TY - JOUR A1 - Tian, Fang A1 - Herzschuh, Ulrike A1 - Mischke, Steffen A1 - Schluetz, Frank T1 - What drives the recent intensified vegetation degradation in Mongolia - Climate change or human activity? JF - The Holocene : an interdisciplinary journal focusing on recent environmental change N2 - This study examines the course and driving forces of recent vegetation change in the Mongolian steppe. A sediment core covering the last 55years from a small closed-basin lake in central Mongolia was analyzed for its multi-proxy record at annual resolution. Pollen analysis shows that highest abundances of planted Poaceae and highest vegetation diversity occurred during 1977-1992, reflecting agricultural development in the lake area. A decrease in diversity and an increase in Artemisia abundance after 1992 indicate enhanced vegetation degradation in recent times, most probably because of overgrazing and farmland abandonment. Human impact is the main factor for the vegetation degradation within the past decades as revealed by a series of redundancy analyses, while climate change and soil erosion play subordinate roles. High Pediastrum (a green algae) influx, high atomic total organic carbon/total nitrogen (TOC/TN) ratios, abundant coarse detrital grains, and the decrease of C-13(org) and N-15 since about 1977 but particularly after 1992 indicate that abundant terrestrial organic matter and nutrients were transported into the lake and caused lake eutrophication, presumably because of intensified land use. Thus, we infer that the transition to a market economy in Mongolia since the early 1990s not only caused dramatic vegetation degradation but also affected the lake ecosystem through anthropogenic changes in the catchment area. KW - central Mongolia KW - grain size KW - human impact KW - lake eutrophication KW - pollen KW - vegetation degradation Y1 - 2014 U6 - https://doi.org/10.1177/0959683614540958 SN - 0959-6836 SN - 1477-0911 VL - 24 IS - 10 SP - 1206 EP - 1215 PB - Sage Publ. CY - London ER - TY - GEN A1 - Tian, Fang A1 - Herzschuh, Ulrike A1 - Mischke, Steffen A1 - Schlütz, Frank T1 - What drives the recent intensified vegetation degradation in Mongolia BT - Climate change or human activity? T2 - The Holocene N2 - This study examines the course and driving forces of recent vegetation change in the Mongolian steppe. A sediment core covering the last 55years from a small closed-basin lake in central Mongolia was analyzed for its multi-proxy record at annual resolution. Pollen analysis shows that highest abundances of planted Poaceae and highest vegetation diversity occurred during 1977-1992, reflecting agricultural development in the lake area. A decrease in diversity and an increase in Artemisia abundance after 1992 indicate enhanced vegetation degradation in recent times, most probably because of overgrazing and farmland abandonment. Human impact is the main factor for the vegetation degradation within the past decades as revealed by a series of redundancy analyses, while climate change and soil erosion play subordinate roles. High Pediastrum (a green algae) influx, high atomic total organic carbon/total nitrogen (TOC/TN) ratios, abundant coarse detrital grains, and the decrease of C-13(org) and N-15 since about 1977 but particularly after 1992 indicate that abundant terrestrial organic matter and nutrients were transported into the lake and caused lake eutrophication, presumably because of intensified land use. Thus, we infer that the transition to a market economy in Mongolia since the early 1990s not only caused dramatic vegetation degradation but also affected the lake ecosystem through anthropogenic changes in the catchment area. