Evolution géomorphologique et hydrologique dans les marais de Limagne au cours de la seconde moitié de l'Holocène (Massif central, France) / Geomorphological and hydrological evolution in the Limagne swamps during the second part of the Holocene (Massif central, France).

Ballut, Christèle

doi:10.3406/quate.2001.1680

Cited by 12 publications

(10 citation statements)

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“…Radiocarbon ages of these two high-energy alluvial phases, similarity with contemporaneous dynamics observed in the Rhone valley (Berger et al, 2007) and consistency with previous studies in Limagne lowlands (Ballut, 2001;Ballut and Guichard, 2005;Trément, 2011;Vital, 2004) indicate that they certainly had a climatic trigger. The first phase was likely associated with the 4.2 kyr.…”

Section: Early To Middle Bronze Agesupporting

confidence: 86%

“…Our work aimed to contribute to this scientific challenge providing new data in the Limagne plain (central France) where even recent Holocene palaeoenvironmental and geoarchaeological research often lacked chronological accuracy. This lack of chronological accuracy has hindered proper discussion of socio-environmental interactions during critical protohistoric periods, despite abundant studies conducted since the 2000s (Ballut, 2001;Macaire et al, 2010;Trément, 2007a;Trément, 2011;Vernet, 2013). The main objective of this study was therefore to bring out new multiproxy palaeoenvironmental and geoarchaeological data at high chronological resolution in Limagne, and subsequently use them to discuss interactions of human activities with natural landscapes, especially with soils and hydro-sedimentary system of the catchment, as well as local vegetation and hydrology.…”

Section: Introductionmentioning

confidence: 99%

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Early human impact on soils and hydro-sedimentary systems: Multi-proxy geoarchaeological analyses from La Narse de la Sauvetat (France)

et al. 2020

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We analysed the late-Holocene pedo-sedimentary archives of La Narse de la Sauvetat, a hydromorphic depression in the southern Limagne plain (central France), where chronologically accurate studies are scarce. The multi-proxy geoarchaeological and palaeoenvironmental analysis of two cores from different areas of the basin was carried out through sedimentological, geochemical, micromorphological and malacological investigations. Integration of these datasets supported by a robust radiocarbon-based chronology allowed discussion of socio-environmental interactions and anthropogenic impacts from Late Neolithic to Early Middle Ages. Until the Middle Bronze Age, there was no clear evidence of anthropogenic impact on soils and hydro-sedimentary dynamics of the catchment, but two peaks of high alluvial activity probably related to the 4.2 and 3.5 kyr. BP climate events were first recorded in Limagne. Significant anthropogenic impacts started in the Late Bronze Age with increased erosion of the surrounding volcanic slopes. However, a major threshold was reached c. 2600 cal BP with a sharp increase in the catchment erosion interpreted as resulting from strong anthropogenic environmental changes related to agricultural activities and drainage. This implies an anthropogenic forcing on soils and hydro-sedimentary systems much earlier than was usually considered in Limagne. These impacts then gradually increased during Late Iron Age and Roman periods, but environmental effects were certainly contained by progress in agricultural management. Late Antiquity environmental changes are consistent with regional trend to drainage deterioration in lowlands, but marked asynchrony in this landscape change suggests that societal factors implying differential land management were certainly predominant here.

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Section: Early To Middle Bronze Agesupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Early human impact on soils and hydro-sedimentary systems: Multi-proxy geoarchaeological analyses from La Narse de la Sauvetat (France)

et al. 2020

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“…It is located in the Auvergne region, 10 km southwest of Clermont-Ferrand in the Limagne rift (x = 663 780 m; y = 2 082 180 m in the Lambert Conformal Conic system; Figure 1A). The origin of the lacustrine depression is probably tectonic (Ballut, 2000;Trément et al, 2007b;Fourmont et al, 2009); it can only be drained by evaporation or via the outlet located at the northeastern end of the catchment ( Figure 1B). The depression filled with sediments until it was drained by humans during the seventeenth century (Fournier, 1996); it is bordered on the north and east by alluvial terraces.…”

Section: Introductionmentioning

confidence: 99%

Quantitative analysis of climate versus human impact on sediment yield since the Lateglacial: The Sarliève palaeolake catchment (France)

et al. 2010

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International audienceMinimum rates of solid (SSY) and dissolved (DSY) sediment yield (SY) were evaluated in t/km 2 per yr from sediments stored in the Sarliève palaeolake (French Massif Central) for seven phases of the Lateglacial and Holocene up to the seventeenth century. The catchment (29 km2), mainly formed of limestones and marls, is located in an area rich in archaeological sites in the Massif Central. The respective impacts of human activities and climate on SY were compared by quantification of human settlements through archaeological survey and palynological data. During the Lateglacial and early Holocene up to about 7500 yr cal. BP, variations in SSY and DSY rates were mainly related to climate change with higher rates during colder periods (Younger Dryas and Preboreal) and lower rates during warmer periods (Bölling-Alleröd and Boreal). However, CF1 tephra fallout induced a sharp increase in SY during the Alleröd. During the middle and late Holocene after 7500 yr cal. BP, SSY and DSY greatly increased (by factors of 6.5 and 2.8, respectively), particularly during the Final Neolithic at about 5300 yr cal. BP when the climate became cooler and more humid. After this date, at least 75% of the SSY increase and more than 90% of the DSY increase resulted from human activities, but SSY rates showed little variation during Protohistoric and Historic Times up to the seventeenth century. SSY and DSY rates and DSY/SSY ratio indicate that catchment soils began to form during the Lateglacial and Preboreal, thickened considerably during the Boreal and Atlantic, finally thinning (rejuvenation) mainly as the result of human-induced erosion during the sub-Boreal and sub-Atlantic. Increased mechanical erosion during the late Holocene also induced an increase in chemical erosion

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“…La coupe longitudinale observée le long du bâtiment, au nord-est du site, témoigne que ce léger talweg correspond à une structure naturelle de drainage des eaux de ruissellement. La morphologie et l'implantation des structures révèlent que ce talweg était perceptible durant le Bronze moyen, bien que nous ignorions s'il était actif à cette période (Ballut, 2000). Il est vraisemblable que cette dépression ait pu constituer une délimitation naturelle à l'extension du site et qu'elle ait contribué à l'organisation spatiale de l'habitat.…”

Section: Les Contextes Chronostratigraphique Et Paléotopographique (Cunclassified

Un habitat du Bronze moyen à Cournon-d'Auvergne (Puy-de-Dôme) : nouvelles données sur la dynamique de l'Âge du Bronze moyen sur la bordure méridionale du Massif central

Christelle¹,

Carozza²,

Bouby³

2006

bspf

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Evolution géomorphologique et hydrologique dans les marais de Limagne au cours de la seconde moitié de l'Holocène (Massif central, France) / Geomorphological and hydrological evolution in the Limagne swamps during the second part of the Holocene (Massif central, France).

Cited by 12 publications

References 0 publications

Early human impact on soils and hydro-sedimentary systems: Multi-proxy geoarchaeological analyses from La Narse de la Sauvetat (France)

Early human impact on soils and hydro-sedimentary systems: Multi-proxy geoarchaeological analyses from La Narse de la Sauvetat (France)

Quantitative analysis of climate versus human impact on sediment yield since the Lateglacial: The Sarliève palaeolake catchment (France)

Un habitat du Bronze moyen à Cournon-d'Auvergne (Puy-de-Dôme) : nouvelles données sur la dynamique de l'Âge du Bronze moyen sur la bordure méridionale du Massif central

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