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Holocene palaeoenvironments of Guernsey and Alderney, Channel IslandsCampbell, James Arthur McLeish January 2000 (has links)
No description available.
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Makrofossilanalys av en järnåldersboplats i Gamla UppsalaArdakani, Daniel January 2016 (has links)
I Gamla Uppsala har det förekommit arkeologiska utgrävningar i omgångar i flera år och decennier då platsen är känd för att ha varit bebodd så långt bak i tiden som järnåldern. Den senaste utgrävningen utfördes i samband med bygget av en järnvägstunnel som är en del av Ostkustbanan. Arkeologiska utgrävningar har delvis syftet att ta reda på hur folk har levt på en plats dvs. vilka grödor som odlades, vilka redskap som användes osv. För att få fram information från förhistoriska boplatser använder arkeologerna sig av olika metoder. En av dessa metoder är makrofossilanalys. Makrofossilanalys går ut på att fröer av bland annat sädesslag och ogräs extraheras, kvantifieras och artbestäms. Denna metod har legat till grund för detta projekt i syfte att funktionsbestämma tre hus från en järnåldersboplats i Gamla Uppsala. Metoden visade sig vara väldigt användbar i detta projekt då resultatet i viss utsträckning har kunnat användas för funktionsbestämning men det blev uppenbart att metoden enbart ger antydningar och fungerar bäst i kombination med andra metoder exempelvis fosfatanalys i en kombination med en tolkning av det övriga arkeologiska materialet. / There have been several excavations in Old Uppsala over the years and decades since the area has been inhabited since the Iron Age. The most recent excavation took place in connection with the construction of a railway tunnel, which is a part of the East Link project. The object of an archaeological excavation is to obtain information about the way in which previous civilizations lived in a specific location, what kind of crops were cultivated, what kind of tool were being used, and so forth. In order to obtain information about prehistoric settlements, archaeologists use a variety of different methods. One of these methods is called macrofossil analysis. By using macrofossil analysis, seeds and cereals, in the shape of macrofossils, can be extracted from soil samples. By analysing macrofossils, it is possible to obtain information about buildings and thereby establishing their purposes, for instance residence, barn, and so forth. In this thesis work, macrofossil analysis was used as a way to establish the different functions of three buildings from an Iron Age settlement in Old Uppsala.
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Development of palsa mires on the northern European continent in relation to Holocene climatic and environmental changesOksanen, P. O. (Pirita O.) 11 November 2005 (has links)
Abstract
This thesis deals with the Holocene development of palsa mires in continental Europe, especially permafrost dynamics and its consequences on vegetation succession and peat accumulation. Peat deposits of four permafrost mires in boreal and subarctic northeastern European Russia and in northern oroboreal Finland have been studied using plant macrofossil analysis, (AMS) radiocarbon dating, dry bulk density and carbon content measurements. In addition, preliminary results are available from another palsa mire in northeastern European Russia. Modern vegetation has been investigated to support the interpretation of fossil plant assemblages. Earlier literature on vegetation, stratigraphy and dating of permafrost mires in Europe has been reviewed.
The vegetation of palsa mires in general is well known. As a rule, palsas are dry ombrotrophic habitats, surrounded by wet flarks of variable trophic levels. There is a lack of information about vegetation in different small-scale habitats within palsa mires, which would have been useful when studying the permafrost-vegetation relationship. Although no functional indicator species of permafrost have been found, permafrost dynamics in peat stratigraphy can often be detected with high degree of probability based on changes in vegetation. Some plant assemblages and vegetation successions are typical on permafrost, while many species rarely grow on or near to permafrost. Relatively sudden changes between dry and wet mire environments and continuously dynamic conditions are good signs of permafrost impact. Also gradual changes towards drier conditions may be caused by permafrost; in these cases the timing of first permafrost aggradation is more difficult to ascertain and can usually be pronounced only in terms of maximum and minimum ages. Changes in peat accumulation rates and even hiatuses in stratigraphy are additional tools to support the interpretation on permafrost history at the studied sites.
Dry organic matter and carbon accumulation rates for different developmental stages are calculated for the five studied mires. From earlier studies this information is not available. Accumulation rates in the permafrost environment are very variable: from zero or negative rates in old palsas to as high as 100 gC/m2yr in incipient palsas. On moist plateau palsas, permafrost flarks and in unstable permafrost conditions, accumulation continues at low to moderate rates. Thermokarst processes result in decomposition of former peat deposits with important consequences for the ecosystem carbon balance, especially in plateau palsa mires.