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 418 KW - central Mongolia KW - grain size KW - human impact KW - lake eutrophication KW - pollen KW - vegetation degradation Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-404201 ER - TY - JOUR A1 - Wischnewski, Juliane A1 - Kramer, Annette A1 - Kong, Zhaochen A1 - Mackay, Anson W. A1 - Simpson, Gavin L. A1 - Mischke, Steffen A1 - Herzschuh, Ulrike T1 - Terrestrial and aquatic responses to climate change and human impact on the southeastern Tibetan Plateau during the past two centuries JF - Global change biology N2 - Rapid population growth and economic development have led to increased anthropogenic pressures on the Tibetan Plateau, causing significant land cover changes with potentially severe ecological consequences. To assess whether or not these pressures are also affecting the remote montane-boreal lakes on the SE Tibetan Plateau, fossil pollen and diatom data from two lakes were synthesized. The interplay of aquatic and terrestrial ecosystem response was explored in respect to climate variability and human activity over the past 200 years. Nonmetric multidimensional scaling and Procrustes rotation analysis were undertaken to determine whether pollen and diatom responses in each lake were similar and synchronous. Detrended canonical correspondence analysis was used to develop quantitative estimates of compositional species turnover. Despite instrumental evidence of significant climatic warming on the southeastern Plateau, the pollen and diatom records indicate very stable species composition throughout their profiles and show only very subtle responses to environmental changes over the past 200 years. The compositional species turnover (0.36-0.94 SD) is relatively low in comparison to the species reorganizations known from the periods during the mid-and early-Holocene (0.64-1.61 SD) on the SE Plateau, and also in comparison to turnover rates of sediment records from climate-sensitive regions in the circum arctic. Our results indicate that climatically induced ecological thresholds are not yet crossed, but that human activity has an increasing influence, particularly on the terrestrial ecosystem in our study area. Synergistic processes of post-Little Ice Age warming, 20th century climate warming and extensive reforestations since the 19th century have initiated a change from natural oak-pine forests to seminatural, likely less resilient pine-oak forests. Further warming and anthropogenic disturbances would possibly exceed the ecological threshold of these ecosystems and lead to severe ecological consequences. KW - climate change KW - compositional species turnover KW - diatoms KW - human impact KW - pollen KW - Procrustes rotation KW - Tibetan Plateau Y1 - 2011 U6 - https://doi.org/10.1111/j.1365-2486.2011.02474.x SN - 1354-1013 VL - 17 IS - 11 SP - 3376 EP - 3391 PB - Wiley-Blackwell CY - Malden ER - TY - THES A1 - Dräger, Nadine T1 - Holocene climate and environmental variability in NE Germany inferred from annually laminated lake sediments T1 - Rekonstruktion Holozäner Klima- und Umweltveränderungen in NO Deutschland anhand von jährlich geschichteten Seesedimenten N2 - Understanding the role of natural climate variability under the pressure of human induced changes of climate and landscapes, is crucial to improve future projections and adaption strategies. This doctoral thesis aims to reconstruct Holocene climate and environmental changes in NE Germany based on annually laminated lake sediments. The work contributes to the ICLEA project (Integrated CLimate and Landscape Evolution Analyses). ICLEA intends to compare multiple high-resolution proxy records with independent chronologies from the N central European lowlands, in order to disentangle the impact of climate change and human land use on landscape development during the Lateglacial and Holocene. In this respect, two study sites in NE Germany are investigated in this doctoral project, Lake Tiefer See and palaeolake Wukenfurche. While both sediment records are studied with a combination of high-resolution sediment microfacies and geochemical analyses (e.g. µ-XRF, carbon geochemistry and stable isotopes), detailed proxy understanding mainly focused on the continuous 7.7 m long sediment core from Lake Tiefer See covering the last ~6000 years. Three main objectives are pursued at Lake Tiefer See: (1) to perform a reliable and independent chronology, (2) to establish microfacies and geochemical proxies as indicators for climate and environmental changes, and (3) to trace the effects of climate variability and human activity on sediment deposition. Addressing the first aim, a reliable chronology of Lake Tiefer See is compiled by using a multiple-dating concept. Varve counting and tephra findings