Your search keyword '"Antje Schwalb"' showing total 164 results

1. Paleoclimate, paleoenvironment, and human impact over the last 400 years based on lipid biomarkers from Lake Höglwörth, Germany

Author

Sudip Acharya, Paul Strobel, Maximilian Prochnow, Steffen Taut, Michael Zech, Antje Schwalb, and Roland Zech

Subjects

Lake sediments, Compound specific hydrogen isotopes, Leaf waxes, Faecal biomarkers, Polycyclic aromatic hydrocarbons, Combustion activities, Geography. Anthropology. Recreation, Archaeology, CC1-960

Abstract

Lipid biomarkers are valuable proxies for reconstructing paleoclimate and paleoenvironmental changes as well as human impact. However, little attention has been paid on evaluating how the combination of biomarkers can be used to reconstruct various aspects of local paleoenvironmental conditions. This study presents a suite of lipid biomarker records from a sediment core from Lake Höglwörth, southern Germany, covering the past 400 years. Compound-specific hydrogen isotopic compositions (δD) of terrestrial n-alkanes (n-C29-alkane) and n-alkanoic acids (n-C30-acid) indicate minor changes in isotopic composition of precipitation. The δD of n-C22-acid is interpreted to record the isotopic composition of the lake water and evaporative enrichment, which drops after 1700 CE, coinciding with the construction of a mill and the related rerouting of a creek into Lake Höglwörth. The δD of n-C25-alkane is also enriched but decoupled from the reconstructed isotopic composition of precipitation and lake water. Therefore, we suggest that δD of n-C25-alkane reflects the leaf water isotopic composition of Sphagnum, which is present in the catchment and undergoes transpirative enrichment. Both short-chain compounds have become more enriched over the last century, maybe related to increasing temperature associated with anthropogenic climate warming. The faecal biomarkers record the changes in human population, partly related to the history of the local Monastery, the World Wars I and II as well as the intensive farming after the mid-20th century. Polycyclic aromatic hydrocarbons (PAHs) reveal a significant change in combustion activities associated with human activities such as the industrial revolution, biomass burning, and environmental cleanup as well as the implementation of emission standards. Our study demonstrates that the combination of plant wax compounds, faecal biomarkers, and PAHs from lacustrine sediment serves as a valuable tool to reconstruct and distinguish various aspects of paleoclimate and paleoenvironmental changes including human impacts.

Published

2024

2. Dataset from RNAseq analysis of differential gene expression among developmental stages of two non-marine ostracodes

Author

Miguel Vences, Sten Anslan, Joana Sabino-Pinto, Mauricio Bonilla-Flores, Paula Echeverría-Galindo, Uwe John, Benneth Nass, Liseth Pérez, Michaela Preick, Liping Zhu, and Antje Schwalb

Subjects

Ostracoda, Dolerocypris, Heterocypris, Transcriptomics, Phylogenomics, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

We contribute transcriptomic data for two species of Ostracoda, an early-diverged group of small-sized pancrustaceans. Data include new reference transcriptomes for two asexual non-marine species (Dolerocypris sinensis and Heterocypris aff. salina), as well as single-specimen transcriptomic data that served to analyse gene expression across four developmental stages in D. sinensis. Data are evaluated by computing gene expression profiles of the different developmental stages which consistently placed eggs and small larvae (at the stage of instar A-8) similar to each other, and apart from adults which were distinct from all other developmental stages but closest to large larvae (instar A-4). We further evaluated the transcriptomic data with two newly sequenced low-coverage genomes of the target species. The new data thus document the feasibility of obtaining reliable transcriptomic data from single specimens – even eggs – of these small metazoans.

Published

2024

3. Postglacial evolution of Lake Constance: sedimentological and geochemical evidence from a deep-basin sediment core

Author

Sebastian Schaller, Michael E. Böttcher, Marius W. Buechi, Laura S. Epp, Stefano C. Fabbri, Natacha Gribenski, Ulrich Harms, Sebastian Krastel, Alina Liebezeit, Katja Lindhorst, Hanna Marxen, Ulli Raschke, David Schleheck, Iris Schmiedinger, Antje Schwalb, Hendrik Vogel, Martin Wessels, and Flavio S. Anselmetti

Subjects

Lake Constance, Lake sediments, Rhine glacier, Overdeepening, Subaquatic channels, Flimser Bergsturz, Geology, QE1-996.5

Abstract

Abstract The modern, over 250-m-deep basin of Lake Constance represents the underfilled northern part of an over 400-m-deep, glacially overdeepened trough, which reaches well into the Alps at its southern end. The overdeepening was formed by repeated glacial advance-retreat cycles of the Rhine Glacier throughout the Middle to Late Pleistocene. A seismic survey of Lake Constance revealed a Quaternary sediment fill of more than 150 m thickness representing at least the last glacial cycle. The stratified sedimentary fill consists at the base of ice-contact deposits on top of the molasse bedrock, overlain by glaciolacustrine to lacustrine sediments. During the successful field test of a newly developed, mid-size coring system ("HIPERCORIG"), the longest core (HIBO19) ever taken in Lake Constance was retrieved with an overall length of 24 m. The sediments recovered consist of a nearly continuous succession of lacustrine silts and sands including more than 12 m of Late Glacial sediment at the base. 14 lithotypes were identified through petrophysical and geochemical analyses. In combination with a 14C- and OSL-based age-depth model, the core was divided into three main chronostratigraphic units. The basal age of ~ 13.7 ka BP dates the base of the succession back to the Bølling-Allerød interstadial, with overlying strata representing a complete and thick Younger-Dryas to Holocene succession. The sediments offer a high-resolution insight into the evolution of paleo-Lake Constance from a cold, postglacial to a more productive and warmer Holocene lake. The Late Glacial succession is dominated by massive, m-thick sand beds reflecting episodic sedimentation pulses. They are most likely linked to a subaquatic channel system originating in the river Seefelder Aach, which is, despite the Holocene drape, still apparent in today’s lake bathymetry. The overlying Holocene succession reveals a prominent, several cm-thick, double-turbiditic event layer representing the most distal impact of the Flimser Bergsturz, the largest known rockslide of the Alps that occurred over 100 km upstream the river Rhine at ~ 9.5 ka BP. Furthermore, lithologic variations in the Holocene succession document the varying sediment loads of the river Rhine and the endogenic production representing a multitude of environmental changes.