Radiocarbon datings are available from 27 permafrost mires in continental Europe; only 5 of these are situated in Russia. Many of the published dates cannot be considered reliable as dating permafrost aggradation. Based on limited material, permafrost started to develop at latest about 3000 BP in mires of northern Russia and 2500 BP in Fennoscandia. Older permafrost formation is suggested for a few sites, but the evidence is insufficient to confirm this interpretation. The oldest preserved palsas are ca. 2500–2000 14C years old. Most of the modern palsas are less than 600 14C years old. Permafrost aggradation follows the major climate development in the Holocene, with formation being most active during the coldest stages.
Global warming is expected to greatly affect the Arctic in the near future, which would imply significant changes in ecosystem functioning and carbon balance of permafrost mires. This study contributes to the understanding of the possible impacts of climate change on these ecosystems using paleoecological techniques.
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Urbanised Nature in the Past : Site formation and Environmental Developement in Two Swedish Towns, AD 1200-1800Heimdahl, Jens January 2005 (has links)
<p>In order to explore site formations and reconstruct environmental development in Medieval and Post-Medieval towns, urban occupational strata in Norrköping and Karlstad were studied according to biostratigraphy, sedimentology and pedology. New field procedures including continuous pilot sampling, parallel archaeological and geological stratigraphic interpretation, and on-site analysis of plant macrofossils were developed and applied at archaeological excavations in both towns. Representation of both disciplines in the field during excavations greatly contributed to more complete field interpretations.</p><p>Stratigraphical analyses indicate that geological processes have been active in both towns, and reveal similarities in site formation. The earliest proto-urban phase is represented by the presence of dark earths, formed by the combination of alluvial processes and cattle tramping. Alluvial processes were common in Karlstad due to the flooding of the river delta, and in Norrköping due to the sloping topography. Both situations were enhanced by human activity, which caused drainage problems. A significant change in composition and origin of house foundation fill was also noted. The oldest foundations contained fine-grained material of local origin in contrast to younger foundations, which contained coarser material, sometimes of regional origin. This is interpreted as a professionalisation of the urban building tradition, which in Norrköping occurred during the 16th century and in Karlstad during the 18th century. Site formations of urban strata are regulated by three major factors: deposition, post-depositional soil formation and erosion/truncation, which all may occur both culturally and naturally.</p><p>Plant macrofossil analyses in Norrköping and Karlstad resulted in a fossil record with a total amount of 203 and 169 different types of plant species and taxa respectively. The records indicate that site formation processes seem to have been inhibited during wintertime. The results also confirm the idea of the early Scandinavian towns as rural, also during the Post-Medieval time. The finds of cultural plants in Karlstad indicate 18th century cultivation of Fragaria moscata and 17th century import of Pimento officinalis. In Norrköping remains of beer additives confirm that the tradition of combining Humulus lupulus and Myrica gale disappeared after the 15th century, but also indicate a the use of Filipendula ulmaria as a beer addative. Finds of seeds from Nicotiana rustica suggests that tobacco cultivation occurred in Norrköping 1560-1640, which is some decades earlier than known so far in Sweden.</p>
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Urbanised Nature in the Past : Site formation and Environmental Developement in Two Swedish Towns, AD 1200-1800Heimdahl, Jens January 2005 (has links)
In order to explore site formations and reconstruct environmental development in Medieval and Post-Medieval towns, urban occupational strata in Norrköping and Karlstad were studied according to biostratigraphy, sedimentology and pedology. New field procedures including continuous pilot sampling, parallel archaeological and geological stratigraphic interpretation, and on-site analysis of plant macrofossils were developed and applied at archaeological excavations in both towns. Representation of both disciplines in the field during excavations greatly contributed to more complete field interpretations. Stratigraphical analyses indicate that geological processes have been active in both towns, and reveal similarities in site formation. The earliest proto-urban phase is represented by the presence of dark earths, formed by the combination of alluvial processes and cattle tramping. Alluvial processes were common in Karlstad due to the flooding of the river delta, and in Norrköping due to the sloping topography. Both situations were enhanced by human activity, which caused drainage problems. A significant change in composition and origin of house foundation fill was also noted. The oldest foundations contained fine-grained material of local origin in contrast to younger foundations, which contained coarser material, sometimes of regional origin. This is interpreted as a professionalisation of the urban building tradition, which in Norrköping occurred during the 16th century and in Karlstad during the 18th century. Site formations of urban strata are regulated by three major factors: deposition, post-depositional soil formation and erosion/truncation, which all may occur both culturally and naturally. Plant macrofossil analyses in Norrköping and Karlstad resulted in a fossil record with a total amount of 203 and 169 different types of plant species and taxa respectively. The records indicate that site formation processes seem to have been inhibited during wintertime. The results also confirm the idea of the early Scandinavian towns as rural, also during the Post-Medieval time. The finds of cultural plants in Karlstad indicate 18th century cultivation of Fragaria moscata and 17th century import of Pimento officinalis. In Norrköping remains of beer additives confirm that the tradition of combining Humulus lupulus and Myrica gale disappeared after the 15th century, but also indicate a the use of Filipendula ulmaria as a beer addative. Finds of seeds from Nicotiana rustica suggests that tobacco cultivation occurred in Norrköping 1560-1640, which is some decades earlier than known so far in Sweden.
