TY - JOUR A1 - Li, Chenzhi A1 - Postl, Alexander K. A1 - Böhmer, Thomas A1 - Cao, Xianyong A1 - Dolman, Andrew M. A1 - Herzschuh, Ulrike T1 - Harmonized chronologies of a global late Quaternary pollen dataset (LegacyAge 1.0) JF - Earth system science data : ESSD N2 - We present a chronology framework named LegacyAge 1.0 containing harmonized chronologies for 2831 pollen records (downloaded from the Neotoma Paleoecology Database and the supplementary Asian datasets) together with their age control points and metadata in machine-readable data formats. All chronologies use the Bayesian framework implemented in Bacon version 2.5.3. Optimal parameter settings of priors (accumulation.shape, memory.strength, memory.mean, accumulation.rate, and thickness) were identified based on information in the original publication or iteratively after preliminary model inspection. The most common control points for the chronologies are radiocarbon dates (86.1 %), calibrated by the latest calibration curves (IntCal20 and SHCal20 for the terrestrial radiocarbon dates in the Northern Hemisphere and Southern Hemisphere and Marine20 for marine materials). The original publications were consulted when dealing with outliers and inconsistencies. Several major challenges when setting up the chronologies included the waterline issue (18.8% of records), reservoir effect (4.9 %), and sediment deposition discontinuity (4.4 %). Finally, we numerically compare the LegacyAge 1.0 chronologies to those published in the original publications and show that the reliability of the chronologies of 95.4% of records could be improved according to our assessment. Our chronology framework and revised chronologies provide the opportunity to make use of the ages and age uncertainties in synthesis studies of, for example, pollen-based vegetation and climate change. The LegacyAge 1.0 dataset, including metadata, datings, harmonized chronologies, and R code used, is openaccess and available at PANGAEA (https://doi.org/10.1594/PANGAEA.933132; Li et al., 2021) and Zenodo (https://doi.org/10.5281/zenodo.5815192; Li et al., 2022), respectively. Y1 - 2022 U6 - https://doi.org/10.5194/essd-14-1331-2022 SN - 1866-3508 SN - 1866-3516 VL - 14 IS - 3 SP - 1331 EP - 1343 PB - Copernics Publications CY - Katlenburg-Lindau ER - TY - JOUR A1 - Heim, Birgit A1 - Lisovski, Simeon A1 - Wieczorek, Mareike A1 - Morgenstern, Anne A1 - Juhls, Bennet A1 - Shevtsova, Iuliia A1 - Kruse, Stefan A1 - Boike, Julia A1 - Fedorova, Irina A1 - Herzschuh, Ulrike T1 - Spring snow cover duration and tundra greenness in the Lena Delta, Siberia BT - two decades of MODIS satellite time series (2001-2021) JF - Environmental research letters N2 - The Lena Delta in Siberia is the largest delta in the Arctic and as a snow-dominated ecosystem particularly vulnerable to climate change. Using the two decades of MODerate resolution Imaging Spectroradiometer satellite acquisitions, this study investigates interannual and spatial variability of snow-cover duration and summer vegetation vitality in the Lena Delta. We approximated snow by the application of the normalized difference snow index and vegetation greenness by the normalized difference vegetation index (NDVI). We consolidated the analyses by integrating reanalysis products on air temperature from 2001 to 2021, and air temperature, ground temperature, and the date of snow-melt from time-lapse camera (TLC) observations from the Samoylov observatory located in the central delta. We extracted spring snow-cover duration determined by a latitudinal gradient. The 'regular year' snow-melt is transgressing from mid-May to late May within a time window of 10 days across the delta. We calculated yearly deviations per grid cell for two defined regions, one for the delta, and one focusing on the central delta. We identified an ensemble of early snow-melt years from 2012 to 2014, with snow-melt already starting in early May, and two late snow-melt years in 2004 and 2017, with snow-melt starting in June. In the times of TLC recording, the years of early and late snow-melt were confirmed. In the three summers after early snow-melt, summer vegetation greenness showed neither positive nor negative deviations. Whereas, vegetation greenness was reduced in 2004 after late snow-melt together with the lowest June monthly air temperature of the time series record. Since 2005, vegetation greenness is rising, with maxima in 2018 and 2021. The NDVI rise since 2018 is preceded by up to 4 degrees C warmer than average June air temperature. The ongoing operation of satellite missions allows to monitor a wide range of land surface properties and processes that will provide urgently needed data in times when logistical challenges lead to data gaps in land-based observations in the rapidly changing Arctic. KW - Arctic vegetation KW - tundra KW - snow cover duration KW - NDVI KW - NDSI KW - MODIS KW - Lena Delta Y1 - 2022 U6 - https://doi.org/10.1088/1748-9326/ac8066 SN - 1748-9326 VL - 17 IS - 8 PB - IOP Publ. Ltd. CY - Bristol ER - TY - JOUR A1 - Stuenzi, Simone Maria A1 - Kruse, Stefan A1 - Boike, Julia A1 - Herzschuh, Ulrike A1 - Oehme, Alexander A1 - Pestryakova, Luidmila A. A1 - Westermann, Sebastian A1 - Langer, Moritz T1 - Thermohydrological impact of forest disturbances on ecosystem-protected permafrost JF - Journal of geophysical research : Biogeosciences N2 - Boreal forests cover over half of the global permafrost area and protect underlying permafrost. Boreal forest development, therefore, has an impact on permafrost evolution, especially under a warming climate. Forest disturbances and changing climate conditions cause vegetation shifts and potentially destabilize the carbon stored within the vegetation and permafrost. Disturbed permafrost-forest ecosystems can develop into a dry or swampy bush- or grasslands, shift toward broadleaf- or evergreen needleleaf-dominated forests, or recover to the pre-disturbance state. An increase in the number and intensity of fires, as well as intensified logging activities, could lead to a partial or complete ecosystem and permafrost degradation. We study the impact of forest disturbances (logging, surface, and canopy fires) on the thermal and hydrological permafrost conditions and ecosystem resilience. We use a dynamic multilayer canopy-permafrost model to simulate different scenarios at a study site in eastern Siberia. We implement expected mortality, defoliation, and ground surface changes and analyze the interplay between forest recovery and permafrost. We find that forest loss induces soil drying of up to 44%, leading to lower active layer thicknesses and abrupt or steady decline of a larch forest, depending on disturbance intensity. Only after surface fires, the most common disturbances, inducing low mortality rates, forests can recover and overpass pre-disturbance leaf area index values. We find that the trajectory of larch forests after surface fires is dependent on the precipitation conditions in the years after the disturbance. Dryer years can drastically change the direction of the larch forest development within the studied period. KW - permafrost KW - boreal forest KW - periglacial process KW - Siberia KW - larch forest KW - disturbance Y1 - 2022 U6 - https://doi.org/10.1029/2021JG006630 SN - 2169-8953 SN - 2169-8961 VL - 127 IS - 5 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Andreev, Andrei A1 - Nazarova, Larisa B. A1 - Lenz, Marlene M. A1 - Böhmer, Thomas A1 - Syrykh, Ludmila A1 - Wagner, Bernd A1 - Melles, Martin A1 - Pestryakova, Luidmila A. A1 - Herzschuh, Ulrike T1 - Late Quaternary paleoenvironmental reconstructions from sediments of Lake Emanda (Verkhoyansk Mountains, East Siberia) JF - Journal of quaternary science : JQS N2 - Continuous pollen and chironomid records from Lake Emanda (65 degrees 17'N, 135 degrees 45'E) provide new insights into the Late Quaternary environmental history of the Yana Highlands (Yakutia). Larch forest with shrubs (alders, pines, birches) dominated during the deposition of the lowermost sediments suggesting its Early Weichselian [Marine Isotope Stage (MIS) 5] age. Pollen- and chironomid-based climate reconstructions suggest July temperatures (T-July) slightly lower than modern. Gradually increasing amounts of herb pollen and cold stenotherm chironomid head capsules reflect cooler and drier environments, probably during the termination of MIS 5. T-July dropped to 8 degrees C. Mostly treeless vegetation is reconstructed during MIS 3. Tundra and steppe communities dominated during MIS 2. Shrubs became common after similar to 14.5 ka BP but herb-dominated habitats remained until the onset of the Holocene. Larch forests with shrub alder and dwarf birch dominated after the Holocene onset, ca. 11.7 ka BP. Decreasing amounts of shrub pollen during the Lateglacial are assigned to the Older Dryas and Younger Dryas with T-July similar to 7.5 degrees C. T-July increased up to 13 degrees C. Shrub stone pine was present after similar to 7.5 ka BP. The vegetation has been similar to modern since ca. 5.8 ka BP. Chironomid diversity and concentration in the sediments increased towards the present day, indicating the development of richer hydrobiological communities in response to the Holocene thermal maximum. KW - chironomids KW - environmental reconstructions KW - Late Quaternary KW - pollen Y1 - 2022 U6 - https://doi.org/10.1002/jqs.3419 SN - 0267-8179 SN - 1099-1417 VL - 37 IS - 5 SP - 884 EP - 899 PB - Wiley CY - New York, NY [u.a.] ER - TY - JOUR A1 - Herzschuh, Ulrike A1 - Li, Chenzhi A1 - Boehmer, Thomas A1 - Postl, Alexander K. A1 - Heim, Birgit