Published

2022

4. High‐throughput identification of non‐marine Ostracoda from the Tibetan Plateau: Evaluating the success of various primers on sedimentary DNA samples

Author

Paula Echeverría‐Galindo, Sten Anslan, Peter Frenzel, Sven Künzel, Miguel Vences, Liseth Pérez, Nicole Börner, Wengang Kang, Anja Schwarz, Junbo Wang, Ping Peng, Liping Zhu, and Antje Schwalb

Subjects

metabarcoding, ostracodes, primer design, sample size, sediment sample, sedDNA, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

Abstract Dwelling in a variety of aquatic habitats, one of the most abundant groups of microcrustaceans, ostracodes, are widely used indicator organisms in paleolimnological research. Typically, they are identified via traditional methods using morphological features but this may be excessively time‐consuming and prone to inter‐investigator variation. DNA barcoding and metabarcoding have become important tools for specimen identification, with a great impact in the field of taxonomy, (paleo‐)ecology and evolution. Despite its potential, metabarcoding has been rarely used to analyze the community structure of ostracodes. Here, we evaluate the performance of a metabarcoding approach for ostracode identification in surface sediment samples collected from Lake Nam Co on the Tibetan Plateau. We tested six different primer pairs amplifying fragments of three different genes, and compared their success in inferring ostracode communities, coupled with morphological identification of ostracodes from the same sediment samples. In total, depending on the primer pair used, seven to nineteen ostracode amplicon sequence variants (ASVs) were identified. Via microscopy, eight morphospecies were identified. We found considerable differences between primer pairs in yielding ostracode sequences via metabarcoding. In general, the highest proportions of ostracode reads and ASVs were found with primers amplifying fragments of the 18S rRNA gene, whereas primers for COI gene had the highest in silico amplification success and highest sequencing depth per sample but only contained

Published

2021

5. Sub-fossil chironomids as indicators of hydrological changes in the shallow and high-altitude lake Shen Co, Tibetan Plateau, over the past two centuries

Author

Sonja Rigterink, Paula Echeverría-Galindo, Rodrigo Martínez-Abarca, Julieta Massaferro, Philipp Hoelzmann, Bernd Wünnemann, Andreas Laug, Liseth Pérez, Wengang Kang, Nicole Börner, Anja Schwarz, Ping Peng, Junbo Wang, Liping Zhu, and Antje Schwalb

Subjects

Chironomidae, Asian Summer Monsoon, Macrophytes, endorheic lake, Shen Co, Tibetan Plateau, Geography. Anthropology. Recreation, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

Understanding climate and monsoonal dynamics on the Tibetan Plateau is crucial, as recent hydrological changes, evidenced by rising lake levels, will be accelerated by current global warming and may alter aquatic habitats and species inventories. This study combines chironomid assemblages with sedimentological, mineralogical and geochemical data of a short sediment core (37.5 cm) from the high-altitude (> 4,733 m asl), saline (9 g L-1) and shallow (~5 m water depth) Shen Co, located in the southern part of the central Tibetan Plateau. The predominantly littoral, species-poor (10 chironomid morphotypes) chironomid assemblages are dominated by salt-tolerant taxa, that are highly sensitive to lake level fluctuations and macrophyte vegetation dynamics, making them ideally suited for tracking lake level changes over time. Results indicate a period (from ca. 1830 to 1921 CE) of drier conditions with low runoff and high evaporation rates in the Shen Co catchment, as indicated by a dominance of low-Mg calcite and dolomite and increased Ca/Fe and Sr/Rb ratios. This resulted in a decline in lake levels, an increase in salinity and the periodic occurrence of desiccation events at the sampling site. The first chironomid morphotype to appear after the dry period is Acricotopus indet. morphotype incurvatus, which indicate still low (

Published

2022

6. Late Quaternary changes in moisture availability and weathering intensity on the central Tibetan Plateau indicated by chemical signatures of ostracod shells

Author

Nicole Börner, Klaus Peter Jochum, Marleen Stuhr, Michelle Abstein, Birgit Plessen, Peter Frenzel, Junbo Wang, Liping Zhu, and Antje Schwalb

Subjects

trace element geochemistry, stable isotopes, Asian monsoon system, rare earth elements (REE), Tibetan Plateau, paleohydrology, Science

Abstract

High-resolution multi-proxy records from two lakes on the southern Tibetan Plateau, Nam Co and Tangra Yumco, are used to infer long-term variations in the Asian monsoon system with a novel set of ostracod shell chemistry proxies. We track the moisture evolution since the Last Glacial Maximum using the trace element, rare earth element (REE) and stable isotope composition of ostracod shells. The sediment records covering the past 18.8 cal. ka BP and 17.4 cal. ka BP, respectively, demonstrate the suitability of REEs as indicators of weathering intensity and thus hydrological changes and moisture sources in the catchment. In Nam Co, high concentrations of light REEs between 14 and 13 cal. ka BP suggest an increased drainage from the glaciated Nyainqêngtanglha Mountains in the south, pointing to meltwater input. REEs in ostracod shells therefore provide additional information on water sources critical for the interpretation of stable isotope records. Mg/Ca, Sr/Ca, and Ba/Ca ratios reflect salinity and thus changes in effective moisture. Asynchronous behavior of Mg/Ca, Sr/Ca, and Ba/Ca ratios are controlled by changes in dominance of precipitating carbonate minerals in the lake. Synchronous behavior reflects calcite precipitation, indicating low-Mg/Ca warm-wet conditions. Constantly low Sr/Ca ratios reflect aragonite precipitation, indicating high-Mg dry conditions. Increased Sr/Ca and Ba/Ca relative to Mg/Ca ratios show monohydrocalcite precipitation, indicating high-Mg/Ca cold-dry conditions. Furthermore, Fe/Ca, Mn/Ca and U/Ca ratios in ostracods reflect changes in oxygen saturation in lake bottom waters controlled by lake level and microbial activity. The paleoclimate histories reconstructed from Nam Co and Tangra Yumco show high similarity throughout the late Quaternary. We identified two major dry periods, corresponding to Heinrich 1 and the Younger Dryas, followed by strengthening in Indian summer monsoon precipitation. The early Holocene is characterized by a moisture maximum, reflecting abundant water supply by a strong ISM. A time-delayed shift to dry conditions occurred at 2.6 cal. ka BP at Tangra Yumco, and at 2 cal. ka BP at Nam Co, resulting in decreasing lake levels, caused by weakened monsoon intensity due to a southeastward migration of the ISM-Westerly boundary with an estimated velocity of approximately 600 m per year.

Published

2022

7. A heterocyte glycolipid-based calibration to reconstruct past continental climate change

Author

Thorsten Bauersachs, James M. Russell, Thomas W. Evans, Antje Schwalb, and Lorenz Schwark

Subjects

Science

Abstract

Understanding the past is necessary to comprehend Earth’s response to present climate change, but past climate reconstruction is hampered by a lack of temperature proxies. Here the authors develop the HDI26, a proxy using cyanobacterial glycolipids to reconstruct water temperatures of lakes worldwide.