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Ostkustbanans konsekvenser : En makrofossilanalys i Gamla Uppsala / The consequences of Ostkustbanan : A macrofossil analysis in Gamla UppsalaMeijer, Patrik January 2018 (has links)
Gamla Uppsala is a spectacular area filled with archeological remains dating back to the Iron Age. There have been several excavations in the area, the biggest one carried out between 2012 and 2013 with the construction of a tunnel that is a part of the railroad Ostkustbanan.An important tool in understanding the Iron Age civilization in Gamla Uppsala is to know what houses were used for. This is where a method called macrofossil analysis can be used with great success. By analyzing earth samples from postholes, graves, wells and hearths macrofossils like seeds and slag can be found and used to interpret a house based on the material.This study is going to use samples that were not prioritized during the excavations for the analysis in order to answer what function these houses had.The macrofossil analysis conducted during this study showed a lot of fresh seeds but also charred material that consisted mostly of grain seeds. An interpretation of the houses using the material found within the earth samples was made and the postholes was likely dwelling houses.Hopefully this study can contribute to a further understanding of Gamla Uppsala during the Iron Ages.
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Palaeoenvironment in North-Western Romania during the last 15 000 yearsFeurdean, Angelica January 2004 (has links)
<p>The objectives of this thesis are to establish a chronological framework for environmental changes during the last 15,000 years in northwest Romania, to reconstruct the vegetation development, and to evaluate the underlying processes for forest dynamics. Furthermore, an overview of earlier and ongoing pollenstratigraphic work in Romania is provided. </p><p>Sediments from two former crater lakes, Preluca Tiganului and Steregoiu, situated in the Gutaiului Mountains, on the western extremity of the Eastern Carpathians at 730 m and 790 m a.s.l., respectively were obtained and analysed for high-resolution pollen, macrofossils, charcoal, mineral magnetic parameters and organic matter. The chronostratigraphic framework was provided by dense AMS <sup>14</sup>C measurements. </p><p>Cold and dry climatic conditions are indicated by the occurrence of open vegetation with shrubs and herbs, and cold lake water prior to 14,700 cal. yr BP. The climatic improvement at the beginning of the Lateglacial interstadial (around 14,700 cal. yr BP) is seen by the development of open forests. These were dominated by <i>Pinus</i> and <i>Betula</i>, but contained also new arriving tree taxa, such as <i>Populus</i>, <i>Alnus</i> and <i>Prunus</i>. The gradual establishment of forests may have led to a stabilization of the soils in the catchment. Between ca. 14,100 and 13,800 cal. yr BP the forest density became reduced to stands of <i>Pinus</i>, <i>Betula</i>, <i>Alnus</i>, <i>Larix</i> and <i>Populus</i> trees and grassland expanded, suggesting colder climatic conditions. <i>Picea</i> arrived as a new taxon at around 13,800 cal. yr BP, and between 13,800 and 12,900 cal. yr BP, the surroundings of the sites were predominantly covered by <i>Picea </i>forest. This forest included <i>Betula</i>, <i>Pinus</i>, <i>Alnus</i>, <i>Larix</i> and <i>Populus</i> and, from 13,200 cal. yr BP onwards also <i>Ulmus</i>. At ca. 12,900 cal. yr BP, the forest became significantly reduced and at 12,600 cal. yr BP, a recurrence of open vegetation with stands of <i>Larix</i>, <i>Pinus</i>, <i>Betula</i>, <i>Salix</i> and <i>Alnus</i> is documented, lasting until 11,500 cal. yr BP. This distinct change in vegetation may by taken as a strong decline in temperature and moisture availability.</p><p>At the transition to the Holocene, at ca. 11,500 cal. yr BP, <i>Pinus</i>, <i>Betula</i> and <i>Larix</i> quickly expanded (from small local stands) and formed open forests, probably as a response to warmer and more humid climatic conditions. At 11,250 cal. yr BP<i> Ulmus</i> and <i>Picea</i> expanded and the landscape became completely forested. The rapid increase of <i>Ulmus</i> and <i>Picea</i> after 11,500 cal. yr BP may suggest the existence of small residual populations close to the study sites during the preceding cold interval. <i>Ulmus</i> was the first and most prominent deciduous taxa in the early Holocene in the Gutaiului Mountains. From ca. 10,750 cal. yr BP onwards <i>Quercus,</i> <i>Tilia</i>, <i>Fraxinus </i>and <i>Acer</i> expanded and <i>Corylus</i> arrived. A highly diverse, predominantly deciduous forest with <i>Ulmus</i>, <i>Quercus</i>, <i>Tilia</i>,<i> Fraxinus</i>, <i>Acer</i>, <i>Corylus</i> and <i>Picea</i> developed between 10,700 and 8200 cal. yr BP, which possibly signifies more continental climatic conditions. The development of a <i>Picea-Corylus</i> dominated forest between 8200 and 5700 cal. yr BP is likely connected to a more humid and cooler climate. The establishment of <i>Carpinus</i> and <i>Fagus</i> was dated to 5750 cal. yr BP and 5200 cal. yr BP, respectively. The dominance of <i>Fagus</i> during the late Holocene, from 4000 cal. yr BP onwards, may have been related to cooler and more humid climatic conditions. First signs of human activities are recorded around 2300 cal. yr BP, but only during the last 300 years did local human impact become significant. </p><p>The vegetation development recorded in the Gutaiului Mountains during the Lateglacial is very similar to reconstructions based on lowland sites, whereas higher elevation sites seem not to have always experienced visible vegetation changes. The time of tree arrival and expansion during the past 11,500 cal. yr BP seems to have occurred almost synchronously across Romania. The composition of the forests during the Holocene in the Gutaiului Mountains is consistent with that reconstructed at mid-elevation sites, but differs from the forest composition at higher elevations. Important differences between the Gutaiului Mountains and other studied sites in Romania are a low representation of <i>Carpinus </i>and a late and weak human impact. </p><p>The available data sets for Romania give evidence for the presence of coniferous and cold-tolerant deciduous trees before 14,700 cal. yr BP. Glacial refugia for <i>Ulmus</i> may have occurred in different parts of Romania, whereas the existence of <i>Quercu</i>s, <i>Tilia</i>, <i>Corylus</i> and <i>Fraxinus</i> has not been corroborated. </p>
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Palaeoenvironment in North-Western Romania during the last 15 000 yearsFeurdean, Angelica January 2004 (has links)
The objectives of this thesis are to establish a chronological framework for environmental changes during the last 15,000 years in northwest Romania, to reconstruct the vegetation development, and to evaluate the underlying processes for forest dynamics. Furthermore, an overview of earlier and ongoing pollenstratigraphic work in Romania is provided. Sediments from two former crater lakes, Preluca Tiganului and Steregoiu, situated in the Gutaiului Mountains, on the western extremity of the Eastern Carpathians at 730 m and 790 m a.s.l., respectively were obtained and analysed for high-resolution pollen, macrofossils, charcoal, mineral magnetic parameters and organic matter. The chronostratigraphic framework was provided by dense AMS 14C measurements. Cold and dry climatic conditions are indicated by the occurrence of open vegetation with shrubs and herbs, and cold lake water prior to 14,700 cal. yr BP. The climatic improvement at the beginning of the Lateglacial interstadial (around 14,700 cal. yr BP) is seen by the development of open forests. These were dominated by Pinus and Betula, but contained also new arriving tree taxa, such as Populus, Alnus and Prunus. The gradual establishment of forests may have led to a stabilization of the soils in the catchment. Between ca. 14,100 and 13,800 cal. yr BP the forest density became reduced to stands of Pinus, Betula, Alnus, Larix and Populus trees and grassland expanded, suggesting colder climatic conditions. Picea arrived as a new taxon at around 13,800 cal. yr BP, and between 13,800 and 12,900 cal. yr BP, the surroundings of the sites were predominantly covered by Picea forest. This forest included Betula, Pinus, Alnus, Larix and Populus and, from 13,200 cal. yr BP onwards also Ulmus. At ca. 12,900 cal. yr BP, the forest became significantly reduced and at 12,600 cal. yr BP, a recurrence of open vegetation with stands of Larix, Pinus, Betula, Salix and Alnus is documented, lasting until 11,500 cal. yr BP. This distinct change in vegetation may by taken as a strong decline in temperature and moisture availability. At the transition to the Holocene, at ca. 11,500 cal. yr BP, Pinus, Betula and Larix quickly expanded (from small local stands) and formed open forests, probably as a response to warmer and more humid climatic conditions. At 11,250 cal. yr BP Ulmus and Picea expanded and the landscape became completely forested. The rapid increase of Ulmus and Picea after 11,500 cal. yr BP may suggest the existence of small residual populations close to the study sites during the preceding cold interval. Ulmus was the first and most prominent deciduous taxa in the early Holocene in the Gutaiului Mountains. From ca. 10,750 cal. yr BP onwards