Reconstructing the Holocene coastal development of the Laurentine Shore

Bicket, Andrew R.

January 2009

The Laurentine Shore is the Imperial Roman palaeo-shoreline preserved up to 1km inland of the southern, distal edge of the Tiber Delta coastline of Lazio, western Central Italy. The progradation of the delta is recorded on the site as a series of shore-parallel relict dune ridges. High-status villas developed along the roman period coastline, with a service village (Vicus Augustanus), and other infrastructure such as roads, aqueduct, piscinae and several baths (thermae), these structures have been examined using a multi-scale geoarchaeological approach. A sea level reconstruction based on multi-proxy palaeo-environmental analysis of a silt/peat sedimentary transition from the base of a Roman piscina suggests that the sea level at ca. 2400 ± 40 BP was around 1.25 ± 0.2 m below modern sea level. This analysis provides further context for assessing the development of the site during the late Holocene in relation to the progradation of the Tiber delta and for the important Imperial Roman period occupation of the Laurentine Shore and other important sites such as Portus and Ostia Antica in the central part of the Tiber delta. At several key periods in the late Holocene, the palaeo-shoreline has been reconstructed using a geochronological framework of optical luminescence dates and geomorphological survey of the Tiber Delta dune ridge record. In particular, during the Imperial Roman period, ca. 2000 BP) it has been shown that the Laurentine Shore was settled during a period of significant Tiber delta shoreline progradation. Two-major building phases at the Vicus Augustanus occur within this progradation phase. By the abandonment of the site in the 5th century AD, the shoreline was around 70 m seaward of the shoreline during the 1st building phase of the Vicus. This rate of shoreline change could be noticeable by the population over decadal timescales and may have driven the alteration of coastal building and property plots during the 500 year lifetime of the settlement. A combined methodology incorporating sedimentology, geochemistry and petrological analysis of diagenetically altered sediments found that early vadose diagenesis may have a deleterious effect upon luminescence dating dosimetry, inducing age underestimation, especially of reddened dune sands. Petrological analysis has also shown that a lack of anomalous fading in luminescence behaviour observed in K-feldspars may be due to a lack of complex microstructure in the mineral grains driven by the metamorphic, Alpine origin of these minerals. An assessment of the geoarchaeological approach used in this thesis shows that a scale-driven context provides a useful structure for examining the various processes and factors affecting the geomorphological and sedimentological records improving confidence in the examination of the archaeological record.

551.4

Ugandan crater lakes : limnology, palaeolimnology and palaeoenvironmental history

