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2. Ice cave reveals environmental forcing of long-term Pyrenean tree line dynamics

Author

Leunda, M., González-Sampériz, P., Gil-Romera, G., Bartolomé, M., Belmonte-Ribas, Á., Gómez-García, D., Kaltenrieder, P., Rubiales, J.M., Schwörer, C., Tinner, W., Morales-Molino, C., and Sancho, C.

Subjects
580 Plants (Botany)
Abstract

1. Tree lines are supposed to react sensitively to the current global change. However, the lack of a long-term (millennial) perspective on tree line shifts in the Pyrenees prevents understanding the underlying ecosystem dynamics and processes. 2. We combine multiproxy palaeoecological analyses (fossil pollen, spores, conifer stomata, plant macrofossils, and ordination) from an outstanding ice cave deposit located in the alpine belt c. 200 m above current tree line (Armeña-A294 Ice Cave, 2, 238 m a.s.l.), to assess for the first time in the Pyrenees, tree line dynamics, and ecosystem resilience to climate changes 5, 700–2, 200 (cal.) years ago. 3. The tree line ecotone was located at the cave altitude from 5, 700 to 4, 650 cal year bp, when vegetation consisted of open Pinus uncinata Ramond ex DC and Betula spp. Woodlands and timberline were very close to the site. Subsequently, tree line slightly raised and timberline reached the ice cave altitude, exceeding its today''s uppermost limit by c. 300–400 m during more than four centuries (4, 650 and 4, 200 cal year bp) at the end of the Holocene Thermal Maximum. After 4, 200 cal year bp, alpine tundra communities dominated by Dryas octopetala L. expanded while tree line descended, most likely as a consequence of the Neoglacial cooling. Prehistoric livestock raising likely reinforced climate cooling impacts at 3, 450–3, 250 cal year bp. Finally, a tree line ecotone developed around the cave that was on its turn replaced by alpine communities during the past 2, 000 years. 4. Synthesis. The long-term Pyrenean tree line ecotone sensitivity suggests that rising temperatures will trigger future P. uncinata and Betula expansions to higher elevations, replacing arctic–alpine plant species. Climate change is causing the rapid melting of the cave ice; rescue investigations would be urgently needed to exploit its unique ecological information.

Published
2019
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7. Advanced millimeter-wave ICs using metamorphic HEMT technology

Author

Schlechtweg, M., Tessmann, A., Leuther, A., Schwörer, C., Massler, H., Mikulla, M., Walther, M., Lösch, R., and Publica

Subjects
millimeter-wave IC, Millimeterwellen-IC, low-noise amplifier (LNA), Frequenz-Verdoppler, Millimeterwelle, IC, metamorphic HEMT, frequency doubler, millimeter wave, metamorpher HEMT, rauscharmer Verstärker
Abstract

Based on metamorphic InAlAs/InGaAs HEMTs on 4" GaAs substrates, advanced integrated circuits for millimeter-wave applications were realized. An extrinsic transit frequency of 410 GHz for 50 nm gate length devices is achieved. The IC process features high yield on both transistor and circuit levels. Two-stage low-noise amplifiers demonstrate a small signal gain of 20 dB and a noise figure of 2.4 dB at 94 GHz. An amplifier MMIC developed for G-band operation exhibits a gain of 21 dB at 220 GHz. These results are very competitive to those achieved using state-of-the-art InP-based HEMT technologies

Published
2006

8. Low-Noise W-Band Amplifiers for Radiometer Applications Using a 70 nm Metamorphic HEMT Technology

Author

Schwörer, C., Tessmann, A., Leuther, A., Massler, H., Reinert, W., and Schlechtweg, M.

Subjects
ING-INF/01 Elettronica
Abstract

W-band low-noise amplifier (LNA)MMICs have been developed using a 70 nm metamorphic HEMT (MHEMT)technology.The short gate length in combination with the high indium content of 80%in the channel lead to a maximum transconductance of 1500 ms/mm for a 2x30 µm device.This results in a transit frequency ft of 290 GHz.Two-and three-stage amplifiers were realized in coplanar waveguide technology (CPW)and achieved a small signal gain of 13 dB and 19 dB,respectively.The noise figure at room temperature of both LNAs was below 3 dB. The on-wafer measured output power at the P-1 dB compression point was 5 dBm.A modification of the three stage LNA showed a noise figure of 2.5 dB,with a small signal gain of 15 dB at 94 GHz.