Published

2021

8. Compatibility of Diatom Valve Records With Sedimentary Ancient DNA Amplicon Data: A Case Study in a Brackish, Alkaline Tibetan Lake

Author

Sten Anslan, Wengang Kang, Katharina Dulias, Bernd Wünnemann, Paula Echeverría-Galindo, Nicole Börner, Anja Schwarz, Yongqin Liu, Keshao Liu, Sven Künzel, Veljo Kisand, Patrick Rioual, Ping Peng, Junbo Wang, Liping Zhu, Miguel Vences, and Antje Schwalb

Subjects

SedaDNA, Tibetan Plateau, Lake Nam Co, metabarcoding, microscopy, sediment core, Science

Abstract

Lake sediments represent valuable and widely used archives for tracking environmental and biotic changes over time. Past aquatic communities are traditionally studied via morphological identification of the remains of organisms. However, molecular identification tools, such as DNA metabarcoding, have revolutionized the field of biomonitoring by enabling high-throughput and fast identification of organisms from environmental samples (e.g., sediments and soil). Sedimentary ancient DNA (sedaDNA) metabarcoding, an approach to track the biodiversity of target organisms from sediment cores, spanning thousands of years, has been successfully applied in many studies. However, researchers seldom explore how well the signals from sedaDNA data correlate with the fossil records of target organisms. This information is essential to infer past environmental conditions and community changes of bioindicators when the increasingly popular molecular identification method, metabarcoding, is desired instead of a morphological identification approach. In this study, we explore the correlations of diatom valve records across the last ∼940 years with the diatom sedaDNA metabarcoding data from the same sediment core from lake Nam Co (Tibetan Plateau). Overall, the results from valve vs. sedaDNA data revealed concordant diatom richness as well as community patterns. However, several mismatches in the diatom taxonomic composition existed between the data sets. In general, sedaDNA data harbored much higher diatom diversity, but due to the lack of reference sequences in public databases, many molecular units (amplicon sequence variants) remained unclassified to lower taxonomic levels. As our study lake, Nam Co, is characterized by brackish water and alkaline pH, some likely cases for the observed taxonomic composition mismatches may be due to a valve dissolution issue. Nevertheless, significant drivers for the diatom richness and community structure largely corresponded between data sets. Both valve and sedaDNA data demonstrated similar breakpoints for historical diatom community shifts. A particularly strong shift in the diatom community structure occurred after ∼1950 CE, which may be associated with abrupt environmental changes on the Tibetan Plateau. Altogether, our study indicates that environmentally driven signals reflected by the diatom communities are successfully recovered via microfossil as well as molecular identification methods.

Published

2022

9. Morphological diversity and discrimination tools of the non-marine ostracod Cypridopsis silvestrii across temporal and spatial scales from Patagonia

Author

LORENA Y. RAMOS, ALEJANDRA PATRICIA PÉREZ, CORINA A. COVIAGA, ANTJE SCHWALB, DANIEL ARIZTEGUI, MARTA ALPERIN, and GABRIELA C. CUSMINSKY

Subjects

Cypridopsis silvestrii, morphological variability, Ostracoda, Patagonia, valve outline analysis, Science

Abstract

Abstract Geometric morphometric methods are powerful tools to discriminate between closely related ostracods taxa as well as to study the relationship between their morphological variations, taxonomy and paleoecology. In this study, valve outline analysis allows the discrimination between the non-marine ostracod C. silvestrii and R. whatleyi juveniles, pointing out differences in the posterior valve area and surface ornamentation. Modern female specimens of C. silvestrii from 23 sites located in a spatial transect (41 to 51 °S) exhibited extensive morphological variability, on the basis of which three morphotypes (acuminated, transitional, subtruncated) were determined. Multivariate analyses showed that acuminated and transitional shapes are not arranged in groups but the subtruncated morphotype, previously described as E. cecryphalium, seems to be associated with low water conductivity (372 µS cm-1), dominant cold (5 ºC) and windy (8.6 m s-1) climatic conditions. The fossil cluster which included nine cores spanning the last 15.6 kyr, only covered acuminated and transitional shapes, which may indicate that these lineages might be older than the subtruncated morphotype. In addition, morphological differences between reproduction modes suggested that parthenogenetic females exhibit de posterior margin more acuminate than sexual females. These results set the ground for more precise ecological and paleoenvironmental studies in Patagonia.

Published

2021

10. Diatom metabarcoding and microscopic analyses from sediment samples at Lake Nam Co, Tibet: The effect of sample-size and bioinformatics on the identified communities

Author

Wengang Kang, Sten Anslan, Nicole Börner, Anja Schwarz, Robin Schmidt, Sven Künzel, Patrick Rioual, Paula Echeverría-Galindo, Miguel Vences, Junbo Wang, and Antje Schwalb

Subjects

Diatoms, Metabarcoding, Tibetan Plateau, sedDNA, Bioinformatics, Ecology, QH540-549.5

Abstract

Diatoms (Bacillariophyceae) are characterized by silicified cell walls that favor their long-term preservation in sediments, therefore widely used as bioindicators of present and past water conditions. Alongside with traditional morphological analyses, metabarcoding has become a valuable tool to study the community structures of various organisms, including diatoms. Here, we test whether the quantity of sediment sample used for DNA extraction affects the results obtained from high-throughput sequencing (metabarcoding) of the diatom rbcL region by isolating DNA from 10 g and 0.5 g (wet weight) of lake surface sediment samples. Because bioinformatics processing of metabarcoding data may affect the outcome, we also tested the consistency of the results from three different pipelines: 1) ESVs (exact sequence variants) pipeline; 2) clustering sequences at 95% sequence identity to form OTUs (operational taxonomic units; 95% OTUs); and 3) 97% OTUs pipeline. Additionally, the agreement between metabarcoding data and morphological inventories of corresponding samples were compared. Our results demonstrate highly uniform patterns between the diatom rbcL amplicons from 10 g and 0.5 g of sedimentary DNA (sedDNA) extracts (HTS 10 and HTS 0.5, respectively). Furthermore, after the careful curation of the sequencing data, metabarcoding results were highly consistent among the data sets produced by different bioinformatics pipelines. Comparing results from metabarcoding and microscopy, we identified some taxonomic mismatches: morphological analyses identified 59 diatom genera, whereas metabarcoding 49 to 54 genera. These mismatches are related to incompleteness of the sequence databases, but also to inconsistencies in diatom taxonomy in general and potential dissolution effects of diatom valves caused by high alkalinity of the investigated lake waters. Nevertheless, multivariate community analysis revealed consistent results between data sets identified by microscopy and metabarcoding – water depth and conductivity as the most significant variables in driving diatom communities in Lake Nam Co – further confirming that metabarcoding is a viable method for identifying diatom-environment relationships.