Mills, Keely

January 2009

This thesis presents the results of contemporary limnological and palaeolimnological investigations of a series of crater lakes in order to reconstruct the palaeoenvironmental history of western Uganda, East Africa. The research examines questions of spatial and temporal heterogeneity of climate changes in the context of growing human impacts on the landscape over the last millennium. Sediment records from two lakes, Nyamogusingiri and Kyasanduka within the Queen Elizabeth National Park (QENP) were investigated to look at the long term records of climate and environmental change (spanning the last c. 1000 years). Five shorter cores across a land-use gradient were retrieved to assess the impact of human activity on the palaeoenvironmental record over the last ~150 years. High-resolution (sub-decadal), multiproxy analyses of lake sediment cores based on diatoms, bulk geochemistry (C/N and δ13C) and sedimentary variables (loss-on-ignition, magnetic properties and physical properties) provide independent lines of evidence that allow the reconstruction of past climate and environmental changes. This multiproxy approach provides a powerful means to reconstruct past environments, whilst the multi-lake approach assists in the identification and separation of local (e.g. catchment-scale modifications and groundwater influences) and regional effects (e.g. climatic changes). The results of a modern limnological survey of 24 lakes were used in conjunction with diatom surface sediment samples (and corresponding water chemistry) from 64 lakes across a natural conductivity gradient in western Uganda (reflecting a regional climatic gradient of effective moisture) to explore factors controlling diatom distribution. The relationships between water chemistry and diatom distributions were explored using canonical correspondence analysis (CCA) and partial CCA. Variance partitioning indicated that conductivity accounted for a significant and independent portion of this variation. A transfer function was developed for conductivity (r2jack = 0.74). Prediction errors, estimated using jack-knifing, are low for the conductivity model (0.256 log units). The final model was applied to the core sediment data.This study highlights the potential for diatom-based quantitative palaeoenvironmental reconstructions from the crater lakes in western Uganda. Sedimentary archives from the Ugandan crater lakes can provide high-resolution, annual to sub-decadal records of environmental change. Whilst all of the lakes studied here demonstrate an individualistic response to external (e.g. climatic) drivers, the broad patterns observed in Uganda and across East Africa suggest that the crater lakes are indeed sensitive to climatic perturbations such as a dry Mediaeval Warm Period (MWP; AD 1000-1200) and a relatively drier climate during the main phase of the Little Ice Age (LIA; c. AD 1500-1800); though lake levels in western Uganda do fluctuate, with a high stand c. AD 1575-1600). The general trends support the hypothesis of an east to west (wet to dry) gradient across East Africa during the LIA, however, the relationship breaks down and is more complex towards the end of the LIA (c. AD 1700-1750) when the inferred changes in lake levels at Nyamogusingiri and Kyasanduka are synchronous with changes observed at Lakes Naivasha (Kenya) and Victoria and diverge from local lake level records (from Edward, Kasenda and Wandakara). Significant changes in the lake ecosystems have occurred over the last 50-75 years, with major shifts in diatom assemblages to benthic-dominated systems and an inferred increase in nutrient levels. These changes are coincident with large sediment influx to the lakes, perhaps as a result of increasing human activity within many of the lake catchments.

551.4

Holocene environmental change in coastal Denmark : interactions between land, sea and society

Lewis, Jonathan P.

January 2011

In this study a multiproxy approach (including sedimentary techniques, diatoms, molluscs, foraminifera, sedimentary pigments, isotopes, pollen and plant macrofossils) has been adopted to assess environmental change over the last ~9,000 years at three Danish coastal sites (Kilen, Norsminde Fjord and Korup Sø). Particular focus has been placed on periods of intense human coastal occupation, identifiable in Denmark's rich coastal archaeological record (i.e. shell midden accumulation periods), to test critically, hypotheses that changes in the marine environment were contemporary with major cultural and societal changes over the last ~9,000 years. For example, it has been proposed that a decrease in salinity was responsible for the widespread oyster decline, apparent in the Neolithic layers of a number of Danish shell middens. This hypothesis, however, remains speculative to date, lacking any high-resolution and quantitative salinity data covering the Mesolithic-Neolithic transition. Inside the agricultural era, two more phases of shell midden accumulation occur (i.e. during the Pitted Ware/Single Grave cultural period and the Iron Age), suggesting that people must have returned to the sea at these times for increased exploitation of its resources. A diatom-based salinity transfer function (WAPLS-C3 model, r2 boot = 0.923, RMSEP= 0.36 square root salinity units) based on a trans-Baltic training set has been applied to fossil diatom datasets from each site for quantitative assessment of salinity change over the study period. The multiproxy results presented in this study demonstrate a close connection between environmental change and human exploitation of marine resources over the Holocene. This relationship, however, is complex, with the individual fjord systems often exhibiting spatially different responses (i.e. variations in the sedimentary regime, salinity, productivity and nutrient status) to changes in key forcing mechanisms such as sea level change, climate change and human impact upon the catchment (following the introduction of agriculture). Environmental hypotheses for cultural change are reviewed on the basis of the evidence presented in this study. Diatomenvironmental relationships have also been modelled (using multivariate techniques) at Korup Sø and Norsminde Fjord using proxy data as ‘predictor' variables for changes in the terrestrial and marine environment. These results suggest that a variety of marine, climatic, human and catchment related processes are important in explaining a proportion of the variation in the fossil diatom datasets, but these influences tend to vary temporally throughout the profile (e.g. human impact becomes important after ~3,900 BC).