Published
2003
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9. Coplanar High Performance MMICs in MHEMT and PHEMT Technology for Applications up to 100 GHz

Author

Schwörer, C., Tessmann, A., Leich, M., Leuther, A., Kudszus, S., Bessemoulin, A., and Schlechtweg, M.

Subjects
Hardware_GENERAL, Hardware_INTEGRATEDCIRCUITS, ING-INF/01 Elettronica
Abstract

In this paper we present coplanar MMICs based on both, metamorphic (MHEMT) and pseudomorphic (PHEMT) high electron mobility transistor technologies. Starting with a modulator-driver MMIC for optical transmission systems, we describe state of the art MMICs like a 94 GHz low-noise amplifier, a 35 GHz and a 60 GHz medium power amplifier and finally we demonstrate the feasibility of a monolithically integrated 94 GHz single-chip FMCW radar sensor.

Published
2002

12. A 150 to 220 GHz balanced doubler MMIC using a 50 nm metamorphic HEMT technology

Author

Schwörer, C., Campos Roca, Y., Leuther, A., Tessmann, A., Seelmann-Eggebert, M., Schwörer, C., Campos Roca, Y., Leuther, A., Tessmann, A., and Seelmann-Eggebert, M.

Abstract

A coplanar millimeter wave doubler MMIC coveringtheentire G-band was developed. Based on a 50nm metamorphic HEMT technology, thecircuitdemonstrates an output power of morethan–12dBmbetween 150- and 220 GHz for an input powerof0dBm.Byincreasing the input power to 12 dBm an output power exceeding 0 dBm was obtained in the frequency range between 180-and 220 GHz. Good fundamental rejection was ensured by using a Marchand Balun for balancing the design.The doubler was also used to provide the LO signal for a 170 to 200 GHz resistive FET mixer, yielding a conversion loss of 10 dB.

Published
2005

14. MicroRNA expression signature in human abdominal aortic aneurysms

Author

Pahl Matthew C, Derr Kimberly, Gäbel Gabor, Hinterseher Irene, Elmore James R, Schworer Charles M, Peeler Thomas C, Franklin David P, Gray John L, Carey David J, Tromp Gerard, and Kuivaniemi Helena

Subjects
Apoptosis, Microarray analysis, Vascular biology, miRNA-mRNA analysis, Network analysis, Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Abdominal aortic aneurysm (AAA) is a dilatation of the aorta affecting most frequently elderly men. Histologically AAAs are characterized by inflammation, vascular smooth muscle cell apoptosis, and extracellular matrix degradation. The mechanisms of AAA formation, progression, and rupture are currently poorly understood. A previous mRNA expression study revealed a large number of differentially expressed genes between AAA and non-aneurysmal control aortas. MicroRNAs (miRNAs), small non-coding RNAs that are post-transcriptional regulators of gene expression, could provide a mechanism for the differential expression of genes in AAA. Methods To determine differences in miRNA levels between AAA (n = 5) and control (n = 5) infrarenal aortic tissues, a microarray study was carried out. Results were adjusted using Benjamini-Hochberg correction (adjusted p Results A microarray study identified eight miRNAs with significantly different expression levels between AAA and controls (adjusted p Conclusions Our genome-wide approach revealed several differentially expressed miRNAs in human AAA tissue suggesting that miRNAs play a role in AAA pathogenesis.

Published
2012
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15. Analysis of positional candidate genes in the AAA1 susceptibility locus for abdominal aortic aneurysms on chromosome 19

Author

Ferrell Robert E, Sakalihasan Natzi, Igo Robert P, Lu Qing, Li Ming, Lenk Guy M, Tromp Gerard, Kyo Yoshiki, Lillvis John H, Schworer Charles M, Gatalica Zoran, Land Susan, and Kuivaniemi Helena