A1 - Andreev, Andrei A. A1 - Cao, Xianyong A1 - Wieczorek, Mareike A1 - Ni, Jian T1 - LegacyPollen 1.0 BT - a taxonomically harmonized global late Quaternary pollen dataset of 2831 records with standardized chronologies JF - Earth system science data : ESSD N2 - Here we describe the LegacyPollen 1.0, a dataset of 2831 fossil pollen records with metadata, a harmonized taxonomy, and standardized chronologies. A total of 1032 records originate from North America, 1075 from Europe, 488 from Asia, 150 from Latin America, 54 from Africa, and 32 from the Indo-Pacific. The pollen data cover the late Quaternary (mostly the Holocene). The original 10 110 pollen taxa names (including variations in the notations) were harmonized to 1002 terrestrial taxa (including Cyperaceae), with woody taxa and major herbaceous taxa harmonized to genus level and other herbaceous taxa to family level. The dataset is valuable for synthesis studies of, for example, taxa areal changes, vegetation dynamics, human impacts (e.g., deforestation), and climate change at global or continental scales. The harmonized pollen and metadata as well as the harmonization table are available from PANGAEA (https://doi.org/10.1594/PANGAEA.929773; Herzschuh et al., 2021). R code for the harmonization is provided at Zenodo (https://doi.org/10.5281/zenodo.5910972; Herzschuh et al., 2022) so that datasets at a customized harmonization level can be easily established. Y1 - 2022 U6 - https://doi.org/10.5194/essd-14-3213-2022 SN - 1866-3508 SN - 1866-3516 VL - 14 IS - 7 SP - 3213 EP - 3227 PB - Copernicus CY - Göttingen ER - TY - JOUR A1 - Glückler, Ramesh A1 - Geng, Rongwei A1 - Grimm, Lennart A1 - Baisheva, Izabella A1 - Herzschuh, Ulrike A1 - Stoof-Leichsenring, Kathleen R. A1 - Kruse, Stefan A1 - Andreev, Andrej Aleksandrovic A1 - Pestryakova, Luidmila A1 - Dietze, Elisabeth T1 - Holocene wildfire and vegetation dynamics in Central Yakutia, Siberia, reconstructed from lake-sediment proxies JF - Frontiers in Ecology and Evolution N2 - Wildfires play an essential role in the ecology of boreal forests. In eastern Siberia, fire activity has been increasing in recent years, challenging the livelihoods of local communities. Intensifying fire regimes also increase disturbance pressure on the boreal forests, which currently protect the permafrost beneath from accelerated degradation. However, long-term relationships between changes in fire regime and forest structure remain largely unknown. We assess past fire-vegetation feedbacks using sedimentary proxy records from Lake Satagay, Central Yakutia, Siberia, covering the past c. 10,800 years. Results from macroscopic and microscopic charcoal analyses indicate high amounts of burnt biomass during the Early Holocene, and that the present-day, low-severity surface fire regime has been in place since c. 4,500 years before present. A pollen-based quantitative reconstruction of vegetation cover and a terrestrial plant record based on sedimentary ancient DNA metabarcoding suggest a pronounced shift in forest structure toward the Late Holocene. Whereas the Early Holocene was characterized by postglacial open larch-birch woodlands, forest structure changed toward the modern, mixed larch-dominated closed-canopy forest during the Mid-Holocene. We propose a potential relationship between open woodlands and high amounts of burnt biomass, as well as a mediating effect of dense larch forest on the climate-driven intensification of fire regimes. Considering the anticipated increase in forest disturbances (droughts, insect invasions, and wildfires), higher tree mortality may force the modern state of the forest to shift toward an open woodland state comparable to the Early Holocene. Such a shift in forest structure may result in a positive feedback on currently intensifying wildfires. These new long-term data improve our understanding of millennial-scale fire regime changes and their relationships to changes of vegetation in Central Yakutia, where the local population is already being confronted with intensifying wildfire seasons. KW - fire KW - larch KW - boreal KW - forest KW - Russia KW - charcoal KW - pollen KW - ancient DNA Y1 - 2022 U6 - https://doi.org/10.3389/fevo.2022.962906 SN - 2296-701X VL - 10 PB - Frontiers Media CY - Lausanne ER - TY - THES A1 - Nwosu, Ebuka Canisius T1 - Sedimentary DNA-based reconstruction of cyanobacterial communities from Lake Tiefer See, NE Germany, for the last 11,000 years N2 - Climate change and human-driven eutrophication promote the spread of harmful cyanobacteria blooms in lakes worldwide, which affects water quality and impairs the aquatic food chain. In recent times, sedimentary ancient DNA-based (sedaDNA) studies were used to probe how centuries of climate and environmental changes have affected cyanobacterial