560.1793

The role of climate in determining the ontogeny trends of low Arctic lakes, south-western Greenland

Liversidge, Antonia C.

January 2012

This thesis uses palaeolimnological records to reconstruct Holocene ontogeny trends from four lakes in south western Greenland. The research addresses four hypotheses investigating how Holocene lake ontogeny trends vary under different climatic settings, how long-term changes in ontogeny relate to periods of established climatic change in the region, the similarities between proxies within the lakes and between the lakes, and the role of vegetation in lake ontogeny. The study region occupies the widest ice-free area of south western Greenland and is characterised by a climatic gradient. The area inland and nearer to the ice-margin is arid, receives less precipitation and is warmer relative to the coastal areas. A paired lake approach, using lake records from two inland lakes and two coastal lakes, was adopted to examine the role of climatic setting upon lake development trajectories. Specifically, diatoms were used to reconstruct DI-alkalinity from the lakes using a DI-alkalinity model created from existing training sets in the region (WA Cla model, r2boot = 0.76, RMSEP = 0.28 log alkalinity units), sedimentary pigments to investigate trends in production and sedimentary parameters to reconstruct organic and minerogenic accumulation rates. All four lakes experienced comparable Holocene long-term ontogeny trajectories; maximum alkalinity in the first ~ 1000 cal. year BP of deglaciation followed by maximum production during the peak of Holocene Thermal Maximum (HTM) warming (~7000 -6000 cal. years BP). Following the HTM, all lakes demonstrated oligotrophication and a decline in pH. Vegetation development and catchment stabilisation at the end of the HTM may be important in determining the onset of oligotrophication in vegetated catchments. However, the impact of vegetation development on lake ontogeny cannot be isolated from the changes in the lakes associated with the colder and wetter climate which occurred at the end of the peak HTM warming. The timings of the large transitions in the ontogeny trajectories are comparable with established periods of Holocene climatic variability in the region; climate forcing drives ontogeny in these lakes. However, there are short-term differences between the lakes indicating that lakes have different thresholds of ecological change and may respond differently to the same climate forcing. It is concluded that ontogeny is driven by climate but lakes may respond differently to forcing depending on catchment specific characteristics which can filter out the climate signal or cause climate to influence the lake in a more direct way.

551.973

Holocene fluvial and marine influences and settlement interactions in the lower Ribble Valley, Lancashire, U.K

Chiti, Bernardo

January 2004

The evolution of the lower course and estuary of the river Ribble (Lancashire, U.K.) during the Holocene is the object of study, along with the history of sediment fluxes in them and their influence on past human settlements. Investigation of the valley floor geomorphology and terrace fill stratigraphy and sedimentology, as well as palaeoecological analysis and a number of 14C essays, allowed the reconstruction of Late Pleistocene and Holocene alluvial history and chronology of a reach at the transition point between fluvial and estuarine influences; the archaeological evidence is evaluated in this context. Alluviation and incision cycles led to the formation of four river terraces. The oldest terrace, rich in coarse-grained materials, seems to be of Pleistocene age. 14C dating on the second terrace would point to an Earliest Holocene or Younger Dryas age; the fill, however, comprises abundant fine-grained overbank sediments. Large parts of the unit were reworked during a phase of lateral channel activity that occurred prior to ca. 8900 cal BP; between then and ca. 6900 cal BP the river underwent meander cut-offs, after which limited lateral activity occurred. New alluviation occurred around 4700 cal BP, possibly related to the aggradation of the third terrace, though its fill is only certainly known, from archaeological evidence, to be of pre-Roman age. Channel size increase occurred by the time the terrace was deposited. The fill features abundant clayey sediments; it was incised at or after the end of the Roman period. The last terrace was deposited in the late first millennium AD mainly as overbank silts, and has since been incised again. Fluvial response appears mainly related to climate changes, river activity corresponding to shifts to wetter, cooler climate. Human action likely enhanced fluvial response in the historical period, leading to post-Roman incision and deposition. There seems to be a good connection between sediment production in the catchment and deposition downstream. Local factors also show a major importance in determining river response. Early Holocene fluvial history finds no match in other Northern English rivers; a different response to the same climate changes is apparent, possibly related to differences in sediment supply conditions. No clear evidence is found supporting an influence of sea-level change on river processes. On the other hand, it appears plausible river sediment input has a driving influence in enhancing or causing minor regressions recorded on the estuary. The conditions existing in Roman times could have allowed access from the sea to the Roman sites at the upper end of the Ribble estuary and by its North shore; a relative sea-level minimum could have caused a shift of focus in naval traffic from the former to the latter site.

