Evolution Of Vegetation, Relief And Geology In Central Poland Under Anthropopressure

Published in: Origin of Relief of Central Poland and Its Anthropogenic Transformation in Łódź University Geographical Research, edited by. E.Kobojek, T.MarszałThe review of the localities with biogenic, slope, fluvial and aeolian deposits in which the indirect impact of human activity on their ori gin is recorded, shows that evidence of changes of the vegetation pat tern and evolution of the relief and geological structure are in Central Poland particularly numerous. The exact correlation of the sites is beyond the scope of this chapter, due to the strictly local nature of prehistoric anthropopressure and a variety of environmental condi tions. Nevertheless it is possible to draw some general remarks. 1. More significant changes in the relief and geology of Central Poland that occurred under human pressure date back to the Neo holocene (the Early Subboreal Period and Subatlantic Period). More pronounced transformation of the slopes, river valley bottoms and aeolian landforms occurred since the Middle Bronze Age, around 3500 years ago. 2. The punctuated changes, in both vegetation and abiotic com ponents of the environment, were marked at the earliest in the large river valleys (e.g. Warta, Ner, Bzura rivers) and minor valleys within the Warsaw-Berlin pradolina. In higher lying parts of Central Po land, these changes on a similar scale emerged much later, only after ca. 2000–2500 years. It was connected with much worse conditions for the settlements in areas of more diversified relief configuration, with poorer soils and limited access to water. 3. The transformation of the vegetation, relief and geological structure took place gradually, along with the expansion of prehis toric settlement of the Trzciniec Culture , the Lusatian Culture and the Przeworsk Culture, whereas in the historical period – along with Early Medieval settlement. Less important for these changes were the impact of people of the Neolithic cultures, and short-stay of peo ple of the Pomeranian Culture in the Central Poland area. 4. The studied transformations were driven by both natural factors, particularly climate, which has changed during the Holo cene repeatedly (but on a relatively moderate scale), and by anthro pogenic factors, the importance of which was growing rapidly in the expansion phases of prehistoric cultures. These influences are rela tively easy to distinguish in the palynological profiles by a well-de fined group of plants accompanying the settlement and economy, whereas their distinguishing in the relief and geology transforma tions is much more difficult. However, it should be stressed that the development of the slopes and aeolian geosystems, and superim posing increased fluvial activity, in many cases were synchronous. This synchronous response, noting at the same time in different sed imentary environments, rather indicates the dominance of anthro pogenic factor, because the humid climate, favourable to stimulate fluvial and slope processes is less favourable for the simultaneous development of aeolian relief. Favourable natural conditions un doubtedly facilitated breaking the balance of the geosystem and the initiation of processes and their more efficient course under anthro pogenic changes of the environment. 5. The trends of the Neoholocene relief transformations were very different. Both processes, leading to local increases of relief and diversified terrain morphology (e.g. gully erosion, so-called wheel erosion, formation of agricultural terraces, accumulation of series overlaying of Late Glacial dunes) and the processes of op posite trends (e.g. aggradation of valley bottoms, tillage erosion, dismant ling of old dunes). Most Neoholocene morphogenetic pro cesses resulted in the increased lithological differentiation, soil for mation and increasing geodiversity of the environment. 6. A number of processes that affected the nature of the vegeta tion, relief and geology was a targeted, intentional and direct inter ference (e.g. land clearance in order to obtain arable fields, energy raw materials and building materials, construction of embankments in river valleys, exploitation of till, sand and other aggregates). How ever, most of the changes should be regarded as unintended and negative, so to speak, a side effect of centuries of settlement and economy. There may be mentioned here: planation of slopes used for agriculture, gully erosion, wheel erosion, the spread of poor aeo lian areas or the increase in the frequency and scale of floods in the Central Poland rivers as a result of an accelerated water circulation on the vegetation-free slopes. 7. Obviously, the Holocene morphogenetic cycle occurred in the past (and is still occurring) under human impact, which proves the J. Dylik’s thesis quoted in the Introduction. This cycle, superim posed on the periglacial morphogenesis, partially obliterates its ef fects and partially only modifies them. Taking into account the short duration of the Holocene cycle, it is characterised by a large dynam ics of the processes being accelerated and intensified by man

The prehistoric human impact on slope development at the archaeological site in Smólsk (Kuyavian Lakeland)