assemblages in temperate lakes. However, there is a lack of information on the consistency between sediment-deposited cyanobacteria communities versus those of the water column, and on the individual role of natural climatic changes versus human pressure on cyanobacteria community dynamics over multi-millennia time scales. Therefore, this thesis uses sedimentary ancient DNA of Lake Tiefer See in northeastern Germany to trace the deposition of cyanobacteria along the water column into the sediment, and to reconstruct cyanobacteria communities spanning the last 11,000 years using a set of molecular techniques including quantitative PCR, biomarkers, metabarcoding, and metagenome sequence analyses. The results of this thesis proved that cyanobacterial composition and species richness did not significantly differ among different water depths, sediment traps, and surface sediments. This means that the cyanobacterial community composition from the sediments reflects the water column communities. However, there is a skewed sediment deposition of different cyanobacteria groups because of DNA alteration and/or deterioration during transport along the water column to the sediment. Specifically, single filament taxa, such as Planktothrix, are poorly represented in sediments despite being abundant in the water column as shown by an additional study of the thesis on cyanobacteria seasonality. In contrast, aggregate-forming taxa, like Aphanizomenon, are relatively overrepresented in sediment although they are not abundant in the water column. These different deposition patterns of cyanobacteria taxa should be considered in future DNA-based paleolimnological investigations. The thesis also reveals a substantial increase in total cyanobacteria abundance during the Bronze Age which is not apparent in prior phases of the early to middle Holocene and is suggested to be caused by human farming, deforestation, and excessive nutrient addition to the lake. Not only cyanobacterial abundance was influenced by human activity but also cyanobacteria community composition differed significantly between phases of no, moderate, and intense human impact. The data presented in this thesis are the first on sedimentary cyanobacteria DNA since the early Holocene in a temperate lake. The results bring together archaeological, historical climatic, and limnological data with deep DNA-sequencing and paleoecology to reveal a legacy impact of human pressure on lake cyanobacteria populations dating back to approximately 4000 years. N2 - Der Klimawandel und die vom Menschen verursachte Eutrophierung fördern die Ausbreitung schädlicher Cyanobakterienblüten in Seen weltweit, was die Wasserqualität und die aquatische Nahrungskette beeinträchtigt. In jüngster Zeit wurden sedimentäre DNA (sedaDNA)-Studien verwendet, um zu untersuchen, wie sich klimatische- und menschliche Umweltveränderungen von Jahrhunderten auf Cyanobakteriengemeinschaften in Seen ausgewirkt haben. Jedoch fehlen bislang Informationen, wie repräsentativ die im Sediment abgelagerten Cyanobakterien und deren DNA für die Gemeinschaften der Wassersäule sind, sowie zur individuellen Rolle natürlicher klimatischer Veränderungen gegenüber dem menschlichen Einflusses auf die Dynamik von Cyanobakterien über Zeitskalen von Jahrtausenden. Daher wurde in dieser Arbeit sedimentäre alte DNA (sedaDNA) des Tiefen Sees in Nordostdeutschland verwendet, um die Ablagerung von Cyanobakterien entlang der Wassersäule in das Sediment zu verfolgen. Ein Hauptteil dieser Arbeit bildete jedoch die Rekonstruktion von Cyanobakteriengemeinschaften der letzten 11.000 Jahre, unter Verwendung einer Reihe von molekularen Techniken, darunter quantitative PCR, Biomarker, Metabarcoding und Metagenom-Sequenzanalysen. Die Ergebnisse dieser Arbeit beweisen, dass die Cyanobakterien-Zusammensetzung und der Artenreichtum zwischen verschiedenen Wassertiefen, Sedimentfallen und Oberflächensedimenten nicht signifikant unterschiedlich ist. Das bedeutet, dass die Zusammensetzung der Cyanobakteriengemeinschaften aus den Sedimenten die Gemeinschaften der Wassersäule widerspiegelt. Aufgrund von DNA-Veränderungen und/oder -Abbau während des Transports entlang der Wassersäule zum Sediment kommt es jedoch zu einer verzerrten Sedimentablagerung verschiedener Cyanobakterien Arten. Insbesondere sind filamentose Arten wie Planktothrix in Sedimenten schlecht vertreten, obwohl sie, laut Ergebnissen einer zusätzlichen Studie dieser Arbeit zur Saisonalität von Cyanobakterien, in der Wassersäule reichlich vorhanden sind. Im Gegensatz dazu sind aggregatbildende Arten wie Aphanizomenon in Sedimenten relativ gesehen überrepräsentiert, obwohl sie in der Wassersäule relativ selten vorkommen. Diese unterschiedlichen Muster zur Sedimentablagerung verschiedener Cyanobakterien Arten sollten