551.4

Přestavby dentálního fenotypu hrabošů v průběhu současného glaciálního cyklu / Dental phenotype variation in voles during the present glacial cycle

Putalová, Tereza

January 2016

The phenotype dynamics of arvicolid rodents during the terminal stages of the Vistualian glacial and the earliest Holocene was investigated with aid of a detailed morphometric analyses of extensive dental material from three sedimentary series of that age. The particular attention was paid to the record from a section in Býčí skála cave, Moravian karst, which demonstrated details of the Pleistocene/Holocene transition (12.4-8.4 ky BP) with extraordinary resolution. It revealed that dramatic rearrangements in community structure were accompanied by significant rearrangements of the phenotype dynamics in all arvicolid species. Despite some trends specific for particular species, some common features were identified as well. One of them was a rapid turnover in phenotype structure by the end of Younger Dryas, at time of the Preboreal event. (11.7-11 ky BP), the other was associated with the extensive shifts in community structure and habitat diversity at terminal stage of the Preboreal (9.7-9.3 ky). The core arvicolid species of Preboreal communities, Clethrionomys glareolus, Microtus arvalis, M.agrestis and Arvicola terrestris, exhibited repeated fluctuations during that stage (ll-9,3 ky BP) both in abundance and phenotype characteristics, supposedly related to serial invasion events during that time....

Variabilité climatique holocène et impacts anthropiques historiques en zone subarctique : étude multiparamètre de la séquence sédimentaire du lac d'Igaliku (Groenland). / Holocene climatic variability and historical anthropogenic impacts in the subarctic region : a multiproxy study of the sedimentary sequence of Lake Igaliku (Greenland)