form the chronological framework for the last ~6000 years. The good agreement with independent radiocarbon dates of terrestrial plant remains verifies the robustness of the age model. The resulting reliable and independent chronology of Lake Tiefer See and, additionally, the identification of nine tephras provide a valuable base for detailed comparison and synchronization of the Lake Tiefer See data set with other climate records. The sediment profile of Lake Tiefer See exhibits striking alternations between well-varved and non-varved sediment intervals. The combination of microfacies, geochemical and microfossil (i.e. Cladocera and diatom) analyses indicates that these changes of varve preservation are caused by variations of lake circulation in Lake Tiefer See. An exception is the well-varved sediment deposited since AD 1924, which is mainly influenced by human-induced lake eutrophication. Well-varved intervals before the 20th century are considered to reflect phases of reduced lake circulation and, consequently, stronger anoxic conditions. Instead, non-varved intervals indicate increased lake circulation in Lake Tiefer See, leading to more oxygenated conditions at the lake ground. Furthermore, lake circulation is not only influencing sediment deposition, but also geochemical processes in the lake. As, for example, the proxy meaning of δ13COM varies in time in response to changes of the oxygen regime in the lake hypolinion. During reduced lake circulation and stronger anoxic conditions δ13COM is influenced by microbial carbon cycling. In contrast, organic matter degradation controls δ13COM during phases of intensified lake circulation and more oxygenated conditions. The varve preservation indicates an increasing trend of lake circulation at Lake Tiefer See after ~4000 cal a BP. This trend is superimposed by decadal to centennial scale variability of lake circulation intensity. Comparison to other records in Central Europe suggests that the long-term trend is probably related to gradual changes in Northern Hemisphere orbital forcing, which induced colder and windier conditions in Central Europe and, therefore, reinforced lake circulation. Decadal to centennial scale periods of increased lake circulation coincide with settlement phases at Lake Tiefer See, as inferred from pollen data of the same sediment record. Deforestation reduced the wind shelter of the lake, which probably increased the sensitivity of lake circulation to wind stress. However, results of this thesis also suggest that several of these phases of increased lake circulation are additionally reinforced by climate changes. A first indication is provided by the comparison to the Baltic Sea record, which shows striking correspondence between major non-varved intervals at Lake Tiefer See and bioturbated sediments in the Baltic Sea. Furthermore, a preliminary comparison to the ICLEA study site Lake Czechowskie (N central Poland) shows a coincidence of at least three phases of increased lake circulation in both lakes, which concur with periods of known climate changes (2.8 ka event, ’Migration Period’ and ’Little Ice Age’). These results suggest an additional over-regional climate forcing also on short term increased of lake circulation in Lake Tiefer See. In summary, the results of this thesis suggest that lake circulation at Lake Tiefer See is driven by a combination of long-term and short-term climate changes as well as of anthropogenic deforestation phases. Furthermore, the lake circulation drives geochemical cycles in the lake affecting the meaning of proxy data. Therefore, the work presented here expands the knowledge of climate and environmental variability in NE Germany. Furthermore, the integration of the Lake Tiefer See multi-proxy record in a regional comparison with another ICLEA side, Lake Czechowskie, enabled to better decipher climate changes and human impact on the lake system. These first results suggest a huge potential for further detailed regional comparisons to better understand palaeoclimate dynamics in N central Europe. N2 - Es ist von großer Bedeutung die natürliche Klimavariabilität unter dem Einfluss menschlich verursachter Klimaänderungen zu verstehen, um Zukunftsprognosen und