in zukünftigen DNA-basierten paläolimnologischen Untersuchungen berücksichtigt werden. Die Dissertation zeigt auch eine deutliche Zunahme der Cyanobakterien Abundanz während der Bronzezeit, die in vorhergehenden Phasen des frühen und mittleren Holozäns nicht erkennbar war. Dies ist wahrscheinlich durch menschliche Landwirtschaft, Entwaldung und übermäßige Nährstoffzufuhr in den See verursacht worden. Nicht nur die Abundanz von Cyanobakterien wurde durch menschliche Aktivitäten beeinflusst, sondern auch die Zusammensetzung von deren Gemeinschaften, die sich signifikant zwischen Phasen unterscheidet, die durch keinen, moderaten, und intensiven menschlichen Einfluss gekennzeichnet sind. Die in dieser Dissertation präsentierten Daten sind die ersten zu sedimentärer Cyanobakterien-DNA seit dem frühen Holozän eines Sees der gemäßigte Klimazone. Die Ergebnisse vereinen archäologische, historische, klimatische und limnologische Daten mit hochaufgelöster und Hochdurchsatz-DNA-Sequenzierung und belegen, dass der menschliche Einfluss auf Cyanobakteriengemeinschaften in Seen etwa 4000 Jahre zurückreicht. KW - anthropogenic impact KW - paleoecology KW - high throughput sequencing KW - cyanobacteria biomarker KW - microbial diversity KW - microbial ecology KW - 7-methylheptadecane KW - 7-Methylheptadecan KW - anthropogene Einwirkung KW - Cyanobakterien-Biomarker KW - hoher Durchsatz Sequenzierung KW - mikrobielle Vielfalt KW - mikrobielle Ökologie KW - Paläoökologie Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-563590 ER - TY - THES A1 - Schulte, Luise T1 - Dynamics of Larix (Mill.) species in Siberia during the last 50,000 years inferred from sedimentary ancient DNA T1 - Die Dynamik sibirischer Lärchenarten (Larix Mill.) während der der letzten 50.000 Jahre, untersucht mittels sedimentärer alter DNA N2 - The deciduous needle tree larch (Larix Mill.) covers more than 80% of the Asian boreal forests. Only a few Larix species constitute the vast forests and these species differ markedly in their ecological traits, most importantly in their ability to grow on and stabilize underlying permafrost. The pronounced dominance of the summergreen larches makes the Asian boreal forests unique, as the rest of the northern hemisphere boreal forests is almost exclusively dominated by evergreen needle-leaf forests. Global warming is impacting the whole world but is especially pronounced in the arctic and boreal regions. Although adapted to extreme climatic conditions, larch forests are sensitive to varying climatic conditions. By their sheer size, changes in Asian larch forests as range shifts or changes in species composition and the resulting vegetation-climate feedbacks are of global relevance. It is however still uncertain if larch forests will persist under the ongoing warming climate or if they will be replaced by evergreen forests. It is therefore of great importance to understand how these ecosystems will react to future climate warmings and if they will maintain their dominance. One step in the better understanding of larch dynamics is to study how the vast dominant forests developed and why they only established in northern Asia. A second step is to study how the species reacted to past changes in the climate. The first objective of this thesis was to review and identify factors promoting Asian larch dominance. I achieved this by synthesizing and comparing reported larch occurrences and influencing components on the northern hemisphere continents in the present and in the past. The second objective was to find a possibility to directly study past Larix populations in Siberia and specifically their genetic variation, enabling the study of geographic movements. For this, I established chloroplast enrichment by hybridization capture from sedimentary ancient DNA (sedaDNA) isolated from lake sediment records. The third objective was to use the established method to track past larch populations, their glacial refugia during the Last Glacial Maximum (LGM) around 21,000 years before present (ka BP), and their post-glacial migration patterns. To study larch promoting factors, I compared the present state of larch species ranges, areas of dominance, their bioclimatic niches, and the distribution on different extents and thaw depths of permafrost. The species comparison showed that the bioclimatic niches greatly overlap between the American and Asian species and that it is only in the extremely continental climates in which only the Asian larch species can persist. I revealed that the area of dominance is strongly connected to permafrost extent but less linked to permafrost seasonal thaw depths. Comparisons of the paleorecord of larch between the continents suggest differences in the recolonization history. Outside of northern Asia and Alaska, glacial