Massa, Charly

06 July 2012

La colonisation médiévale scandinave au Groenland (986 – 1450 AD) et la reconquête agricole récente de la région sud-groenlandaise, favorisée par le réchauffement climatique en cours, constituent un modèle de référence particulièrement adapté à l’étude des relations entre une communauté humaine et son environnement. Dans cette perspective, une étude sédimentologique multiparamètre a été réalisée sur la séquence sédimentaire du lac d’Igaliku (N61°00’22”, W45°26’28”), situé au cœur de la principale implantation médiévale et du secteur agro-pastoral contemporain. Quatre mètres de sédiments, couvrant la totalité de l’évolution holocène du lac (~10000 ans), ont été étudiés à haute résolution temporelle. L’analyse comprend une caractérisation physico-chimique (densité, susceptibilité magnétique, diagraphie XRF, imagerie rayon-X, granulométrie laser, dosages carbone, azote et souffre, ICP-AES, isotopie δ13C et δ15N de la matière organique) et biologique (pollen, microfossiles non polliniques, diatomées) du sédiment. Vingt-huit datations radiocarbones, ainsi que la mesure l’activité du 210Pb et du 137Cs, permettent d’interpréter le signal sédimentaire dans un cadre chronologique très précis et de reconstruire l’évolution postglaciaire du lac et de son bassin versant, soumis aux contraintes glacio-isostatiques, aux forçages climatiques et aux impacts anthropiques. La première phase d’évolution du système lacustre est principalement sous contrôle isostatique avec une transition rapide d’un environnement marin pro-glaciaire vers un environnement lacustre après émersion du bassin, il y a 9500 ans. Par la suite, la séquence témoigne de l’évolution paléoclimatique de la région. Les paramètres limnologiques et terrestres suggèrent un réchauffement précoce, probablement interrompu par une période froide, sèche et venteuse entre 8600 et 8100 ans cal BP. Un second événement sec et venteux, de 5300 à 4800 ans cal BP, précède la transition néoglaciaire, qui se caractérise, à Igaliku, par une évolution vers un climat plus humide et peut-être plus froid à partir de 4800 cal BP, provoquant une mutation majeure des conditions écologiques terrestres et aquatiques. La diminution des flux de grains de pollen indique un refroidissement notable à partir de 3000 cal BP. Vers l’an 1000, suite à l’arrivée des colons scandinaves, le système lacustre passe sous un contrôle anthropique dominant. Le défrichement et l’introduction d’herbivores domestiques dans le bassin versant du lac produisent un doublement du taux d’érosion des sols (de 4 mm/siècle à 8 mm/siècle vers 1200 AD) et une modification de la qualité des influx organiques. Pour autant, les assemblages de diatomées indiquent que l’écologie du lac n’a été que faiblement affectée par l’agriculture médiévale. A partir de 1325 AD et jusqu’à la fin de la colonie scandinave, vers la moitié du XVe siècle, la végétation présente des signes de résilience et l’érosion des sols régresse. Cette déprise agro-pastorale, probablement en relation avec les prémices du Petit Âge Glaciaire, est en phase avec une importante mutation des pratiques de subsistance attestée par l’archéologie. Le retour du pastoralisme au début du XXe siècle marque une reprise des processus d’érosion, similaires, en intensité, à ceux engendrés par les colons scandinaves. En revanche, l’intensification et la modernisation des pratiques agricoles dans les années 1980 est responsable d’une érosion des sols spectaculaire (~21 mm/siècle) et d’une mutation de l’écosystème lacustre (eutrophisation) sans précédent depuis la formation du lac, il y a 9500 ans. Les effets combinés de l’agriculture et du réchauffement climatique en cours (amorcé dans les années 1920 à Igaliku) aura des conséquences environnementales difficiles à prévoir pour l’avenir de la région / The medieval Norse colonization of Greenland (986-1450 AD) and the subsequent reestablishment of agriculture in south Greenland, aided by recent climate warming, constitute a conceptual model that is particularly well adapted to understanding the relations between a community and its environment. In this perspective, a multi-parameter sedimentological study was undertaken on the sedimentary sequence of Lake Igaliku (N61°00’22”, W45°26’28”), situated in the heart of the medieval and current agricultural sector. The 4 m long sequence, covering the entire Holocene evolution of the lake (~10 000 years), was studied at high temporal resolution. The analyses included the physico-chemical characterization of the sediments (density, magnetic susceptibility, XRF, X-ray imaging, grain size, carbon, nitrogen, and sulphur content, ICP-AES, δ13C and δ15N isotopic ratios) as well as the biological components of the sediment (pollen, non-pollen palynomorphs, diatoms). 28 radiocarbon dates as well as 210Pb and 137Cs measurements created a precise temporal framework with which to reconstruct the postglacial evolution of the lake and its catchment in terms of isostatic constraints, climatic forcing and anthropogenic impacts. The first phase of basin evolution is primarily controlled by isostasy, with the rapid transition from glaciomarine conditions to a freshwater lake as the basin emerged from the fjord 9500 yr BP. Afterwards, the sedimentary sequence records the paleoclimatic evolution of the region. Paleolimnological and terrestrial proxies suggest an early warm phase likely interrupted by a cold, windy, dry period between 8600 yr BP and 8100 yr BP. A second dry, windy period between 5300 yr BP and 4800 yr BP predated the transition to neoglacial cooling, which is characterised at Igaliku by a switch to humid and perhaps cooler conditions after 4800 BP, and which caused a major shift in both aquatic and terrestrial ecology. Approximately 1000 AD, after the arrival of Norse settlers, the lacustrine system became anthropogenically dominated. Land clearing and domestic herbivores introduction in the lake catchment doubled the rate of soil erosion (from 4 mm century-1 to 8 mm century-1 by 1200 AD) and caused a major modification of the organic carbon influx. On the other hand, diatom assemblages demonstrate that the lake ecology was not strongly impacted by medieval agriculture at this site. After 1325 AD, until the end of the Norse tenure in the mid-15th century, terrestrial vegetation showed signs of rebound and soil erosion decreased. This agricultural diminishment, probably in relation to the beginning of the Little Ice Age, is consistent with an important change in subsistence patterns evidenced by archaeology in this region. The reestablishment of agriculture at the beginning of the 20th century marks the reinvigoration of erosional processes that are similar in intensity to that of the Norse settlement. On the other hand, the intensification and modernization of farming practices during the 1980s is responsible for marked soil erosion (21 mm century-1) and a shift in lake ecology (eutrophication) that is unprecedented in the 9500 yr history of the lake. The combined effects of agriculture and climate warming already underway (initiated in the 1920s at Igaliku) will have large environmental consequences for the future of this region