Published

2021

11. Characterizing ecoregions in Argentinian Patagonia using extant continental ostracods

Author

GABRIELA CUSMINSKY, CORINA COVIAGA, LORENA RAMOS, A. PATRICIA PÉREZ, ANTJE SCHWALB, VERA MARKGRAF, DANIEL ARIZTEGUI, FINN VIEHBERG, and MARTA ALPERIN

Subjects

Argentina, ecology, ecoregions, freshwater, Ostracoda, recent, Science

Abstract

Abstract In order to characterize Patagonian (Argentina) ecoregions using non-marine ostracods, their associations in 69 environments were assessed. Twenty eight taxa were recorded, including 12 endemic of the Neotropical region. Our results indicate that Patagonian ostracods are mainly influenced by electrical conductivity (EC), altitude, pH, and temperature; and shows a correlation with Argentinian ecoregions. Assemblage I is composed of sites located at high altitude in the Andean Patagonian forest ecoregion. Host waters have low temperature, EC and pH, and support as representative species Cypris pubera, Eucypris virens, Bradleystrandesia fuscata, Tonacypris lutaria and Amphicypris nobilis. Assemblage II, related to mid-altitude environments in the Patagonian Steppe ecoregion, thrived in waters with moderate to high EC, and alkaline pH values. Dominant species includes Limnocythere rionegroensis, L. patagonica, E. virgata, Riocypris whatleyi, Riocypris sarsi, Newnhamia patagonica, Kapcypridopsis megapodus, Ilyocypris ramirezi and Penthesinelula incae. Assemblage III inhabited environments within Monte and Espinal ecoregions, situated in the eastern part of the study area at low altitude, EC moderate and temperate waters, supporting Heterocypris hyalinus, Amphicypris argentinensis, Sarscypridopsis aculeata, Cypridopsis vidua, Herpetocypris intermedia and Chlamidotheca incisa. Our results indicates that Argentinian Patagonia hosts a diverse ostracod fauna and highlights their capacity as proxies in ecological and palaeoenvironmental studies.

Published

2020

12. Is there a common threshold to subfossil chironomid assemblages at 16 m water depth? Evidence from the Tibetan Plateau

Author

Andreas Laug, Falko Turner, Stefan Engels, Junbo Wang, Torsten Haberzettl, Jianting Ju, Siwei Yu, Qiangqiang Kou, Nicole Börner, and Antje Schwalb

Subjects

Midges, Alpine lakes, Salinity, Selin Co, Taro Co, Geography. Anthropology. Recreation, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

Fluctuating lake levels are an important driver of ecosystem change, and changes in the precipitation/evaporation balance of a region can lead to undesirable changes in ecosystem functioning. Large-scale changes in hydrology will become increasingly more likely as a result of ongoing climate change in the coming century. This is especially true for the Tibetan Plateau, which plays a crucial role as the “Asian water tower” for the surrounding densely populated regions. Chironomids (Diptera: Chironomidae) have proven to be one of the most valuable bioindicators for monitoring and reconstructing the development of aquatic ecosystems. Besides temperature, water depth and salinity are two of the most important environmental factors affecting chironomids. To study the relationship between chironomids and water depth, we analyzed surface sediment samples of two large Tibetan lakes, Selin Co and Taro Co. These lakes have similar environmental conditions (e.g. elevation, temperature and oxygenation) but show strong differences in salinity (7–10 and 0.5 ppt, respectively). Our results show that the chironomid assemblages in both lakes have similar water depths at which the fauna abruptly changes in composition, despite different faunal assemblages. The most important boundaries were identified at 0.8 and 16 m water depth. While the uppermost meter, the “splash zone”, is characterized by distinctly different conditions, resulting from waves and changing water levels, the cause of the lower zone boundary remains enigmatic. Even though none of the measured water depth-related factors, such as water temperature, oxygen content, sediment properties, light intensity or macrophyte vegetation, show a distinct change at 16 m water depth, comparison to other records show that a similar change in the chironomid fauna occurs at 16 m water depth in large, deep lakes around the world. We propose that this boundary might be connected to water pressure influencing the living conditions of the larvae or the absolute distance to the surface that has to be covered for the chironomid larvae to hatch. We conclude that water depth either directly or indirectly exerts a strong control on the chironomid assemblages even under different salinities, resulting in distribution patterns that can be used to reconstruct past fluctuations in water depths.

Published

2020

13. Comments on 'Adaptation of Chinese and German maize-based food-feed-energy systems to limited phosphate resources—a new Sino-German international research training group'

Author

Antje SCHWALB

Subjects

Agriculture (General), S1-972

Published

2019

14. Diversity and Spatial Distribution of Extant Freshwater Ostracodes (Crustacea) in Ancient Lake Ohrid (Macedonia/Albania)

Author

Julia Lorenschat, Liseth Pérez, Alexander Correa-Metrio, Mark Brenner, Ullrich von Bramann, and Antje Schwalb

Subjects

Balkan Ostracoda, biodiversity, endemism, water depth, anthropogenic impact, Biology (General), QH301-705.5

Abstract

We carried out an intensive sampling survey in ancient Lake Ohrid (Macedonia/Albania), covering all seasons, to determine total species number, relative species abundances and spatial distribution of Ostracoda. We identified 32 living species that belong to seven families (Candonidae, Ilyocyprididae, Cyprididae, Leptocytheridae, Limnocytheridae, Cytherideidae, and Darwinulidae) and 15 genera (Candona, Fabaeformiscandona, Candonopsis, Cypria, Cyclocypris, Ilyocypris, Eucypris, Prionocypris, Bradleystrandesia, Herpetocypris, Dolerocypris, Amnicythere, Paralimnocythere, Cytherissa, and Darwinula). Six additional species were identified from empty carapaces and valves. Dominant families in Lake Ohrid were Candonidae and Limnocytheridae, representing 53% and 16% of all species, respectively. Prevalence of species flocks in these two families confirms the “young” ancient status of the lake. Amnicythere displays a preference for oligo-haline to meso-haline waters, but some species are found in saline environments, which suggests Lake Ohrid has a marine history. Recent studies, however, indicate fluvial/glaciofluvial deposition at the onset of Lake Ohrid sedimentation. Candona is the most diverse genus in Lake Ohrid, represented by 12 living species. Paralimnocythere is represented by five living species and all other genera are represented by one or two species. Reports of Candona bimucronata, Ilyocypris bradyi, Eucypris virens, Eucypris sp., Prionocypris zenkeri, Bradleystrandesia reticulate, Herpetocypris sp. 2, and Dolerocypris sinensis are firsts for this lake. Living ostracodes were collected at the maximum water depth (280 m) in the lake (Candona hadzistei, C. marginatoides, C. media, C. ovalis, C. vidua, Fabaeformiscandona krstici, Cypria lacustris, C. obliqua and Amnicythere karamani). Cypria lacustris was overall the most abundant species and Cypria obliqua displayed the highest abundance at 280 m water depth. Principal environmental variables that influence ostracode distributions in Lake Ohrid are water depth and conductivity. In general, species richness, diversity and evenness were greater in waters