refugial populations of larch were confined to the southern regions and thus recolonization could only occur as migration from south to north. Alaskan larch populations could not establish wide-range dominant forest which could be related to their own genetically depletion as separated refugial population. In Asia, it is still unclear whether or not the northern refugial populations contributed and enhanced the postglacial colonization or whether they were replaced by populations invading from the south in the course of climate warming. Asian larch dominance is thus promoted partly by adaptions to extremely continental climates and by adaptations to grow on continuous permafrost but could be also connected to differences in glacial survival and recolonization history of Larix species. Except for extremely rare macrofossil findings of fossilized cones, traditional methods to study past vegetation are not able to distinguish between larch species or populations. Within the scope of this thesis, I therefore established a method to retrieve genetic information of past larch populations to distinguish between species. Using the Larix chloroplast genome as target, I successfully applied the method of DNA target enrichment by hybridization capture on sedaDNA samples from lake records and showed that it is able to distinguish between larch species. I then used the method on samples from lake records from across Siberia dating back up to 50 ka BP. The results allowed me to address the question of glacial survival and post-glacial recolonization mode in Siberian larch species. The analyzed pattern showed that LGM refugia were almost exclusively constituted by L. gmelinii, even in sites of current L. sibirica distribution. For included study sites, L. sibirica migrated into its extant northern distribution area only in the Holocene. Consequently, the post-glacial recolonization of L. sibirica was not enhanced by northern glacial refugia. In case of sites in extant distribution area of L. gmelinii, the absence of a genetic turn-over point to a continuous population rather than an invasion of southern refugia. The results suggest that climate has a strong influence on the distribution of Larix species and that species may also respond differently to future climate warming. Because species differ in their ecological characteristics, species distribution is also relevant with respect to further feedbacks between vegetation and climate. With this thesis, I give an overview of present and past larch occurrences and evaluate which factors promote their dominance. Furthermore, I provide the tools to study past Larix species and give first important insights into the glacial history of Larix populations. N2 - Der sommergrüne Nadelbaum Lärche (Larix Mill.) bedeckt mehr als 80 % der Fläche der borealen Wälder Asiens. Nur wenige Lärchenarten bilden ausgedehnte Wälder und diese Arten unterscheiden sich deutlich in ihren ökologischen Eigenschaften, vor allem in ihrer Fähigkeit, auf Permafrost zu wachsen und diesen zu stabilisieren. Die ausgeprägte Dominanz der sommergrünen Lärchen macht die asiatischen borealen Wälder einzigartig, da der Rest der borealen Wälder der Nordhalbkugel fast ausschließlich von immergrünen Nadelwäldern dominiert wird. Die Klimaerwärmung wirkt sich auf die ganze Welt aus, ist aber in den arktischen und borealen Regionen besonders ausgeprägt. Obwohl die Lärchenwälder an extreme klimatische Bedingungen angepasst sind, reagieren sie empfindlich auf klimatische Schwankungen. Aufgrund ihrer schieren Größe sind Veränderungen in asiatischen Lärchenwäldern, wie z. B. Verschiebungen des Verbreitungsgebiets oder Veränderungen in der Artenzusammensetzung und die daraus resultierenden Rückkopplungen zwischen Vegetation und Klima, von globaler Bedeutung. Es ist jedoch noch ungewiss, ob die Lärchenwälder unter der fortschreitenden Klimaerwärmung bestehen bleiben oder durch immergrüne Wälder ersetzt werden. Es ist daher von großer Bedeutung zu verstehen, wie diese Ökosysteme auf die künftige Klimaerwärmung reagieren werden und ob sie ihre Dominanz behalten werden. Ein Schritt zum besseren Verständnis der Lärchendynamik besteht darin, zu untersuchen, wie die riesigen dominanten Wälder von heute entstanden sind und warum sie sich nur in Nordasien etabliert haben. In einem zweiten Schritt soll untersucht werden, wie die Art auf vergangene Klimaveränderungen reagiert hat. Das erste Ziel dieser Arbeit bestand darin, die Faktoren zu ermitteln, die die Dominanz der asiatischen Lärche begünstigen. Dies erreichte ich, indem ich die dokumentierten Lärchenvorkommen und die sie beeinflussenden Komponenten auf den Kontinenten der nördlichen Hemisphäre in der Gegenwart und in der Vergangenheit gesammelt und verglichen habe. Das zweite Ziel bestand darin, eine Möglichkeit