Groenland

Sédiments lacustres

Viking

Holocène

Climat

Agriculture

Greenland

Lake sediment

Holocene

Climate

Norse

930.1

Approche géoarchéologique et valorisation du patrimoine géomorphologique autour du Létôon (plaine de Xanthos, Turquie) / Geoarchaeological approach and geomorphological heritage management around the Letoon (plain of Xanthos, Turkey)

Écochard, Émilie

27 June 2012

Ce travail propose une reconstitution de l'évolution de l'environnement de la plaine terminale de l'Eşen Çayı depuis le milieu de l'Holocène, avec une attention particulière pour l'environnement proche du sanctuaire du Létôon et de la cité de Xanthos, durant leur période d'occupation (du viie siècle av. J.-C. jusqu'à la période byzantine). La démarche retenue déploie trois approches. L'approche historique, d'abord, confronte les sources archéologiques, historiques, littéraires et géomorphologiques pour définir les enjeux de cette recherche et cerner les questions auxquelles elle doit répondre : l'objectif est de mieux comprendre les sociétés qui ont occupé cet espace et leur relation avec leur environnement. L'approche géo archéologique, ensuite, y répond en s'appuyant sur les données géophysiques (résistivité électrique) et l'analyse des séquences carottées (étude des sédiments, datations). Il apparaît qu'à l'époque de l'occupation des sites, les lagunes qui occupaient auparavant cet espace avaient laissé place à des marais. Un changement dans le tracé de l'Eşen Çayı (un bras du fleuve s'installe temporairement devant le Létôon) facilite l'accessibilité du site depuis la mer, mais l'alluvionnement et la mobilité fluviale qui en résultent mettent aussi en danger les édifices, dès le iiie siècle ap. J.-C. C'est seulement avec la mise en culture systématique de la plaine, durant la deuxième moitié du xxe siècle, que les marais disparaissent et que la plaine est assainie et drainée. L'approche patrimoniale, enfin, permet une réflexion épistémologique et empirique sur la communication des résultats en direction des archéologues commanditaires, du public de visiteurs des sites et des habitants de la plaine. Le concept de géomorphosite, qui fournit une profondeur temporelle à un site aux caractères géomorphologiques remarquables est sollicité pour définir la plaine de Xanthos comme un archéo-géomorphosite / This work reconstructs the changing environment of the plain of the Eşen Çayı from the mid-Holocene period, paying particular attention to the environment around the shrine of Letoon and the city of Xanthos, at the time of their occupation (from the seventh century BC until the Byzantine period). The subject is examined using three different approaches. First, the historical approach compares the archaeological, historical, literary and geomorphological sources to define the boundaries of this research and identify relevant issues : the aim is to better understand the societies which occupied this space and their relationship with the surrounding environment. The geoarchaeological approach then answers these questions, relying on geophysical data (electrical resistivity) and cored sequence analysis (study of sediments, dating). It seems that when the sites were inhabited, lagoons which formerly occupied this area had been replaced by swamps. A change in the flow of the Eşen Çayı (an arm of the river which moved temporarily towards the Letoon) allowed access to the site from the sea, but the buildings were threatened by the river's silting and consequent changes of course (around the third century AD). It is only with the systematic agricultural use of the plain, in the second half of the twentieth century, that the marshes disappeared and the plain was drained and reclaimed. Finally, the heritage approach allows an epistemological and empirical discussion of the communication of results to archaeologists, site visitors and inhabitants of the plain. The concept of geomorphosite, which provides time depth to a site with remarkable geomorphological character, is used to define the plain of Xanthos as an archaeo-geomorphosite