Quercus, Tilia, Fraxinus and Acer expanded and Corylus arrived. A highly diverse, predominantly deciduous forest with Ulmus, Quercus, Tilia, Fraxinus, Acer, Corylus and Picea developed between 10,700 and 8200 cal. yr BP, which possibly signifies more continental climatic conditions. The development of a Picea-Corylus dominated forest between 8200 and 5700 cal. yr BP is likely connected to a more humid and cooler climate. The establishment of Carpinus and Fagus was dated to 5750 cal. yr BP and 5200 cal. yr BP, respectively. The dominance of Fagus during the late Holocene, from 4000 cal. yr BP onwards, may have been related to cooler and more humid climatic conditions. First signs of human activities are recorded around 2300 cal. yr BP, but only during the last 300 years did local human impact become significant. The vegetation development recorded in the Gutaiului Mountains during the Lateglacial is very similar to reconstructions based on lowland sites, whereas higher elevation sites seem not to have always experienced visible vegetation changes. The time of tree arrival and expansion during the past 11,500 cal. yr BP seems to have occurred almost synchronously across Romania. The composition of the forests during the Holocene in the Gutaiului Mountains is consistent with that reconstructed at mid-elevation sites, but differs from the forest composition at higher elevations. Important differences between the Gutaiului Mountains and other studied sites in Romania are a low representation of Carpinus and a late and weak human impact. The available data sets for Romania give evidence for the presence of coniferous and cold-tolerant deciduous trees before 14,700 cal. yr BP. Glacial refugia for Ulmus may have occurred in different parts of Romania, whereas the existence of Quercus, Tilia, Corylus and Fraxinus has not been corroborated.
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Environmental Development around Falun Copper Mine during Late HoloceneEdberg, Elin January 2015 (has links)
The area at and around the Falun copper mine has always been of great interest. To begin with it was the valuable ore that drew people to the area. Now it is the historical, archaeological and environmental aspects that draw researchers from different fields of study to Falun. Peat cores were taken in several peatlands throughout an area extending toward about 2 kilometres to the west, southwest and south of the Falun mine. One core was selected for more extensive studies including plant macrofossil analysis, loss on ignition (LOI) and 14C – analysis. These methods are combined to give a picture of the environmental conditions at different periods in time, using plants and their preferred growth environment as an aid. The untouched environment changing into the well-known mining landscape that prevailed in the hey-day of the mine, with the change being the focal point, is the reason for this study.The cores presented in this thesis generally show lake areas drying up and transforming into peatlands, some peatlands may however have been formed in other ways. The location chosen for further studies is now almost transformed to a forest floor. This study provides a solid foundation for further studies as well as adds more information to existing knowledge. However, more research is needed to fully understand how the environment changed due to the opening of the mine. / Området vid och runt Falu koppargruva har alltid varit av stort intresse. Till en början var det den dyrbara malmen som lockade människor till platsen. Numer är det de historiska, arkeologiska och miljörelaterade aspekterna som lockar forskare från olika forskningsfält hit. Torvkärnor togs från flera torvmarker inom ett område som sträcker sig ungefär 2 kilometer i väst-, sydväst-, och sydlig riktning från Falu gruva. En torvkärna valdes ut för mer omfattande undersökningar, dessa inkluderar växt-makrofossil-analys, LOI och 14C – analys. Dessa metoder kombineras för att få en bild av de rådande miljöförhållandena vid olika tidpunkter, genom att använda växters föredragna växtplats som hjälp. Det är hur den orörda naturen förändrats till det välkända gruvlandskapet som rådde under gruvans storhetstid, med förändringen i centrum, som är anledningen till denna studie.Torvkärnorna som visas i denna rapport visar i stort sett hur sjömiljöer torkat ut och förändrats till våtmarker, vissa våtmarker kan dock ha utvecklats på annat sätt. Den plats som valdes ut för vidare studier har idag nästan helt omvandlats till skogsmark. Denna studie ger en stadig grund för vidare studier och tillför viss information till den redan befintliga. Det behövs dock mer forskning för att fullt ut förstå de miljöförändringar som gruvdriften medförde.