zu finden, frühere Lärchenpopulationen in Sibirien und insbesondere ihre genetische Variation direkt zu studieren, um geografische Bewegungen untersuchen zu können. Dafür etablierte ich die Methode der Anreicherung von Chloroplasten durch Hybridisierung von alter sedimentärer DNA (sedaDNA) isoliert aus Seesedimenten. Das dritte Ziel bestand darin, die etablierte Methode zu nutzen, um vergangene Lärchenpopulationen, ihre eiszeitlichen Refugien während des letzten glazialen Maximums (LGM) um ca. 21.000 Jahre vor der Gegenwart (ka BP) und ihre nacheiszeitlichen Migrationsmuster zu verfolgen. Um die Faktoren zu untersuchen, die die Ausbreitung der Lärche begünstigen, verglich ich den gegenwärtigen Stand der Verbreitungsgebiete der Lärchenarten, die Gebiete, in denen sie vorherrschen, ihre bioklimatischen Nischen und die Verteilung auf verschiedene Ausdehnungen und Auftautiefen des Permafrosts. Der Artenvergleich zeigte, dass sich die bioklimatischen Nischen der amerikanischen und asiatischen Arten stark überschneiden und dass nur in den extrem kontinentalen Klimazonen ausschließlich die asiatischen Lärchenarten überleben können. Es zeigte sich, dass das Verbreitungsgebiet stark mit der Permafrostausdehnung zusammenhängt, aber weniger mit der saisonalen Auftautiefe des Permafrosts. Der Vergleich vergangener Lärchenvorkommen zwischen den Kontinenten deutet auf Unterschiede in der Rekolonisationsgeschichte hin. Außerhalb Nordasiens und Alaskas waren die eiszeitlichen Lärchenpopulationen auf die südlichen Regionen beschränkt, so dass die Wiederbesiedlung nur als Wanderung von Süden nach Norden erfolgen konnte. Die Lärchenpopulationen in Alaska konnten keinen weiträumig dominanten Wald etablieren, was mit ihrer eigenen genetischen Verarmung als abgeschiedene Refugialpopulation zusammenhängen könnte. In Asien ist noch unklar, ob die nördlichen Refugialpopulationen zur nacheiszeitlichen Besiedlung beigetragen und diese verstärkt haben oder ob sie im Zuge der Klimaerwärmung durch von Süden eindringende Populationen ersetzt wurden. Die Dominanz der asiatischen Lärche wird also zum Teil durch Anpassungen an das extrem kontinentale Klima und durch Anpassungen an das Wachstum auf kontinuierlichem Permafrost begünstigt, könnte aber auch mit Unterschieden in der glazialen Überlebens- und Rekolonisationsgeschichte der Larix-Arten zusammenhängen. Abgesehen von den äußerst seltenen Makrofossilienfunden versteinerter Zapfen sind die herkömmlichen Methoden zur Untersuchung der vergangenen Vegetation nicht in der Lage, zwischen Lärchenarten oder -populationen zu unterscheiden. Im Rahmen dieser Arbeit habe ich daher eine Methode zur Gewinnung genetischer Informationen früherer Lärchenpopulationen entwickelt, um zwischen den Arten zu unterscheiden. Unter Verwendung des Larix-Chloroplastengenoms habe ich die Methode der DNA-Anreicherung durch Hybridisierung erfolgreich auf sedaDNA-Proben aus See-sedimentbohrkernen angewandt und gezeigt, dass die Methode erlaubt zwischen Lärchenarten zu unterscheiden. Anschließend wendete ich die Methode auf Proben aus Seen in ganz Sibirien an, die bis zu 50 ka BP zurückreichen. Anhand der Ergebnisse konnte ich zur Beantwortung der Frage beitragen, welche sibirische Lärchenarten während des LGM überlebten und wie die postglaziale Wiederbesiedlung stattfand. Das analysierte Muster zeigte, dass die LGM-Refugien fast ausschließlich von L. gmelinii gebildet wurden, selbst an Orten, an denen heute L. sibirica verbreitet ist. In den untersuchten Gebieten ist L. sibirica erst im Holozän in ihr heutiges nördliches Verbreitungsgebiet eingewandert. Folglich wurde die nacheiszeitliche Wiederbesiedlung von L. sibirica nicht durch nördliche eiszeitliche Refugien gefördert. Im Falle der Standorte im heutigen Verbreitungsgebiet von L. gmelinii deutet das Fehlen eines Wechsels genetischer Variation eher auf eine kontinuierliche Population als auf eine Invasion aus südlichen Refugien hin. Die Ergebnisse deuten darauf hin, dass das Klima einen starken Einfluss auf die Verbreitung von Larix-Arten hat und die Arten auch auf zukünftige Klimaerwärmung unterschiedlich reagieren könnten. Da die Arten sich in ihren ökologischen Eigenschaften unterscheiden, ist eine Änderung in der Verbreitung der Arten auch im Hinblick auf weitere Rückkopplungen zwischen Vegetation und Klima relevant. In dieser Arbeit gebe ich einen Überblick über die heutigen und früheren Lärchenvorkommen und bewerte, welche Faktoren ihre Dominanz begünstigen. Darüber hinaus stelle ich eine Methode zur Untersuchung vergangener Lärchenarten bereit und gebe erste wichtige Einblicke in ihre glaziale Geschichte. KW - ancient DNA KW - ancient sedimentary DNA KW - Larix KW - larch KW - glacial refugia KW - postglacial recolonization KW - phylogeography KW - hybridization capture KW - target