Géoarchéologie

Paléo-environnement

Géomorphosite

Holocène

Turquie

Xanthos

Geoarchaeology

Palaeoenvironment

Geomorphosite

Holocene

Turkey

Xanthos

Postglaciální historie lokálních fenoménů horské vegetace západních Čech / Postglacial vegetation history of local phenomena in western Bohemia

Švarcová, Markéta Gabriela

January 2012

In the sense of postglacial vegetation development, western Bohemia represents one of the least studied regions in the Czech Republic. This area, however, represents a supposed migration route of trees towards northern Europe during the Holocene. The most appropriate area for testing of such proposal might be western Sudetes with Slavkovský les protected landscape area in the Karlovy Vary region. Postglacial vegetation history was studied on the basis of two sedimentary profiles - from the fen bog near Číhanské prameny springs and from the vicinity of Mnichovské hadce serpentines from the nature reserve Mokřady pod Vlčkem. Percentual as well as influx diagrams were constructed on the basis of results of standard pollen analysis. Comparison of these results with the data from other suitable profiles enabled reconstruction of migration history of main tree taxa. The Číhaná profile reflects the period from the Older Dryas up to the Atlantic. The oldest Holocene forest was formed by the dominant Pinus, while Corylus was joining already in the Preboreal. Quercetum mixtum folowed in the begining of the Boreal and spruce quickly gained dominance in the Atlantic. The sedimentation process was probably finished due to rapid accumulation of sediments followed by spontaneous drainage ending with spruce and alder...

Diverzita životního prostředí v pozdním glaciálu ve střední Evropě / Environmental gradients during Late Glacial in Central Europe

Petr, Libor

January 2013

The Lateglacial and Early Holocene are key periods with respect to the understanding of the present-day vegetation and environment. An interdisciplinary approach is important for the study of these changes. Only by interlinking biological and geoscience evidence can we obtain a more comprehensive picture of this key period. It is not possible to interpret any pollen spectrum in the sedimentary record without knowledge of the history of the locality and its vicinity. Rapid climate changes had a crucial effect on the environment and vegetation. Continentality of the climate and a deficit of precipitation amplify the effect of local conditions. Vegetation, as in the case of vertebrates and molluscs, comprises a combination of species of a continental steppe, mountain biotopes and disturbed habitats. This facilitated contact among species and populations that are biogeographically separated at present. Vegetation of the Lateglacial period in the Czech Republic ranges in character from frost barrens in the mountains, through steppe-tundra vegetation at medium altitudes to a continental steppe in the lowlands and pine woodlands constrained to a moist floodplain. The Western Carpathians were covered by a taiga. In the Pannonian Lowland, there were open forests with conifers and broadleaved woody plants....