintz, Pierre; Monjuvent, Guy

doi:10.1017/s0033822200014521

Cited by 13 publications

(12 citation statements)

References 8 publications

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“…The non-diamagnetic properties of the limestones are almost completely dominated by goethite, and the marls contain iron-bearing paramagnetic minerals and goethite (Hu, 1997). Rissian and Würmian glaciers (Evin et al, 1994) deposited at least two types of till: one contains abundant schist erratics derived from the inner Alps and is dominated by paramagnetic minerals with low concentrations of primary ferrimagnetic minerals (Hu, 1997); the other is composed of limestones and marls considered to be of local origin (Beck et al, 1996;Hu, 1997;Hu et al, 2001). Early magnetic and Mössbauer studies showed that many of the surface soils in the well-drained parts of the catchment are relatively rich in fine-grained secondary ferrimagnetic minerals (SFMs) produced by pedogenic enhancement mechanisms (Dearing, 1979;Longworth et al, 1979;Dearing et al, 1996).…”

Section: Site Descriptionmentioning

confidence: 99%

Meteorological and land use controls on past and present hydro‐geomorphic processes in the pre‐alpine environment: an integrated lake–catchment study at the Petit Lac d'Annecy, France

Foster

Dearing

Jones

et al. 2003

Hydrological Processes

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A wide range of environmental records is integrated in order to reconstruct the mechanisms of flooding and sediment transport within the 170 km(2) Petit Lac catchment, Annecy, France, over time scales of 10(-1) to 10(2) years. These records include sequential lake sediment trap samples and cores, floodplain stratigraphies, dated landform assemblages, hydro-meteorological records, and documented histories of river channel and land-use change. Mineral magnetic measurements are used as the basis for classifying catchment sediment sources and tracing sediment movements through time. Records of magnetic susceptibility for monthly sediment trap samples (1998-99) track seasonal discharge, peaking in winter and spring. Magnetic records in lake sediment cores are compared against and tuned to precipitation records to provide dated proxy records for past discharge spanning sub-annual to decadal time scales back to 1826. Calculated sediment accumulation rates in lake sediment cores are used as proxies for time-averaged catchment sediment load. Analysis of the results reveals that climate and land-use controls on the hydrological and sediment system are complex and vary according to the time scale of observation. In general, cycles of agricultural expansion and deforestation appear to have been the major cause of shifts in the sediment system through the late Holocene. Deforestation in the 18th century may have caused a number of high-magnitude flood and erosion events. As the time scale of observation becomes shorter, changes in climate and hydro-meteorological conditions become progressively more important. Since the mid-19th century, smoothed records of discharge roughly follow annual precipitation; this is in contrast to sediment load, which follows the trend of declining land-use pressures. Episodic erosion events during this recent period seem to be linked to geomorphic evidence for slope instability in the montane and sub-alpine zones, triggered by intense summer rainfall. At the annual scale, changes in seasonal rainfall become paramount in determining sediment movement to downstream locations. The study demonstrates that the connections between forcings and responses span a four-dimensional array of temporal and spatial scales, with strong evidence for dominantly nonlinear forcing-response mechanism

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Section: Site Descriptionmentioning

confidence: 99%

Meteorological and land use controls on past and present hydro‐geomorphic processes in the pre‐alpine environment: an integrated lake–catchment study at the Petit Lac d'Annecy, France

Foster

Dearing

Jones

et al. 2003

Hydrological Processes

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“…Significant climatic events occurred in the beginning of the eighth millennium BC in Europe that are responsible for profound changes in the distribution of natural habitats and ecological niches (Guerreschi, 1992;Evin et al, 1994;Broglio and Lanzinger, 1996;Davis et al, 2003;Tinner and Theurillat, 2003;Jalut, 2005;Aceti, 2006;Brugiapaglia, 2007;Badino et al, 2010;Pini et al, 2011). These climatic features certainly conditioned the settlement choices and subsistence strategies of Mesolithic groups (Kozlowski, 1973;Bagolini, 1980;Broglio, 1980;Angelucci, 1997;Guerreschi, 1998).…”

Section: Mesolithic Human Settlements On the Southern Slope Of The Alpsmentioning

confidence: 99%

Deep-seated gravitational slope deformations as possible suitable locations for prehistoric human settlements: An example from the Italian Western Alps