Adaptionsstrategien zu verbessern. Die Hauptzielsetzung der vorliegenden Doktorarbeit ist die Rekonstruktion von Klima- und Umweltveränderungen während des Holozäns in NO Deutschland anhand von jährlich geschichteten Seesedimenten. Diese Arbeit ist ein Beitrag zum ICLEA Projekt (integrierte Klima- und Landschaftsentwicklungsanalyse). ICLEA strebt den Vergleich von mehreren hochaufgelösten Proxy- Archiven aus dem Nord-zentral europäischen Tiefland an, um Einflüsse von Mensch und Klima auf die Landschaftsentwicklung auseinander zu dividieren. Demnach werden in diesem Doktorprojekt zwei Gebiete untersucht: der Tiefe See und der verlandete See Wukenfurche. Während beide Sedimentarchive mit einer Kombination aus hochaufgelösten sedimentmikrofaziellen und -geochemischen Methoden untersucht werden, konzentriert sich die detaillierte Untersuchung der Proxy-Bedeutung auf den kontinuierlichen 7,7mlangen Sedimentkern vom Tiefer See, der die letzten 6000 Jahre abdeckt. Drei Hauptziele werden am Tiefen See verfolgt: (1) das Erstellen einer robusten und unabhängigen Chronologie (2) das Etablieren von mikrofaziellen und geochemischen Proxies als Indikatoren für Klima- und Landschaftsveränderungen und (3) das Ableiten von Klimaveränderungen und menschlichem Einfluss auf die Sedimentablagerung. Zum Erreichen des ersten Zieles wurde eine robuste Chronologie mit Hilfe eines multiplen Datierungsansatzes erstellt. Das Zusammenführen der Warvenzählung und Tephra-Funden bildet dabei das Gerüst für die Chronologie der letzten 6000 Jahre, deren Stabilität durch die gute Übereinstimmung mit unabhängigen Radiokarbondatierungen bestätigt wird. Diese robuste und unabhängige Chronologie und die zusätzlichen neun Tephra-Funde bieten die Basis für den detaillierten Vergleich und die Synchronisation des Tiefen See Datensatzes mit anderen Klimaarchiven. Das Sedimentprofil vom Tiefen See zeigt markante Wechsel zwischen gut warvierten und nicht warvierten Sedimentabschnitten auf. Die kombinierte Untersuchung der Mikrofazies, der Geochemie und von Mikrofossilien (d.h. Cladoceren und Diatomeen) zeigte, dass diese Veränderungen der Warvenerhaltung auf Änderungen der Seezirkulation zurückzuführen sind. Ausgenommen ist der rezente warvierte Abschnitt ab AD 1924, der hauptsächlich durch menschlich verursachte Seeeutrophierung beeinflusst ist. Warvierte Abschnitte vor dem 20. Jahrhundert sind durch verringerte Seezirkulation und die damit verbundenen stärkeren anoxischen Bedingungen im See hervorgerufen worden. Die Ablagerung von nicht warvierten Sedimenten weist auf stärkere Seezirkulation und sauerstoffreichere Bedingungen am Seegrund hin. Die Seezirkulation beeinflusst zusätzlich zum Sedimentmuster auch geochemische Prozesse im See. Zum Beispiel verändert sich die Proxy-Bedeutung der stabilen Kohlenstoffisotope von organischem Material (δ13COM) in Reaktion auf das veränderte Sauerstoffregime. Während geringer Seezirkulation und stärkeren anoxischen Bedingungen werden stark negative δ13COM Werte durch mikrobielle Aktivität hervorgerufen. Im Gegensatz verursachen Phasen mit verstärkter Seezirkulation positivere δ13COM Werte, was vermutlich auf stärkeren Abbau von organischem Material im sauerstoffangereicherten Milieu am Seegrund zurückzuführen ist. Die Warvenerhaltung zeigt einen ansteigenden Trend der Seezirkulation im Tiefen See nach ungefähr 4000 Jahre vor heute an. Dieser Trend ist überlagert mit kurzzeitigen Seezirkulationsveränderungen auf dekadischen Zeitskalen. Der Vergleich mit anderen Archiven in Zentral-Europa lässt darauf schließen, dass der Langzeittrend wahrscheinlich auf graduelle Veränderungen der orbitalen Parameter zurückzuführen ist, was kühlere und windigere Bedingungen in Zentral-Europa hervorgerufen hatte und damit die Seezirkulation im Tiefen See verstärkt hat. Die kurzzeitigen Phasen von verstärkter Seezirkulation fallen mit Siedlungsperioden am Tiefen See zusammen, die mit Pollendaten vom selben Sedimentkern rekonstruiert wurden. Die Waldrodung verringerte den Windschutz des Sees, was möglicherweise zu einer erhöhten Sensitivität der Seezirkulation zu Windstress geführt hat. Ein erster Vergleich des Tiefen Sees zu dem ICLEA Untersuchungsgebiet des Czechowskie See zeigt, dass in beiden Seen