enrichment KW - shotgun sequencing KW - chloroplast KW - Siberia KW - Larix KW - Sibirien KW - alte DNA KW - alte sedimentäre DNA KW - Chloroplast KW - glaziale Refugien KW - Lärche KW - Phylogeographie KW - nacheiszeitliche Wiederbesiedlung KW - Shotgun Sequenzierung Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-558782 ER - TY - GEN A1 - Li, Xiaoping A1 - Apriyanto, Ardha A1 - Flores Castellanos, Junio A1 - Compart, Julia A1 - Muntaha, Sidratul Nur A1 - Fettke, Jörg T1 - Dpe2/phs1 revealed unique starch metabolism with three distinct phases characterized by different starch granule numbers per chloroplast, allowing insights into the control mechanism of granule number regulation by gene co-regulation and metabolic profiling T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - An Arabidopsis mutant lacking both the cytosolic Disproportionating enzyme 2 (DPE2) and the plastidial glucan Phosphorylase 1 (PHS1) revealed a unique starch metabolism. Dpe2/phs1 has been reported to have only one starch granule number per chloroplast when grown under diurnal rhythm. For this study, we analyzed dpe2/phs1 in details following the mutant development, and found that it showed three distinct periods of granule numbers per chloroplast, while there was no obvious change observed in Col-0. In young plants, the starch granule number was similar to that in Col-0 at first, and then decreased significantly, down to one or no granule per chloroplast, followed by an increase in the granule number. Thus, in dpe2/phs1, control over the starch granule number is impaired, but it is not defective in starch granule initiation. The data also indicate that the granule number is not fixed, and is regulated throughout plant growth. Furthermore, the chloroplasts revealed alterations during these three periods, with a partially strong aberrant morphology in the middle phase. Interestingly, the unique metabolism was perpetuated when starch degradation was further impaired through an additional lack of Isoamylase 3 (ISA3) or Starch excess 4 (SEX4). Transcriptomic studies and metabolic profiling revealed the co-regulation of starch metabolism-related genes and a clear metabolic separation between the periods. Most senescence-induced genes were found to be up-regulated more than twice in the starch-less mature leaves. Thus, dpe2/phs1 is a unique plant material source, with which we may study starch granule number regulation to obtain a more detailed understanding. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1286 KW - LCSM KW - RNA-Seq KW - metabolic-profiling KW - starch granule number regulation KW - starch initiation KW - starch degradation Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-571250 SN - 1866-8372 IS - 1286 ER - TY - JOUR A1 - Muntaha, Sidratul Nur A1 - Li, Xiaoping A1 - Compart, Julia A1 - Apriyanto, Ardha A1 - Fettke, Jörg T1 - Carbon pathways during transitory starch degradation in Arabidopsis differentially affect the starch granule number and morphology in the dpe2/phs1 mutant background JF - Plant physiology and biochemistry : an official journal of the Federation of European Societies of Plant Physiology N2 - The Arabidopsis knockout mutant lacking both the cytosolic disproportionating enzyme 2 (DPE2) and the plastidial phosphorylase (PHS1) had a dwarf-growth phenotype, a reduced and uneven distribution of starch within the plant rosettes, and a lower starch granule number per chloroplast under standard growth conditions. In contrast, a triple mutant impaired in starch degradation by its additional lack of the glucan, water dikinase (GWD) showed improved plant growth, a starch-excess phenotype, and a homogeneous starch distribution. Furthermore, the number of starch granules per chloroplast was increased and was similar to the wild type. We concluded that ongoing starch degradation is mainly responsible for the observed phenotype of dpe2/phs1. Next, we generated two further triple mutants lacking either the phosphoglucan, water dikinase (PWD), or the disproportionating enzyme 1 (DPE1) in the background of the double mutant. Analysis of the starch metabolism revealed that even minor ongoing starch degradation observed in dpe2/phs1/pwd maintained the double mutant phenotype. In contrast, an additional blockage in the glucose pathway of starch breakdown, as in dpe2/phs1/ dpe1, resulted in a nearly starch-free phenotype and massive chloroplast degradation. The characterized mutants were discussed in the context of starch granule formation. KW - Starch granules KW - Starch metabolism KW - Starch granule number per KW - chloroplast KW - Starch morphology KW - LCSM KW - Arabidopsis thaliana Y1 - 2022 U6 - https://doi.org/10.1016/j.plaphy.2022.03.033 SN - 0981-9428 SN - 1873-2690 VL - 180 SP - 35 EP - 41 PB - Elsevier CY - Paris ER -