Published

2014

15. Bioindicators of climate and trophic state in lowland and highland aquatic ecosystems of the Northern Neotropics

Author

Liseth Pérez, Julia Lorenschat, Julieta Massaferro, Christine Pailles, Florence Sylvestre, Werner Hollwedel, Gerd-Oltmann Brandorff, Mark Brenner, Islebe Gerald, María del Socorro Lozano, Burkhard Scharf, and Antje Schwalb

Subjects

microcrustáceos, quironómidos, diatomeas, ecosistemas acuáticos, norte de los Neotrópicos, autecología, diversidad, microcrustaceans, chironomid, diatom, aquatic ecosystems, bioindicators, Northern Neotropics, autecology, diversity, Biology (General), QH301-705.5

Abstract

Chironomids, diatoms and microcrustaceans that inhabit aquatic ecosystems of the Northern Neotropics are abundant and diverse. Some species are highly sensitive to changes in water chemical composition and trophic state. This study was undertaken as a first step in developing transfer functions to infer past environmental conditions in the Northern lowland Neotropics. Bioindicator species abundances were related to multiple environmental variables to exploit their use as environmental and paleoenvironmental indicators. We collected and analyzed water and surface sediment samples from 63 waterbodies located along a broad trophic state gradient and steep gradients of altitude (~0-1 560m.a.s.l.) and precipitation (~400-3 200mm/y), from NW Yucatán Peninsula (Mexico) to southern Guatemala. We related 14 limnological variables to relative abundances of 282 diatom species, 66 chironomid morphospecies, 51 species of cladocerans, 29 non-marine ostracode species and six freshwater calanoid copepods. Multivariate statistics indicated that bicarbonate is the strongest driver of chironomid and copepod distribution. Trophic state is the second most important factor that determines chironomid distribution. Conductivity, which is related to the precipitation gradient and marine influence on the Yucatán Peninsula, is the main variable that shapes diatom, ostracode and cladoceran communities. Diatoms, chironomids and cladocerans displayed higher diversities (H=2.4-2.6) than ostracodes and copepods (H=0.7- 1.8). Species richness and diversity were greater at lower elevations (Los quironómidos, diatomeas y microcrustaceos que habitan ecosistemas acuáticos en el norte de los Neotrópicos son abundantes y diversos. Algunas especies son altamente sensibles a cambios en la composición química del agua y en el estado trófico. Este estudio se realizó como el primer paso para desarrollar funciones de transferencia para inferir condiciones ambientales en el norte de las tierras bajas de los Neotrópicos. Es por esto que las abundancias de especies bioindicadoras se relacionaron con múltiples variables ambientales con el fin de explotar al máximo su uso como indicadores ambientales y paleoambientales. Recolectamos y analizamos muestras de agua y de sedimento superficial de 63 cuerpos de agua, ubicados a lo largo de un gradiente trófico y de gradientes marcados de altitud (~0-1 560m.s.n.m.) y de precipitación (~400-3 200mm/año), desde el NO de la Península de Yucatán (México) hasta el sur de Guatemala. Relacionamos 14 variables limnológicas con las abundancias relativas de 282 especies de diatomeas, 66 morfoespecies de quironómidos, 51 especies de cladóceros, 29 especies de ostrácodos no-marinos y seis especies de agua dulce de cladóceros calanoides. La estadística multivariada indicó que el bicarbonato es el principal determinante de la distribución de quironómidos y copépodos. El estado trófico es el segundo factor más importante en determinar la distribución de quironómidos. La conductividad, que está relacionada con el gradiente de precipitación e influencia marina en la Península de Yucatán, es la principal variable en influir las comunidades de diatomeas, ostrácodos y cladóceros. Las diatomeas, quironómidos y cladóceros (H=2.4-2.6) presentaron diversidades más altas que los ostrácodos y copépodos (H=0.7-1.8). La riqueza de especies y la diversidad fueron más altas en las elevaciones bajas (

Published

2013

16. Ecology of Cladocera species from Central America based on subfossil assemblages

Author

Marta Wojewódka, Edyta Zawisza, Sergio Cohuo, Laura Macario-González, Antje Schwalb, Izabela Zawiska, and Liseth Pérez

Subjects

Subfossil Cladocera, Central America, waterfleas ecology, Guatemala, El Salvador, Honduras., Ecology, QH540-549.5

Abstract

Cladocera species composition was analyzed in surface sediments of 29 lakes in Central America (Guatemala, El Salvador and Honduras). The material studied was collected with an Ekman grab in autumn 2013 from lakes located in lowland, highland and mountain regions. The study revealed high variability in qualitative and quantitative composition of subfossil Cladocera. A total of 31 Cladocera species (5 planktonic and 26 littoral) were identified, as well as 4 morphotypes that could not be identified (NRR 1-4). Planktonic Bosminidae and Daphniidae were the most abundant families. Daphniidae were restricted to water bodies in mountain regions, whereas Bosminidae were widely distributed in lakes with different abiotic conditions. Moreover, Bosminidae species also occurred in highly mineralized waters (> 900 µS cm-1). The great majority of the identified Cladocera species belonged to the littoral family Chydoridae. Chydorus cf. sphaericus was the most common species (found in 20 lakes), which probably reflects its tolerance to a wide spectrum of habitat conditions. Cluster analysis discriminated 6 groups of Cladocera species with a high correlation level within groups (≥0.8), which showed different types of correlation with lake characteristics and environmental variables. Canonical correspondence analysis (CCA) showed that altitude and secondly water electrical conductivity were the most important drivers of Cladocera species composition in the region studied. Furthermore, CCA analysis indicated lowland lakes with low water transparency were also characterized by peculiar species assemblages.