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Peatlands in Maputaland: Genesis, substrates and properties exemplified by the region of “Greater Manguzi”Gabriel, Marvin 17 April 2019 (has links)
Moore in Südafrika sind wichtige, aber bedrohte Ökosysteme. Etwa 20.200 ha, zwei Drittel der südafrikanischen Moore, befinden sich auf der Maputaland Coastal Plain. Eukalyptusplantagen und gängige Anbaumethoden, die Dränung beinhalten, bedrohen die Existenz der Moore. Ein besseres Verständnis von Prozessen und Eigenschaften der Moore Maputalands ist dringend erforderlich, um effektive Schutzstrategien zu entwickeln. Diese Dissertation untersucht die Moorbildung in Maputaland aus einer bodenkundlichen Perspektive, um Voraussetzungen für effektive Schutzmaßnahmen und Renaturierungsmaßnahmen abzuleiten sowie Ratschläge für nachhaltigere Anbaumethoden auszuarbeiten. Per Großrestanalyse wurden Moor- und Torfbildungsprozesse untersucht. Auf Grundlage von 141 in Feldarbeit untersuchten Bodenprofilen wurden 15 unterschiedliche Moorsubstrate beschrieben und in genetische Substratgruppen sowie botanische Torftypen kategorisiert. Für diese Substrate wurden die folgenden physikalischen und chemischen Bodeneigenschaften bestimmt: Kohlenstoffgehalt, C/N Verhältnis, elektrische Leitfähigkeit, pH-Wert, Trockenrohdichte, Porenverteilung, gesättigte und ungesättigte hydraulische Leitfähigkeit sowie maximaler kapillarer Aufstieg. Zudem wurden die Auswirkungen von Degradierung auf die physischen und chemischen Eigenschaften der Moore untersucht. Hierfür wurden die eben benannten Kenngrößen für Substrate in verschiedenen Degradierungsstufen gemessen. Auf Grundlage der Veränderungen der Bodeneigenschaften werden die Verluste von Ökosystemfunktionen durch Degradierung diskutiert. Anhand der Häufigkeit der Substrattypen in den unterschiedlichen hydrogeomorphologischen Moortypen werden angepasste Empfehlungen für Schutz, Renaturierung und nachhaltigere landwirtschaftliche Nutzung der Moore erarbeitet, basierend auf den ermittelten Substrateigenschaften. Darüber hinaus werden auf Grundlage aktueller Klimaprognosen zukünftige Stresssituationen für die Moore durch den Klimawandel analysiert. / Peatlands in South Africa are important and threatened ecosystems. They are of great socio-ecological significance, as sources of freshwater, fertile land, material for construction, medicinal plants, habitat for specialised plants and animals, and as an attraction for ecotourists. Some 20.200 ha, about two thirds of South Africa’s peatlands, are located at the Maputaland Coastal Plain. Eucalyptus plantations and common cultivation practices which include drainage are threatening the existence of the peatlands. This dissertation investigates peatland formation in Maputaland from a soil-related point of view, in order to identify the requirements for effective conservation and restoration measures, as well as more sustainable cultivation practices. Insights into peat formation processes were obtained through a macrofossil analysis. Based on the field examination of 141 soil profiles, 15 different peatland substrates were described and categorised into genetic substrate groups, and botanical peat types. Mean values for the following physical and chemical properties were determined for each substrate: Carbon content, C/N ratio, electrical conductivity, pH-value, bulk density, pore size distribution, saturated hydraulic conductivity, unsaturated hydraulic conductivity and maximum capillary rise. Moreover, the effect of degradation on the physical and chemical properties of South African peatlands was explored. Therefore, the aforementioned properties were measured for substrates at different degrees of degradation. Based on the changes in the soil properties thus established, the loss of ecosystem functions through degradation is discussed. By considering the frequency of occurrence of the substrate types in different hydrogeomorphic peatland types, adapted implications for conservation, restoration and cultivation are derived. In addition, based on the actual projections of climate change, estimations about future stress on the peatlands were derived.
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