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Abdominal aortic aneurysm (AAA) is a complex disorder with multiple genetic risk factors. Using affected relative pair linkage analysis, we previously identified an AAA susceptibility locus on chromosome 19q13. This locus has been designated as the AAA1 susceptibility locus in the Online Mendelian Inheritance in Man (OMIM) database. Methods Nine candidate genes were selected from the AAA1 locus based on their function, as well as mRNA expression levels in the aorta. A sample of 394 cases and 419 controls was genotyped for 41 SNPs located in or around the selected nine candidate genes using the Illumina GoldenGate platform. Single marker and haplotype analyses were performed. Three genes (CEBPG, PEPD and CD22) were selected for DNA sequencing based on the association study results, and exonic regions were analyzed. Immunohistochemical staining of aortic tissue sections from AAA and control individuals was carried out for the CD22 and PEPD proteins with specific antibodies. Results Several SNPs were nominally associated with AAA (p < 0.05). The SNPs with most significant p-values were located near the CCAAT enhancer binding protein (CEBPG), peptidase D (PEPD), and CD22. Haplotype analysis found a nominally associated 5-SNP haplotype in the CEBPG/PEPD locus, as well as a nominally associated 2-SNP haplotype in the CD22 locus. DNA sequencing of the coding regions revealed no variation in CEBPG. Seven sequence variants were identified in PEPD, including three not present in the NCBI SNP (dbSNP) database. Sequencing of all 14 exons of CD22 identified 20 sequence variants, five of which were in the coding region and six were in the 3'-untranslated region. Five variants were not present in dbSNP. Immunohistochemical staining for CD22 revealed protein expression in lymphocytes present in the aneurysmal aortic wall only and no detectable expression in control aorta. PEPD protein was expressed in fibroblasts and myofibroblasts in the media-adventitia border in both aneurysmal and non-aneurysmal tissue samples. Conclusions Association testing of the functional positional candidate genes on the AAA1 locus on chromosome 19q13 demonstrated nominal association in three genes. PEPD and CD22 were considered the most promising candidate genes for altering AAA risk, based on gene function, association evidence, gene expression, and protein expression.

Published
2011
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16. Looking at the modern landscape of submediterranean Greece through a palaeoecological lens.

Author

Morales-Molino C, van Vugt L, van Leeuwen JFN, Gobet E, Schwörer C, Ganz K, Giagkoulis T, Brugger SO, Bogaard A, Hafner A, Kotsakis K, Lotter AF, and Tinner W

Subjects
Greece, Forests, Environmental Monitoring, Conservation of Natural Resources, Climate Change, Ecosystem, Agriculture
Abstract

The importance of understanding the long-lasting legacy of past land use on modern ecosystems has long been acknowledged. However, the magnitude and persistence of such legacies have been assessed only occasionally. Northern Greece has been a gateway of farming into mainland Europe during the Neolithic, thus providing a perfect setting to assess the potential impact of land-use history on present-day ecosystems. Additionally, the marked Holocene climatic variability of the southern Balkans makes it possible to investigate climate-vegetation-land use interactions over long timescales. Here, we have studied a sediment record from Limni Vegoritis (Northern Greece) spanning the past ∼9000 years using palaeoecological proxies (pollen, spores, stomata, microscopic charcoal). We aimed to reconstruct long-term vegetation dynamics in submediterranean Greece, to assess the environmental factors controlling them and to establish the legacies of the long history of land use in the modern landscape. We found that the Early Holocene afforestation, mainly oak woodlands, was delayed because of suboptimal moisture conditions. Later, colder and drier conditions during the rapid climate change centred around the '8.2 ka event' triggered woodland opening and the spread of wooded (Juniperus) steppe vegetation. First indicators of farming activities are recorded during this period, but their abundances are too low to explain the concurrent large deforestation episode. Later, pinewoods (probably dominated by Pinus nigra) with deciduous Quercus spread and dominated the landscape for several millennia. These forests experienced repeated multi-centennial setback-recovery episodes associated with land-use intensification, but pines eventually declined ∼2500-2000 years ago during Classical times under heavy land use comprising intense pastoralism. This was the starting point for the present-day landscape, where the main 'foundation' taxon of the ancient forests (Pinus cf. nigra) is missing, therefore attesting to the strong imprint that historical land use has left on the modern landscape., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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17. High resolution ancient sedimentary DNA shows that alpine plant diversity is associated with human land use and climate change.