Forno

Gattiglio

Gianotti

et al. 2013

Quaternary International

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a b s t r a c tThe Plan di Modzon is a mountain area (2300 m) located in the Verrogne Valley, NW of Aosta (Western Alps). It occurs along the contact between the Middle Penninic (micaschist and gneiss from the Gran San Bernardo Nappe) and the overlying upper units of the Piedmont Zone (carbonate calcschist alternating with marble).This area, largely shaped by Pleistocene glaciers, was involved in a wide deep-seated gravitational slope deformation (Pointe Leysser DSGSD) on the western extension of the Becca France doubled ridges. Several ridges that were affected by glacial erosion, discontinuously covered by glacial sediments, are present throughout the area. Extremely fractured rocks and various gravitational forms (minor scarps and trenches) mark the DSGSD.Several archaeological sites (MF1eMF9) have recently been found between 2242 and 2292 m asl. They have revealed artifacts of rock crystal (hyaline quartz) referred to the Sauveterrian stage of the Mesolithic. An ensemble of other archaeological evidence is referred to the Copper Age. The investigation in progress specifically concerns the systematic excavation of sites MF1 and MF3.Some concomitant morphological factors have created very favorable conditions for prehistoric settlements in the Plan di Modzon area, including the exceptionally wide valley floor directly perched on the main Dora Baltea Valley, in consequence of the Verrogne Glacier diversion promoted by the P. Leysser DSGSD. Easy and direct accessibility to this area is provided by the gently-dipping slope of the Dora Baltea Valley affected by the DSGSD. The ridged and grooved morphology as the result of the glacial and gravitational interaction, offered wide surfaces free from geological hazards (debris flow and avalanche processes). The DSGSD is, therefore, one of the primary causes of the archaeological settlement of this area, contributing to create a morphology adapted to prehistoric settlements.

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“…Exposures crossed by the 3 rivers include primarily limestone, dolomitic limestone, and marl of Jurassic and Cretaceous age ( Figure 4A). Late Pleistocene (primarily Würmian) tills (EVIN et al, 1994;NICOUD and MANALT, 2001), fluvio-glacial and lacustrine deposits, and slope scree are also locally important in the southern drainage basin and lake margin ( Figures 4A, 5A-C).…”

Section: Geological and Geographic Considerationsmentioning

confidence: 99%

“…Currently, this is no longer the case. As a result of human modification, especially during the past few centuries (CIIAVOUTIKR, 1977;EVIN et al, 1994;BUII.LIT et al, 1997;NEGREL et al, 1997;BEARING, 2000), the rivers are almost completely confined along their lower stretches ( Figure 5F), and flow from 3 separate, but proximal, source areas directly to the delta and lake shore (Figure 2). Sediment remains confined in each channel as it crosses the Bou du Lac, with records of only minor overbanlc deposition and flooding between the base of deeply incised river valleys and southern lake margin (Figures IB,2A,B).…”

Section: Introductionmentioning

confidence: 99%

Direct Sediment Dispersal from Mountain to Shore, with Bypassing via Three Human-Modified Channel Systems to Lake Annecy, SE France

Stanley

Jorstad

2004

Journal of Coastal Research

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. Direct sediment dispersal from mountain to shore, with bypas.sing via three human-modified channel systems to Lake Annecy, SE France. Journal of Coastal Research, 20(4),[958][959][960][961][962][963][964][965][966][967][968][969]. ISSN 0749-0208. Lake Annecy in Haute Savoie, France, receives about two-thirds of its fluvial input from three rivers that flow to its southern end-point. The channels of the Eau Morte, Ire, and Bornette rivers are almost completely channelized in their lower reaches as a result of human activity, with flow contained along parallel, but separate, paths from headlands in the proximal drainage basin directly to the lake. Pétrographie data from river samples collected in this study serve to differentiate sand-size material carried by each fluvial system. Proportions of the dominant (limestone) and five additional (dolomite, quartz, gypsum, rock fragments, and 'other') components in the 3 rivers are more closely related to source supply than to fluvial transport effects or sampling strategy. Of the 7 components, mica best records the influence of depositional mechanisms. Much of the carbonate sand and coarser material at the lake shore is derived from widespread Mesozoic outcrops. Non-carbonate sand input, partially resulting from erosion of glacial till deposits and pedogenic horizons in the southern drainage basin, provides key compositional markers to differentiate between sediment carried to the lake by each river.Until several centuries ago, deposits of the Eau Morte, Ire, and Bornette flowed to the Bou du Lac, and formed a merged, multifluvial lacustrine delta. As drainage and channel containment projects related to agricultural development intensified in lake margin lowlands, the 3 channels were separated on the delta surface, allowing bypass of river material directly onto subaqueous deltas in the lake. Specific mineral assemblages, especially quartz, mica and rock fragments, may prove useful as key tracers of human-altered sediment between the margin and deeper lake sectors.

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Human Settlements and the Last Deglaciation in the French Alps

Cited by 13 publications

References 8 publications

Meteorological and land use controls on past and present hydro‐geomorphic processes in the pre‐alpine environment: an integrated lake–catchment study at the Petit Lac d'Annecy, France

Meteorological and land use controls on past and present hydro‐geomorphic processes in the pre‐alpine environment: an integrated lake–catchment study at the Petit Lac d'Annecy, France

Deep-seated gravitational slope deformations as possible suitable locations for prehistoric human settlements: An example from the Italian Western Alps

Direct Sediment Dispersal from Mountain to Shore, with Bypassing via Three Human-Modified Channel Systems to Lake Annecy, SE France

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