Periods of intense human impact on the relief and lithology of the area of the Smólsk site were recorded during geoarchaeological research accompanying archaeological field work. The phases of occupation of the area are known in detail from the results of the large-scale archaeological research of the site. The slope deposits with buried soils were recorded at the site area and researched in detail with the use of sedimentological, geochemical and micromorphological analyses. Beside geochronological deterioration, the chronology of the artefacts found in layers played an important role in the strict recognition of the age of deposits. The lower part of the studied slope cover is constituted by deluvium and the upper part by tillage diamicton. The origin and the development of the slope deposits are correlated with the phases of an intense prehistoric human impact as defined by the archaeological research. Four main phases of acceleration of slope processes were documented at the site and date to the Early Neolithic, the Middle Neolithic, the Bronze Age and the Early Iron Age

The morphology of the Luciąża River valley floor in the vicinity of the Rozprza medieval ring-fort in light of geophysical survey

Multidisciplinary research (including magnetic survey, earth resistance survey, geological mapping, detailed archaeological surface survey and geochemical prospection) was undertaken on an area of about 0.7–9.0 hectares (depending on the method) in the close surroundings of the medieval ring-fort relicts in central Poland. The geophysical studies of the vicinity of the Rozprza ring-fort were part of a multi-method complementary non-destructive archaeological survey. The ring-fort is situated in the Luciąża River (Vistula River basin) valley floor and the flood plain morphology is very important for the reconstruction of palaeoenvironmental conditions of settlement location. Results of aerial photographs and geophysical prospection allowed the discovery of traces of sub-fossil palaeomeanders of different sizes as well as relicts of archaeological features (system of ramparts and moats). It was possible due to the application of high resolution archaeo-geophysical surveys. Both natural structures and also anthropogenic features registered with geophysics have been verified by geological sounding. The surface geology structure of the close vicinity of the ring-fort has been recognised in detail and selected organic deposits of palaeochannel fills and overbank covers have been 14C dated. The Rozprza ring-fort was situated in a defensive location on the surface of a sandy terrace remnant in the central part of a (partly) swampy valley floor. The accumulation of recorded fills of palaeochannels and moats covers the whole Holocene, as documented by 14C data. It gives the possibility for future detailed palaeoenvironmental studies. The results of geophysical studies, due to their known precise location, allow the effective planning of further research activities, both archaeological and palaeoenvironmenta

Optical dating and sedimentary record from the terrace depositional profile of the Warta River (Central Poland)

Results of OSL dating and sedimentary studies from the profile of the low alluvial terrace of the middle Warta River are presented. The samples were dated using the single-aliquot regenera-tive method. Dating was used to establish a timing of the Weichselian Late Glacial events in the river valley environment. Stable conditions on the floodplain are expressed by the deposition of organic-rich series radiocarbon dated at 12 900–12 600 cal BP and 11 600–10 770 cal BP. Samples for OSL dating were collected from the mineral material deposited during the intensification of flood events during the Weichselian decline. The results obtained for the alluvia range from 12.78 ± 0.62 ka b2k to 14.33 ± 0.74 ka b2k. Sedimentological criteria allowed to distinguish between particular flood events. Overestimation of OSL ages is probably a result of rapidity of environmental changes in that time.Grant from the National Science Centre, No N N306 788240 “Pal-aeogeographical conditions of existence and destruction of the Late Weichselian forest in the Warta River Valley (the Koło Basin)”

LOST AND FOUND: THE VALLUM IN LACU AT OSTROWITE (NORTHERN POLAND). A MULTIDISCIPLINARY RESEARCH CASE STUDY

The vallum in lacu (rampart by the lake) mentioned in 15th-century written sources as part of the Medieval landscape of Ostrowite (East Pomerania) has been researched by archaeologists and antiquaries since the 19th century. A wide range of non-invasive archaeological prospection methods were applied at Ostrowite in 2010-2015, including magnetic gradiometry, earth resistance, aerial photography, intensive field-walking, geochemical (phosphate) prospection, and the analysis of Airborne Laser Scanning. They were supplemented and verified by small-scale excavation work. This vast set of prospection methods was integrated into a Geographical Information System (GIS), and combined with an analysis of written sources, and allowed for the identification of a previously unknown ring-fort, which for the last 15 years has gone unnoticed by researchers conducting annual excavations in its vicinity. Its discovery and identification were only possible due to the integration of results from various methods, particularly non-invasive ones.Key words: magnetometry, surface survey, phosphate prospection, electrical resistivity, aerial photography, Middle Ages.DOI: http://dx.doi.org/10.15181/ab.v24i0.156

Multiproxy study of anthropogenic and climatic changes in the last two millennia from a small mire in central Poland