Published

2016

17. Scientific Drilling in the Basin of Mexico to Evaluate Climate History, Hydrological Resources, and Seismic and Volcanic Hazards

Author

Blas L. Valero-Garces, Alejandra Arcniega-Ceballos, Enrique Cabral-Cano, Beatriz Ortega-Guerrero, Margarita Caballero, Socorro Lozano-García, Josef P. Werne, Erik T. Brown, and Antje Schwalb

Subjects

the basin of Mexico, Lake CHalco, Geology, QE1-996.5

Published

2012

18. Extant freshwater ostracodes (Crustacea: Ostracoda) from Lago Petén Itzá, Guatemala

Author

Liseth Pérez, Julia Lorenschat, Mark Brenner, Burkhard Scharf, and Antje Schwalb

Subjects

Guatemala, ostrácodos lacustres, Lago Petén Itzá, Neotrópicos, taxonomía, Physocypria globula, Biology (General), QH301-705.5

Abstract

Ostracode taxonomy has been of great interest because of their possible use as indicator species in climate and ecosystem changes. In Central and South America, few studies have been carried out and this study includes a contribution to the group. Eleven ostracode species were collected in Lago Petén Itzá (~100km2), the second largest lowland lake in Guatemala, and from its inflow tributary, Río Ixlú in November 2005 and February 2008. Twenty-seven surface sediment samples were retrieved at water depths from the littoral zone to the lake’s maximum depth (>160m). Hard and soft parts of ostracodes were analyzed, and each ostracode species was described for taxonomy, size, ecology, biology and geographic distribution. Species recorded include: Candonocypris serratomarginata?, Cypretta brevisaepta?, Cypridopsis okeechobei, Cytheridella ilosvayi, Darwinula stevensoni, Heterocypris punctata, Limnocythere opesta, Physocypria globula, Pseudocandona sp., Stenocypris major and Strandesia intrepida. Most of the species have a neotropical distribution, two are distributed world-wide (D. stevensoni and S. major), and C. okeechobei and P. globula display nearctic and neotropical distributions. We present new records of C. brevisaepta?, C. serratomarginata?, S. major, and S. intrepida in Guatemala. Physocypria globula was misidentified previously in Lago Petén Itzá as Cypria petenensis, Pseudocandona sp. was misidentified as Candona sp., and C. okeechobei was identified in the past as C. vidua. Limnocythere opesta is the only endemic species of the Petén Lake District, Guatemala. The most abundant and widely distributed species in the lake are P. globula, C. okeechobei, and Pseudocandona sp. Species restricted to the littoral zones and water depths

Published

2010

19. Distribution, diversity and ecology of modern freshwater ostracodes (Crustacea), and hydrochemical characteristics of Lago Petén Itzá, Guatemala

Author

Burkhard SCHARF, Antje SCHWALB, Mark BRENNER, Rita BUGJA, Julia LORENSCHAT, and Liseth PÉREZ

Subjects

freshwater ostracodes, ecology, Lago Petén Itzá, Guatemala, hydrochemistry, water depth, Geography. Anthropology. Recreation, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

We analyzed modern ostracode species assemblages and water column physico-chemical characteristics in Lago Péten Itzá, Guatemala. Lake waters are dominated by sulfate, bicarbonate, calcium and magnesium and display a total ion concentration of ~11 meq L-1. Eleven extant ostracode species were identified. We found higher abundances of living ostracodes, as well as relatively higher species richness (eight species) and biodiversity (H of 1.6) between the littoral zone and a water depth of 20 m. At water depths >40 m, these variables all decreased. The thermocline is located at a water depth of ~20-40 m. Cluster analysis revealed three water depth ranges in the lake of importance to ostracode distribution: 1) littoral zone (0.1-3 m), 2) water depths from the base of the littoral zone to the base of the thermocline (3-40 m), and 3) water depths below the thermocline (40-160 m). The assemblage "Darwinula-Heterocypris-Pseudocandona-Strandesia" is characteristic of waters 40 m. Ostracode taxa from Lago Petén Itzá show specific ecological preferences related to water depth and associated physico-chemical characteristics, thus illustrating the potential of ostracodes as indicators of lake level changes and hydrodynamics.

Published

2010

20. Mercury Pollution History in Tropical and Subtropical American Lakes: Multiple Impacts and the Possible Relationship with Climate Change

Author

Handong Yang, Laura Macario-González, Sergio Cohuo, Thomas J. Whitmore, Jorge Salgado, Liseth Peréz, Antje Schwalb, Neil L. Rose, Jonathan Holmes, Melanie A. Riedinger-Whitmore, Philipp Hoelzmann, and Aaron O’Dea

Subjects

Environmental Chemistry, General Chemistry

Published

2023

21. Millennial hydrological variability in the continental northern Neotropics during MIS3-2 inferred from sediments of Lake Petén Itzá, Guatemala

Author

Rodrigo Martínez-Abarca, Michelle Abstein, Philipp Hoelzmann, David Hodell, Mark Brenner, Steffen Kutterolf, Sergio Cohuo, Laura Macario-González, Mona Stockhecke, Jason Curtis, Flavio Anselmetti, Daniel Ariztegui, Thomas Guilderson, Alexander Correa-Metrio, Frederik Schenk, Thorsten Bauersachs, Liseth Pérez, and Antje Schwalb

Abstract

Lake Petén Itzá (Guatemala) possesses one of the longest lacustrine sediment records in the northern Neotropics, which enabled study of paleoclimate variability in the region during the last ∼400 000 years. We used geochemical (Ti, Ca/(Ti+Fe) and Mn/Fe) and mineralogical (carbonates, gypsum, quartz, clay) data from sediment core PI-2 to infer past changes in runoff, lake evaporation, organic matter sources and redox conditions in the water column, caused by hydrological changes in the northern Neotropics during Marine Isotope Stages (MISs) 3–2. From 59 to 39 cal ka BP climate conditions were relatively wet, and the lake was marked by higher primary productivity and anoxic bottom waters. This wet environment was interrupted for two periods of possible low water level at 52 and 46 cal ka BP, when our data suggest higher evaporation, high terrestrial organic matter input and persistent oxic conditions. Between 39 and 23 cal ka BP, evaporation and input of terrestrial organic matter increased considerably, lake level declined, and lake bottom waters generally became oxic. These conditions reversed during the Last Glacial Maximum (23.5–18.0 cal ka BP), when runoff and lake productivity increased, and rising lake level caused bottom waters to again become anoxic. Comparison of our hydrologic proxy data with sea surface temperature anomalies between the eastern Pacific and the Caribbean suggests that changes in the intensity of the Caribbean Low-Level Jet (CLLJ) may have influenced long-term changes in runoff during MISs 3–2. Higher intensity of the CLLJ during the onset of MIS 3 and the LGM might have led to greater runoff into the lake, whereas the MIS 3–2 transition experienced a weaker CLLJ and consequently less runoff. A refined, high-resolution age–depth model for the PI-2 sediment core enabled us to identify millennial-scale Greenland interstadials (GIs) 14–2, Greenland stadials (GSs) 14–2 and Heinrich stadials (HSs) 5–1. In general, HSs and GSs were characterized by drier conditions. In contrast to GSs and HSs, GIs were characterized by greater runoff and overall wetter conditions, with the most pronounced GI peaks between 40 and 30 cal ka BP. Whereas GSs 9, 8, 7 and 6 began with abrupt increases in evaporation and ended with gradual increases in humidity, GSs 11 and 10 showed reversed patterns. The Lake Petén Itzá paleohydrology record, along with other regional paleoclimate records, led us to conclude that shifts in the position of the Intertropical Convergence Zone (ITCZ) altered moisture delivery to the lake on millennial timescales. During GSs and HSs, high evaporation from Petén Itzá (dry climate conditions) was associated with a more southerly position of the ITCZ, whereas wetter GIs prevailed during a more northerly ITCZ position. Although abrupt millennial-scale shifts in ITCZ and hydroclimate between GSs/HSs and GIs can be linked to instabilities in the Atlantic Meridional Overturning Circulation (AMOC), longer-term changes were additionally influenced by changes in atmospheric convection linked to modulations of the CLLJ in response to ΔSST between the equatorial Pacific and tropical Atlantic.