drei gemeinsame Phasen verstärkter Seezirkulation auftreten, die auch mit bekannten Zeiten veränderter Klimabedingungen zusammenfallen (2.8 ka event, Migrationsperiode und die Kleine Eiszeit). Diese Ergebnisse zeigen, dass die Seezirkulation von einer Kombination aus Klimaveränderung auf langen und kurzen Zeitskalen und der Abholzung des Menschen angetrieben wird. Zusammengefasst erweitert die hier vorliegende Arbeit das Wissen von Klima und Umweltveränderungen in NO Deutschland. Zudem wird gezeigt, dass ein regionaler Vergleich verschiedener Untersuchungsgebieten mit unabhängigen Chronologien ein verbessertes Auseinanderhalten von Klimaeinflüssen und menschlichen Einflüssen auf die Seesysteme ermöglicht. Damit kann ein verbessertes Verständnis der Paläoklimadynamik in Zentral-Europa gewonnen werden. KW - palaeoclimate KW - Paläoklima KW - Holocene KW - Holozän KW - varved lake sediments KW - warvierte Seesedimente KW - Tiefer See KW - Tiefer See KW - human impact KW - menschliche Einflüsse Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-103037 ER - TY - GEN A1 - Kienel, Ulrike A1 - Wulf Bowen, Sabine A1 - Byrne, Roger A1 - Park, Jungjae A1 - Böhnel, Harald A1 - Dulski, Peter A1 - Luhr, James F. A1 - Siebert, Lee A1 - Haug, Gerald H. A1 - Negendank, Jörg F. W. T1 - First lacustrine varve chronologies from Mexico BT - impact of droughts, ENSO and human activity since AD 1840 as recorded in maar sediments from Valle de Santiago T2 - Postprints der Universität Potsdam : Mathematisch Naturwissenschaftliche Reihe N2 - We present varve chronologies for sediments from two maar lakes in the Valle de Santiago region (Central Mexico): Hoya La Alberca (AD 1852-1973) and Hoya Rincn de Parangueo (AD 1839-1943). These are the first varve chronologies for Mexican lakes. The varved sections were anchored with tephras from Colima (1913) and Paricutin (1943/1944) and (210)Pb ages. We compare the sequences using the thickness of seasonal laminae and element counts (Al, Si, S, Cl, K, Ti, Mn, Fe, and Sr) determined by micro X-ray fluorescence spectrometry. The formation of the varve sublaminae is attributed to the strongly seasonal climate regime. Limited rainfall and high evaporation rates in winter and spring induce precipitation of carbonates (high Ca, Sr) enriched in (13)C and (18)O, whereas rainfall in summer increases organic and clastic input (plagioclase, quartz) with high counts of lithogenic elements (K, Al, Ti, and Si). Eolian input of Ti occurs also in the dry season. Moving correlations (5-yr windows) of the Ca and Ti counts show similar development in both sequences until the 1930s. Positive correlations indicate mixing of allochthonous Ti and autochthonous Ca, while negative correlations indicate their separation in sublaminae. Negative excursions in the correlations correspond with historic and reconstructed droughts, El Nio events, and positive SST anomalies. Based on our data, droughts (3-7 year duration) were severe and centred around the following years: the early 1850s, 1865, 1880, 1895, 1905, 1915 and the late 1920s with continuation into the 1930s. The latter dry period brought both lake systems into a critical state making them susceptible to further drying. Groundwater overexploitation due to the expansion of irrigation agriculture in the region after 1940 induced the transition from calcite to aragonite precipitation in Alberca and halite infiltration in Rincn. The proxy data indicate a faster response to increased evaporation for Rincn, the lake with the larger maar dimensions, solar radiation receipt and higher conductivity, whereas the smaller, steeper Alberca maar responded rapidly to increased precipitation. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 860 KW - varve chronology KW - tephra KW - element chemistry KW - drought KW - human impact KW - El Nino KW - Mexico Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-432794 SN - 1866-8372 IS - 860 SP - 587 EP - 609 ER - TY - JOUR A1 - Braun, Christina A1 - Mustafa, Osama A1 - Nordt, Anja A1 - Pfeiffer, Simone A1 - Peter, Hans-Ulrich T1 - Environmental monitoring and management proposals for the Fildes Region, King George Island, Antarctica JF - Polar research : a Norwegian journal of Polar research N2 - The Antarctic terrestrial environment is under increasing pressure from human activities. The Fildes Region is characterized by high biodiversity, but is also a major logistic centre for the northern Antarctic Peninsula. Different interests, from scientific research, nature conservation, protection of geological and historical values, station operations, transport logistics and tourism, regularly overlap in space and time. This has led to increasing conflict among the multiple uses of the region and breaches of the legal requirements for environmental protection that apply in the area. The aim of this study was to assess the impacts of human activities in the Fildes Region by monitoring the distribution of bird and seal breeding sites and recording human activities and their associated environmental impacts. Data from an initial monitoring period 2003-06 were compared with data from 2008-10. We observed similar or increased levels of air, land and ship traffic, but fewer violations of overflight limits near Antarctic Specially Protected Area No. 150 Ardley Island. Open waste dumping and oil contamination are still major environmental impacts. Scientific and outdoor leisure activities undertaken by station personnel are more frequent than tourist activities and are likely to have a commensurate level of environmental impact. Despite the initial success of some existing management measures, it is essential that scientific and environmental values continue to be safeguarded, otherwise environmental impacts will increase and the habitat will be further degraded. We argue that the Fildes Region should be considered for designation as an Antarctic Specially Managed Area, a measure that has proven effective for environmental management of vulnerable areas of the Antarctic. KW - human impact KW - Antarctic KW - Fildes Region KW - environmental management KW - Antarctic Specially Managed Area KW - protected area Y1 - 2012 U6 - https://doi.org/10.3402/polar.v31i0.18206 SN - 0800-0395 VL - 31 IS - 209 PB - Co-Action Publ. CY - Jarfalla ER - TY - JOUR A1 - Hoffmann, Thomas A1 - Schlummer, Manuela A1 - Notebaert, Bastiaan A1 - Verstraeten, Gert A1 - Korup, Oliver T1 - Carbon burial in soil sediments from Holocene agricultural erosion, Central Europe JF - Global biogeochemical cycles N2 - Natural and human-induced erosion supplies high amounts of soil organic carbon (OC) to terrestrial drainage networks. Yet OC fluxes in rivers were considered in global budgets only recently. Modern estimates of annual carbon burial in inland river sediments of 0.6 Gt C, or 22% of C transferred from terrestrial ecosystems to river channels, consider only lakes and reservoirs and disregard any long-term carbon burial in hillslope or floodplain sediments. Here we present the first assessment of sediment-bound OC storage in Central Europe from a synthesis of similar to 1500 Holocene hillslope and floodplain sedimentary archives. We show that sediment storage increases with drainage-basin size due to more extensive floodplains in larger river basins. However, hillslopes retain hitherto unrecognized high amounts of eroded soils at the scale of large river basins such that average agricultural erosion rates during the Holocene would have been at least twice as high as reported previously. This anthropogenic hillslope sediment storage exceeds floodplain storage in drainage basins <10(5) km(2), challenging the notion that floodplains are the dominant sedimentary sinks. In terms of carbon burial, OC concentrations in floodplains exceed those on hillslopes, and net OC accumulation rates in floodplains (0.70.2 g C m(-2)a(-1)) surpass those on hillslopes (0.40.1 g C m(-2)a(-1)) over the last 7500 years. We conclude that carbon burial in floodplains and on hillslopes in Central Europe exceeds terrestrial carbon storage in lakes and reservoirs by at least 2 orders of magnitude and should thus be considered in continental carbon budgets. KW - soil organic carbon KW - human impact KW - soil erosion KW - hillslope KW - floodplain KW - deposition Y1 - 2013 U6 - https://doi.org/10.1002/gbc.20071 SN - 0886-6236 SN - 1944-9224 VL - 27 IS - 3 SP - 828 EP - 835 PB - American Geophysical Union CY - Washington ER -