Holocene formation and evolution of coastal dunes ridges, Brittany (France)

Vliët-Lanoé, Brigitte van; Goslin, Jérôme; Hénaff, Alain; Hallégouët, Bernard; Delacourt, Christophe; Cornec, Erwan Le; Meurisse-Fort, Murielle

doi:10.1016/j.crte.2015.01.001

Cited by 22 publications

(12 citation statements)

References 51 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Evidence of increased aeolian activity during this period are known from the coast of Denmark (Clemmensen et al, 2001; Pedersen & Clemmensen, 2005) and Great Britain (Sommerville et al, 2007; Wilson et al, 2001). The onset of dune formation occurred in a similar time span also in some regions of France, like Brittany (Van Vliet-Lanoë et al, 2016), Aquitaine (Clarke and Rendell, 2009) as well as in Belgium (Anthony et al, 2010) and the Netherlands (Jelgersma and van Regteren Altena, 1969). On the Polish coast, the phase of increased aeolian activity and the rapid expansion of the barriers are documented on the Świna Gate Spit (Reimann et al, 2011) as well as on Western Pomerania, east of Wolin island (Sydor, 2021).…”

Section: Discussionmentioning

confidence: 78%

Holocene development of the Vistula Spit (Baltic Sea coast) based on multidisciplinary investigations

et al. 2021

View full text Add to dashboard Cite

Coastal barriers are the first line of defense for the mainlands against the impacts of severe storms, therefore the need for better understanding how barriers evolve is arising. Spits (barriers) are the dominant landform type of the southern and south-eastern Baltic Sea coast. The aim of this paper is to gain present a better insight into problems of the Vistula Spit origin in general, and especially on the age of formation of the dune ridges. The Vistula Spit is one of the largest barriers on the southern Baltic coast. The analysis comprised: OSL dating of dune sands, radiocarbon dating of peat and palynological studies of peat and fossil soil profiles. Results shows that the onset of the oldest dunes formation begun ca. 7000–6000 years ago and the highest ridge were formed ca. 4000–2000 years ago. The youngest dunes, located closest to the modern shore, formed in the past 2000 years. Aeolian processes were also activated locally and periodically as a result of forest wildfires and human activities. Vistula Spit emergence and development is connected to two global events; beginning of the oldest dunes formation is related to slowing down in the sea level rise around 7000–6000 years ago, whereas the onset of the highest dunes building can be clearly connected with the climate cooling and aridification around 4200 years ago.

show abstract

Section: Discussionmentioning

confidence: 78%

Holocene development of the Vistula Spit (Baltic Sea coast) based on multidisciplinary investigations

et al. 2021

View full text Add to dashboard Cite

show abstract

“…NW-European Holocene storm periods (HSPs) after Sorrel et al (2012) and Dutch storms from written sources after Berendsen (1984) and Buisman and Van Engelen (1996, 1998, 2000). Light orange bars represent coastal dune sites, dark orange sites are inland drift sands: Portugal – Costas et al (2012); Aquitaine, France – Clarke et al (2002); Brittany, France – Van Vliet-Lanoë et al (2016); Ireland – Wilson et al (2004); Hybrides, NW Scotland – Gilbertson et al (1999); northwestern UK – Pye and Neal (1993) and Orford et al (2000); Brecklands – Bateman and Godby (2004); Denmark – Clemmensen et al (2009); eastern Germany and Lower Saxony – Tolksdorf and Kaiser (2012); Holland coast – Jelgersma et al (1970), Zagwijn (1984) and Pierik et al (2017b); and Pulle, Belgium – Derese et al (2010). Forest cover after Louwe Kooijmans (1995); PD and drift-sand intensity – this study.…”

Section: Discussionmentioning

confidence: 99%

“…Many of these studies focussed on coastal settings where marine-influenced factors also played a role (e.g. Van Vliet-Lanoë et al., 2016 ); nevertheless, these cold and stormy climates might have caused inland sand drifting as well. While the observed large-scale dune formation also coincided with increasing PD and enhanced human pressure in both inland and coastal landscapes, most of these studies consider the human factor only to a limited extent.…”