Author

Garcés-Pastor S, Coissac E, Lavergne S, Schwörer C, Theurillat JP, Heintzman PD, Wangensteen OS, Tinner W, Rey F, Heer M, Rutzer A, Walsh K, Lammers Y, Brown AG, Goslar T, Rijal DP, Karger DN, Pellissier L, Heiri O, and Alsos IG

Subjects
Humans, Plants genetics, Lakes, Pollen, Climate Change, DNA, Ancient
Abstract

The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps., (© 2022. The Author(s).)

Published
2022
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18. The untapped potential of macrofossils in ancient plant DNA research.

Author

Schwörer C, Leunda M, Alvarez N, Gugerli F, and Sperisen C

Subjects
Animals, DNA, Plant genetics, Lakes, Plants genetics, DNA, Ancient, Permafrost
Abstract

The rapid development of ancient DNA analysis in the last decades has induced a paradigm shift in ecology and evolution. Driven by a combination of breakthroughs in DNA isolation techniques, high-throughput sequencing, and bioinformatics, ancient genome-scale data for a rapidly growing variety of taxa are now available, allowing researchers to directly observe demographic and evolutionary processes over time. However, the vast majority of paleogenomic studies still focus on human or animal remains. In this article, we make the case for a vast untapped resource of ancient plant material that is ideally suited for paleogenomic analyses: plant remains, such as needles, leaves, wood, seeds, or fruits, that are deposited in natural archives, such as lake sediments, permafrost, or even ice caves. Such plant remains are commonly found in large numbers and in stratigraphic sequence through time and have so far been used primarily to reconstruct past local species presences and abundances. However, they are also unique repositories of genetic information with the potential to revolutionize the fields of ecology and evolution by directly studying microevolutionary processes over time. Here, we give an overview of the current state-of-the-art, address important challenges, and highlight new research avenues to inspire future research., (© 2022 The Authors. New Phytologist © 2022 New Phytologist Foundation.)

Published
2022
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19. Holocene vegetation, fire and land use dynamics at Lake Svityaz, an agriculturally marginal site in northwestern Ukraine.

Author

Schwörer C, Gobet E, van Leeuwen JFN, Bögli S, Imboden R, van der Knaap WO, Kotova N, Makhortykh S, and Tinner W

Abstract

Observing natural vegetation dynamics over the entire Holocene is difficult in Central Europe, due to pervasive and increasing human disturbance since the Neolithic. One strategy to minimize this limitation is to select a study site in an area that is marginal for agricultural activity. Here, we present a new sediment record from Lake Svityaz in northwestern Ukraine. We have reconstructed regional and local vegetation and fire dynamics since the Late Glacial using pollen, spores, macrofossils and charcoal. Boreal forest composed of Pinus sylvestris and Betula with continental Larix decidua and Pinus cembra established in the region around 13,450 cal bp, replacing an open, steppic landscape. The first temperate tree to expand was Ulmus at 11,800 cal bp, followed by Quercus , Fraxinus excelsior, Tilia and Corylus ca. 1,000 years later. Fire activity was highest during the Early Holocene, when summer solar insolation reached its maximum. Carpinus betulus and Fagus sylvatica established at ca. 6,000 cal bp, coinciding with the first indicators of agricultural activity in the region and a transient climatic shift to cooler and moister conditions. Human impact on the vegetation remained initially very low, only increasing during the Bronze Age, at ca. 3,400 cal bp. Large-scale forest openings and the establishment of the present-day cultural landscape occurred only during the past 500 years. The persistence of highly diverse mixed forest under absent or low anthropogenic disturbance until the Early Middle Ages corroborates the role of human impact in the impoverishment of temperate forests elsewhere in Central Europe. The preservation or reestablishment of such diverse forests may mitigate future climate change impacts, specifically by lowering fire risk under warmer and drier conditions., Supplementary Information: The online version contains supplementary material available at 10.1007/s00334-021-00844-z., Competing Interests: Conflict of interestThe authors have no conflict of interest to declare that are relevant to the content of this article., (© The Author(s) 2021.)

Published
2022
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20. 8,000 years of climate, vegetation, fire and land-use dynamics in the thermo-mediterranean vegetation belt of northern Sardinia (Italy).