Published

2023

22. Evidence of large water-level variations found in deltaic sediments of a tropical deep lake in the karst mountains of the Lacandon forest, Mexico

Author

Rodrigo Martínez-Abarca, Matthias Bücker, Johannes Hoppenbrock, Adrian Flores-Orozco, Carlos Pita de la Paz, Karoline Fröhlich, Johannes Buckel, Theresia Lauke, Bárbara Moguel, Mauricio Bonilla, Karla Rubio-Sandoval, Paula Echeverría-Galindo, Santiago Landois, Miguel García, Margarita Caballero, Sergio Rodríguez, Wendy Morales, Oscar Escolero, Alexander Correa-Metrio, Marta Wojewódka-Przybył, Anja Schwarz, Kim Krahn, Antje Schwalb, and Liseth Pérez

Subjects

Aquatic Science, Earth-Surface Processes

Abstract

Lake Tzibaná is one of the largest (1.27 km2) and deepest (Zmax = 52 m) karstic lakes in the UNESCO’s Biosphere Reserve “Nahá-Metzabok” and in the Lacandon Forest, southeastern Mexico. It archives sediments from multiple sources and the inflowing Nahá River forms deltaic deposits. In 2019, the water level in Lake Tzibaná declined by ~ 15 m, persisting for 4 months and exposing the Nahá River Delta. A geophysical profile on the exposed delta revealed an accumulation of ~ 20 m of such deposits. Three sediment outcrops from an inactive channel in the Nahá River Delta, which ranged in height from 0.6 to 1.43 m, were sampled and a multi-proxy analysis of biological remains and geochemical variables was conducted. Four facies were observed: (1) massive-coarse sand, (2) fine sand, (3) dark leaf litter and (4) massive silty clay, each characterized by specific microcrustacean, testate amoebae and diatom taxa. Six dark leaf litter horizons were radiocarbon dated and revealed a complex depositional history including inverted ages making the establishment of an age model difficult. Nevertheless, past lake-level changes and the formation of the four facies match three characteristic water-level stages, which can also be observed on recent satellite images: (1) Massive-coarse sand deposits, with compositional and sedimentological characteristics of a shoreline environment and fluvial lateral banks, were formed during large-magnitude reductions in the lake level, similar to the one in 2019, (2) Interbedded layers of fine sand and dark leaf litter, currently found in low-energy fluvial environments, were formed during shorter and less pronounced decrease intervals, and (3) Massive silty clay, with distinctive microorganisms from low-energy lacustrine environments, is deposited during high water-level stages, when the delta is covered by water. Our findings illustrate how hydrological changes alter sedimentary dynamics in deltaic areas of lakes. Despite the complexity of their depositional processes, deltaic records can serve as a complementary source of paleolimnological information to records from distal zones due to their sensitivity to variations in water level, especially during extreme and prolonged desiccation events. Future research should attempt to combine evidences from deltaic and sediment sequences from deeper zones of Lake Tzibaná to reconstruct water-level variations during the entire Holocene. Understanding past lake-level reductions is not only relevant for the local indigenous communities but also crucial for the conservation of this ecosystem of international importance.

Published

2022

23. Imprints of the Little Ice Age and the severe earthquake of AD 2001 on the aquatic ecosystem of a tropical maar lake in El Salvador

Author

Marta Wojewódka-Przybył, Kim J Krahn, Ladislav Hamerlík, Laura Macario-González, Sergio Cohuo, Fernanda Charqueño-Celis, Anaís Cisneros, Philipp Hoelzmann, Handong Yang, Neil L Rose, Edyta Zawisza, Liseth Pérez, and Antje Schwalb

Subjects

Archeology, Global and Planetary Change, Ecology, Paleontology, Earth-Surface Processes

Abstract

Using a 530-year sediment record from the maar Lake Apastepeque, El Salvador, and based on diverse geochemical and biological (cladocerans, chironomids, diatoms, ostracods, testate amoebae) indicators, we estimated climatic and environmental alterations during the Little Ice Age (LIA) and reconstructed the recent history of the lake. Results demonstrate relatively humid conditions in the mid-elevations (500 m a.s.l.) of El Salvador during most parts of the LIA, resulting in high lake levels. Contrarily, the first part of the LIA was characterized by drier climates comparable to studies from Mexico and Belize, which correlated this phase with the Spörer minimum. Regional comparison with palaeorecords from the northern Neotropics reveals a high heterogeneity in local expressions of the LIA in Central America, likely connected to the high topographic heterogeneity of the region. Since the beginning of the 20th century, Lake Apastepeque has experienced enhanced human impact expressed as increased nutrient supply. The most recent period was characterized by significant environmental disturbance, which we relate to an upper-crustal earthquake, one of the strongest over the last 500 years, that affected the region on 13th February 2001 (Mw = 6.6, epicentre at 10 km depth, 30 km from the lake). The release of toxic bottom components such as hydrogen sulphide and high turbidity and turbulence of water caused major species turnover in the lake ecosystem, resulting in a massive fish kill and colonization by large cladocerans. Modern sediments still show slightly altered biota communities compared to pre-earthquake assemblages, indicating that the ecosystem has still not fully recovered.