Section: Controls In Drift-sand Formationmentioning

confidence: 99%

Controls on late-Holocene drift-sand dynamics: The dominant role of human pressure in the Netherlands

et al. 2018

View full text Add to dashboard Cite

Holocene drift-sand activity in the northwest European sand belt is commonly directly linked to population pressure (agricultural activity) or to climate change (e.g. storminess). In the Pleistocene sand areas of the Netherlands, small-scale Holocene drift-sand activity began in the Mesolithic, whereas large-scale sand drifting started during the Middle Ages. This last phase not only coincides with the intensification of farming and demographic pressure but also is commonly associated with a colder climate and enhanced storminess. This raises the question to what extent drift-sand activity can be attributed to either human activities or natural forcing factors. In this study, we compare the spatial and temporal patterns of drift-sand occurrence for the four characteristic Pleistocene sand regions in the Netherlands for the period between 1000 BC and AD 1700. To this end, we compiled a new supra-regional overview of drift-sand activity based on age estimates (14C, optically stimulated luminescence (OSL), archaeological and historical ages). The occurrence of sand drifting was then compared in time and space with historical-route networks, relative vegetation openness and climate. Results indicate a constant but low drift-sand activity between 1000 BC and AD 1000, interrupted by a remarkable decrease in activity around the BC/AD transition. It is evident that human pressure on the landscape was most influential on initiating sand drifting: this is supported by more frequent occurrences close to routes and the uninterrupted increase of drift-sand activity from AD 900 onwards, a period of high population density and large-scale deforestation. Once triggered by human activities, this drift-sand development was probably further intensified several centuries later during the cold and stormier ‘Little Ice Age’ (LIA; AD 1570–1850).

show abstract

“…Onshore, HSPs are associated with the widespread formation of massive aeolian dune fields and coversands stretching along the coasts of western Europe (Alexanderson and Bernhardson, 2016;Bateman and Godby, 2004;Clarke et al, 2002;Clarke and Rendell, 2006;Clemmensen et al, 1996;Clemmensen and Murray, 2006;Clemmensen et al, 2009;Costas et al, 2013Costas et al, , 2012Costas et al, , 2016Gilbertson et al, 1999;Jelgersma et al, 1995;Nielsen et al, 2016;Sommerville et al, 2007;van Vliet-Lanoë et al, 2016;Wilson and Braley, 1997;Wilson et al, 2004), also recorded as the deposition of thin windblown quartz layers over soils (Jackson et al, 2005) and peat bogs (Björck and Clemmensen, 2004;de Jong et al, 2006de Jong et al, , 2007Kylander et al, 2016;Orme et al, 2015Orme et al, , 2016Sjögren, 2009;Tisdall et al, 2013). Aeolian activity was initiated during the last glacial termination (Costas et al, 2016) that gave rise to the periglacial "European Sand Belt" (Zeeberg, 2008), the most recent phase of dune formation being the LIA.…”

Section: Introductionmentioning

confidence: 99%

Climate control on late Holocene high-energy sedimentation along coasts of the northeastern Atlantic Ocean

Poirier

Tessier

Chaumillon

2017

Palaeogeography, Palaeoclimatology, Palaeoecology

View full text Add to dashboard Cite

Holocene formation and evolution of coastal dunes ridges, Brittany (France)

Cited by 22 publications

References 51 publications

Holocene development of the Vistula Spit (Baltic Sea coast) based on multidisciplinary investigations

Holocene development of the Vistula Spit (Baltic Sea coast) based on multidisciplinary investigations

Controls on late-Holocene drift-sand dynamics: The dominant role of human pressure in the Netherlands

Climate control on late Holocene high-energy sedimentation along coasts of the northeastern Atlantic Ocean

Contact Info

Product

Resources

About