The Żabieniec kettle hole is the first peatland in central Poland analyzed quantitatively with four biotic proxies (plant macrofossils, pollen, testate amoebae and chironomids) to reconstruct the past environmental change. Palaeoecological data were supported by historical and archaeological records. We focused on autogenic vegetation change and human impact in relation to climatic effects. The aims of our study were (a) to describe the development history of the mire during the last 2,000years, (b) to date and reconstruct the anthropogenic land-use changes and (c) to discuss a possible climatic signal in the peat archive. The combination of proxies revealed dramatic shifts that took place in the peatland since the Roman Period. Żabieniec was a very wet telmatic habitat until ca. AD 600. Then, the water table declined, and the site transformed into a Sphagnum-dominated mire. This dry shift took place mainly during the Early Medieval Period. Human impact was gradually increasing, and it was particularly emphasized by deforestation since AD 1250 (beginning of the Late Medieval Period). Consequently, surface run-off and aeolian transport from the exposed soils caused the eutrophication of the mire. Furthermore, chironomids and testate amoebae reveal the beginning of a wet shift ca. AD 1350. Openness considerably increased in the Late Medieval and the Modern Periods. The highest water table during the last 1,000years was recorded between AD 1500 and 1800. This wet event is connected with deforestation, but it could be also associated with the Little Ice Age. Our study shows plant succession in the Żabieniec peatland, which can be explained with the recent landscape transformation. However, such changes are also possibly linked with the major climatic episodes during the last two millennia, such as the Medieval Warm Period and the Little Ice Ag

Environmental changes during Mesolithic-Neolithic transition in Kuyavia Lakeland, Central Poland

Funding Information: The field research was carried out as part of the project “Settlement of the Funnel Beaker Culture in the Wietrzychowice Cultural Park”, thanks to the funds of the Professor Konrad Jażdżewski Foundation for Archaeological Research and the County Labor Office - “Exploreres” program. Thanks are also due to Mrs. B. Lewandowska and Mr. A. Myrta for their invaluable help during the field works of Śmieły site, and to Kacper Świerk for his help in Chironomidae subfossils analysis. Publisher Copyright: © 2021 Elsevier Ltd and INQUAThe Wietrzychowice Cultural Park protects one of the last preserved megalithic barrows constructed by the Funnel Beaker Culture societies at the Kuyavia Lakeland (Central Poland). The nearby archaeological site at Śmieły located on the shore of Karaśnia Lake provided numerous Mesolithic and Neolithic remains such as flint artefacts, potsherds, arrowheads, and mammal bones with traces of human processing. The lake and peat sediments at the Śmieły site provided a unique opportunity to investigate man-environment relationships during the transition period from Mesolithic to Neolithic. The age-depth model for the deposits was based on five radiocarbon dates as well as archaeological artefacts. The multi-proxy study, including geochemistry, pollen, plant macrofossils, Mollusca, Cladocera and Chironomidae analyses, were conducted to recognize palaeoenvironmental changes between 7500 and 3500 BCE. Combining environmental and archaeological data, we attempt to distinguish between natural phenomena triggered by climate factors with those induced by human activity. The data indicated hydrological changes associated with natural factors: (1) the phase of aquatic ecosystem since 7500 to 5800 BCE, (2) the phase of water shallowing between 5800 and 4600 BCE, and (3) the development of alder fen in the lake shore zone since ca. 4600 BCE. Vegetation changes suggest early landscape transformations in Central Poland already due to the activity of Mesolithic societies. Fossil pollen and plant macroremains data combined with detailed map of modern soil distribution in the area allowed to identify pattern of vegetation distribution around the Mesolithic campsite. Neolithic discontinuity of habitation process between ca. 4600 and 4000 BCE (in the times of Brześć Kujawski Group of Lendyel Culture) can be associated with climate change resulting in Karaśnia Lake level lowering.Peer reviewe

Multi-proxy inferred hydroclimatic conditions at Bęczkowice fen (central Poland); the influence of fluvial processes and human activity in the stone age

Fens have been forming in the river valleys of central Poland since the Bølling and went through a transformation from fully aquatic to semiterrestrial habitats during the Younger Dryas/Holocene transition. This drove plant and invertebrate communities and left a distinct pattern in chemical sediment composition, which is why river valley peatlands are sensitive palaeo-archives of climatic, hydrological and edaphic changes. Here we reconstruct the Late Weichselian history of the Bęczkowice fen in the upper Luciąża River valley using geochemical, pollen, Cladocera and Chironomidae proxies. Pollen-based age estimation indicates that the analysed peat sequence dates from the Bølling to Early Holocene. The layers 190-170 cm and 125-105 cm of the studied core were reworked by fluvial processes. Chironomidae and Cladocera communities indicate mostly limnetic conditions during the Allerød and early Younger Dryas. Peatland pools were supplied mostly by Luciąża River floods, but also by groundwater. Since the onset of the Holocene, the water level has dropped, eliminating aquatic midges and water fleas, and supporting taxa typical of astatic waters and wet soil.Peer reviewe