Author

Pedrotta T, Gobet E, Schwörer C, Beffa G, Butz C, Henne PD, Morales-Molino C, Pasta S, van Leeuwen JFN, Vogel H, Zwimpfer E, Anselmetti FS, Grosjean M, and Tinner W

Abstract

Knowledge about the vegetation history of Sardinia, the second largest island of the Mediterranean, is scanty. Here, we present a new sedimentary record covering the past ~ 8,000 years from Lago di Baratz, north-west Sardinia. Vegetation and fire history are reconstructed by pollen, spores, macrofossils and charcoal analyses and environmental dynamics by high-resolution element geochemistry together with pigment analyses. During the period 8,100-7,500 cal bp, when seasonality was high and fire and erosion were frequent, Erica arborea and E. scoparia woodlands dominated the coastal landscape. Subsequently, between 7,500 and 5,500 cal bp, seasonality gradually declined and thermo-mediterranean woodlands with Pistacia and Quercus ilex partially replaced Erica communities under diminished incidence of fire. After 5,500 cal bp, evergreen oak forests expanded markedly, erosion declined and lake levels increased, likely in response to increasing (summer) moisture availability. Increased anthropogenic fire disturbance triggered shrubland expansions (e.g. Tamarix and Pistacia ) around 5,000-4,500 cal bp. Subsequently around 4,000-3,500 cal bp evergreen oak-olive forests expanded massively when fire activity declined and lake productivity and anoxia reached Holocene maxima. Land-use activities during the past 4,000 years (since the Bronze Age) gradually disrupted coastal forests, but relict stands persisted under rather stable environmental conditions until ca. 200 cal bp, when agricultural activities intensified and Pinus and Eucalyptus were planted to stabilize the sand dunes. Pervasive prehistoric land-use activities since at least the Bronze Age Nuraghi period included the cultivation of Prunus , Olea europaea and Juglans regia after 3,500-3,300 cal bp, and Quercus suber after 2,500 cal bp. We conclude that restoring less flammable native Q. ilex and O. europaea forest communities would markedly reduce fire risk and erodibility compared to recent forest plantations with flammable non-native trees (e.g. Pinus , Eucalyptus ) and xerophytic shrubland (e.g. Cistus , Erica )., (© The Author(s) 2021.)

Published
2021
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22. A model-data comparison of Holocene timberline changes in the Swiss Alps reveals past and future drivers of mountain forest dynamics.

Author

Schwörer C, Henne PD, and Tinner W

Subjects
Computer Simulation, Fossils, Pollen, Switzerland, Temperature, Biodiversity, Climate Change, Forests, Models, Theoretical, Trees growth & development
Abstract

Mountain vegetation is strongly affected by temperature and is expected to shift upwards with climate change. Dynamic vegetation models are often used to assess the impact of climate on vegetation and model output can be compared with paleobotanical data as a reality check. Recent paleoecological studies have revealed regional variation in the upward shift of timberlines in the Northern and Central European Alps in response to rapid warming at the Younger Dryas/Preboreal transition ca. 11 700 years ago, probably caused by a climatic gradient across the Alps. This contrasts with previous studies that successfully simulated the early Holocene afforestation in the (warmer) Central Alps with a chironomid-inferred temperature reconstruction from the (colder) Northern Alps. We use LandClim, a dynamic landscape vegetation model to simulate mountain forests under different temperature, soil and precipitation scenarios around Iffigsee (2065 m a.s.l.) a lake in the Northwestern Swiss Alps, and compare the model output with the paleobotanical records. The model clearly overestimates the upward shift of timberline in a climate scenario that applies chironomid-inferred July-temperature anomalies to all months. However, forest establishment at 9800 cal. BP at Iffigsee is successfully simulated with lower moisture availability and monthly temperatures corrected for stronger seasonality during the early Holocene. The model-data comparison reveals a contraction in the realized niche of Abies alba due to the prominent role of anthropogenic disturbance after ca. 5000 cal. BP, which has important implications for species distribution models (SDMs) that rely on equilibrium with climate and niche stability. Under future climate projections, LandClim indicates a rapid upward shift of mountain vegetation belts by ca. 500 m and treeline positions of ca. 2500 m a.s.l. by the end of this century. Resulting biodiversity losses in the alpine vegetation belt might be mitigated with low-impact pastoralism to preserve species-rich alpine meadows.

Published
2014
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