Autogenic succession, land-use change, and climatic influences on the Holocene development of a kettle hole mire in Northern Poland

Mariusz Lamentowicz, Edward Mitchell
2008
Article

Résumé

We reconstructed the Holocene developmental history of a kettle-hole peatland in the Tuchola forest of Northern Poland, using pollen, testate amoebae and plant macrofossils indicators. Our aims were to determine the timing and pattern of autogenic succession and natural and anthropogenic influences on the peatland. Northern Poland is under mixed oceanic and continental climatic influences but has so far been less studied in a palaeoecological context than more oceanic regions of Europe. In the first terrestrial developmental phase of the mire, the testate amoebae-inferred depth to water table revealed two major dry shifts at ca 9400 (end of lake phase) and ca. 7100 cal. BP (a period of global cooling and dry shift in western Europe). Conditions became wetter again in two steps at ca. 6700 and ca. 5800 BP after a dry event at ca. 6100 BP. The timing of the wet shift at 5800 BP corresponds to wet periods in Western Europe. Peat accumulation rates were low (0.1 mm yr-1) between ca. 5600 and ca. 3000 BP when sedges dominated the peatland. In the last 2500 years surface moisture fluctuated with wet events at ca 2750-2400, and 2000 BP, and dry events at ca. 2250-2100 and 1450 BP. After 1450 BP a trend towards wetter conditions culminated at ca. 500 cal. BP, possibly caused by local deforestation. Over the mire history, pH (inferred from testate amoebae) was mostly low (around 5) with two short-lived shifts to alkaline conditions (7.5) at ca. 6100 and 1450 BP indicating a minerotrophic influence from surface runoff into the mire. Up to about 1000 BP the ecological shifts inferred from the three proxies agree with paleoclimatic records from Poland and Western Europe. After this date, however correlation is less clear suggesting an increasing local anthropogenic impact on the mire. This study confirms that kettle-hole peatlands can yield useful palaeo-environmental data as well as recording land-use change and calls for more comparable studies in regions are the interface between major climate influences.

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Mariusz Lamentowicz, Edward Mitchell
2008
Article

Résumé

Official source

https://infoscience.epfl.ch/record/116132?ln=fr

À propos de ce résultat

Concepts associés (19)

Concepts associés

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Publications associées (3)

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Palaeoecological evidence for anthropogenic acidification of a kettle-hole peatland in northern Poland

Mariusz Lamentowicz, Edward Mitchell

We studied the Holocene developmental history of a small kettle-hole peatland in northern Poland using radiocarbon dating and analyses of pollen, plant macrofossils, and testate amoebae with the aim to sort out the influences of climate change, autogenic succession, and human impact. The mire followed the classical succession from lake to a Sphagnum-dominated peatland, but peat accumulation only started about 3000 years before present. A rapid shift to wetter conditions, lower pH, and higher peat accumulation rate took place about 110-150 years before present, when the vegetation shifted to a Sphagnum-dominated poor fen with some bog plants. While the first shift to a peat-accumulating system was most likely driven by climate, the second one was probably caused by forest clearance around the mire. This shift towards a Sphagnum-dominated vegetation mirrors both in pattern and timing the changes observed in similar situations in North America and New-Zealand. While human activities have overall caused the loss of vast expanses of peatlands worldwide in recent centuries, locally they may have also allowed the development of communities that are now ironically considered to have a high conservation value. However, in the case of the site studied and possibly elsewhere the likely anthropogenic shift to bog vegetation was at the expense of a species-rich poor fen, which today has even higher conservation value than ombrotrophic bogs. Thus this study also illustrates the value of palaeoecology for peatland management and biodiversity conservation.

2007

Chargement

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

Mariusz Lamentowicz

The Żabieniec kettle-hole is the first peatland in central Poland analysed quantitatively with four biotic proxies (plant macrofossils, pollen, testate amoebae and chironomids) in order to reconstruct 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 2000 years, (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 1000 years 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 Age.

Springer Netherlands2009

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The Baltic coast of Northern Poland is a region of considerable potential interest for paleoclimatic studies because this region is under the influence of both oceanic and continental climates and that these two influences have likely changed through time. Also unlike many more intensively studied regions of Europe human impact was more limited until the 19th century. We present a multiproxy high-resolution record from Stążki mire, an ombrotrophic mire located in northern Poland 35 km from the Baltic sea coast. We combined four proxies from the peat: testate amoebae, stable isotopes (δ13C) of Sphagnum stems, pollen, and plant macrofossils supported by dendroecological data to assess the palaeoenvironmental changes that took place during the last millennium. The general aim of this study was to test if a range of proxies (testate amoebae, pollen, plant macrofossils and tree rings) could allow inferring a climatic signal from a peat monolith despite the considerable anthropogenic impact on the Pomerania landscape since the Early Medieval period. Combining internal (e.g. macrofossils and testate amoebae) and external (pollen) signals is key to distinguishing human from climatic signals in palaeoenvironmental studies of peatlands. Our more specific aims were to: a) reconstruct the last millennium palaeoenvironment in a Baltic raised bog and its surroundings, b) identify the major wet-dry shifts and correlate those events with climate change and human impact, c) assess the resilience of the Baltic bog ecosystem following human impact. We noted two disturbance periods in the history of the mire. The two major disturbances in the history of the mire were dry periods [(I) 1100-1500 AD and (II) 1650-1900 (2005) AD]. These are reflected in all indicators and can be interpreted as the mixture of climate impact and human activities. However, the pollen record shows little evidence of human indicators during the first dry shift. The second disturbance can be related to local peat exploitation of the mire and then in the 20th century with limited artificial drainage. From 1500 AD all proxies show that the water table abruptly rose in the mire. The beginning of this shift occurred during the Little Ice Age and therefore it is likely a climatic signal. Alternatively, this wet shift could have been interpreted as a re-wetting mire surface after peat burning, but this interpretation is rejected because there is no evidence of major local fire in the macrofossil record. The macrofossil data shows that Sphagnum fuscum dominated the pristine mire vegetation but then declined and finally disappeared. This pattern is comparable with the timing of extinction of Sphagnum austinii in Western Europe. This study illustrated the value of palynological analysis of peat archives (especially for last millennium) to assess the magnitude of anthropogenic land-use changes. For example the comparison of Fagus (beech) and Carpinus (hornbeam) history with the palaeohydrological record allowed us to exclude climate change as the most important factor for the decline and expansion of these tree species. This study is the first direct comparison of testate amoeba and stable isotope data.

2008

Chargement

2008

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

Mariusz Lamentowicz

Springer Netherlands2009