Published

2022

24. ERRATUM: New estimates of the magnitude of the sea-level jump during the 8.2 ka event

Author

Jonathan Obrist-Farner, Mark Brenner, Jeffery R. Stone, Marta Wojewódka-Przybył, Thorsten Bauersachs, Andreas Eckert, Marek Locmelis, Jason H. Curtis, Susan R.H. Zimmerman, Alex Correa-Metrio, Lorenz Schwark, Edward Duarte, Antje Schwalb, Etienne Niewerth, Paula Gabriela Echeverría-Galindo, and Liseth Pérez

Subjects

Geology

Abstract

Figure 2 of the original article contained an error in the location of some of the radiocarbon dates in Cores 1 and 2. This does not change the main findings of the paper. The corrected figure is below.

Published

2023

25. Chironomid (Insecta: Chironomidae) community structure response to hydrological changes in the mid-1950s in lake Nam Co, Tibetan Plateau

Author

Paula Echeverría‐Galindo, Sonja Rigterink, Julieta Massaferro, Liseth Pérez, Bernd Wünnemann, Philipp Hoelzmann, Wengang Kang, Nicole Börner, Anja Schwarz, Andreas Laug, Ping Peng, Junbo Wang, Liping Zhu, and Antje Schwalb

Subjects

Nam Co, chironomid, Niya Qu, Arts and Humanities (miscellaneous), nutrients, Earth and Planetary Sciences (miscellaneous), 500 Naturwissenschaften und Mathematik::550 Geowissenschaften, Geologie::550 Geowissenschaften, water level, Paleontology, Indian summer monsoon, runoff

Abstract

The recent rise in air temperatures detected at high altitudes of the Tibetan Plateau has accelerated glacier melt and retreat. Moreover, enhanced monsoonal precipitation has increased runoff and transport of allochthonous material to the lakes. Consequently, water levels are rising, modifying the spatial distribution and composition of local aquatic biota. To infer these environmental and biological changes in recent decades, a 30-cm-long sediment core, representing the past ~160 years, from Nam Co, an endorheic lake, was analyzed for subfossil chironomid assemblages and sediment geochemistry. In total, 25 chironomid morphotypes were identified. Nineteen were considered as non-rare taxa (abundances ≥2%) and six as rare taxa (abundances

Published

2023

26. Past, present, and future geo-biosphere interactions on the Tibetan Plateau and implications for permafrost

Author

Todd A. Ehlers, Deliang Chen, Erwin Appel, Tobias Bolch, Fahu Chen, Bernhard Diekmann, Michaela A. Dippold, Markus Giese, Georg Guggenberger, Hui-Wen Lai, Xin Li, Junguo Liu, Yongqin Liu, Yaoming Ma, Georg Miehe, Volker Mosbrugger, Andreas Mulch, Shilong Piao, Antje Schwalb, Lonnie G. Thompson, Zhongbo Su, Hang Sun, Tandong Yao, Xiaoxin Yang, Kun Yang, Liping Zhu, University of St Andrews. School of Geography & Sustainable Development, University of St Andrews. Bell-Edwards Geographic Data Institute, and University of St Andrews. Environmental Change Research Group

Subjects

Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, MCC, GE, Ecology, Permafrost, 3rd-DAS, Management, Degradation, QE Geology, FOS: Biological sciences, ddc:550, SDG 13 - Climate Action, General Earth and Planetary Sciences, Tibetan Plateau, QE, Global change, GE Environmental Sciences

Abstract

Funding: This manuscript resulted from a Workshop in 2019 at the Senckenberg Research Institute and Natural History Museum Frankfurt, Germany, supported by the Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDA20100300). J. Liu also thanks the support of the Henan Provincial Key Laboratory of Hydrosphere and Watershed Water Security. T. Ehlers thanks the California Institute of Technology Moore Distinguished Scholar Program for support in completing this manuscript during a sabbatical. J. Liu and T. Bolch thank the support from the Strategic Priority Research Program of the Chinese Academy of Sciences (grants no. XDA20060402, XDA20100300). We thank the German Science Foundation (DFG) for support of the TiP (Tibetan Plateau: Formation-Climate-Ecoystems) priority research program (SPP-1372) for initiating the collaborations that led to this manuscript. Interactions between the atmosphere, biosphere, cryosphere, hydrosphere, and geosphere are most active in the critical zone, a region extending from the tops of trees to the top of unweathered bedrock. Changes in one or more of these spheres can result in a cascade of changes throughout the system in ways that are often poorly understood. Here we investigate how past and present climate change have impacted permafrost, hydrology, and ecosystems on the Tibetan Plateau. We do this by compiling existing climate, hydrologic, cryosphere, biosphere, and geologic studies documenting change over decadal to glacial-interglacial timescales and longer. Our emphasis is on showing present-day trends in environmental change and how plateau ecosystems have largely flourished under warmer and wetter periods in the geologic past. We identify two future pathways that could lead to either a favorable greening or unfavorable degradation and desiccation of plateau ecosystems. Both paths are plausible given the available evidence. We contend that the key to which pathway future generations experience lies in what, if any, human intervention measures are implemented. We conclude with suggested management strategies that can be implemented to facilitate a future greening of the Tibetan Plateau. Publisher PDF

Published

2022

27. New estimates of the magnitude of the sea-level jump during the 8.2 ka event

Author

Etienne Niewerth, Andreas Eckert, Susan R.H. Zimmerman, Paula Echeverría-Galindo, Liseth Pérez, Jeffery R. Stone, Marek Locmelis, Alexander Correa-Metrio, Lorenz Schwark, Edward Duarte, Marta Wojewódka-Przybył, Jason H. Curtis, Mark Brenner, Thorsten Bauersachs, Antje Schwalb, and Jonathan Obrist-Farner

Subjects

Event (relativity), Jump, Magnitude (mathematics), Geology, Seismology, Sea level

Abstract

We analyzed sediment cores from coastal Lake Izabal, Guatemala, to infer Holocene biogeochemical changes in the lake. At ca. 8370 calibrated yr B.P. (cal. yr B.P.), marine waters entered the lake, which presently lies ~38 km from the Caribbean coast. Temporal correlation between Early Holocene drainage of high-latitude Lakes Agassiz and Ojibway (in North America) and marine flooding of Lake Izabal suggests a causal link between the two processes. Our data indicate a relative sea-level jump of 2.60 ± 0.88 m, which is larger than previous estimates of sea-level rise during the 8.2 ka event. The inferred sea-level jump, however, cannot be explained solely by the volume of water released during drainage of Lakes Agassiz and Ojibway. Instead, we propose that previous studies underestimated the magnitude of Lakes Agassiz and Ojibway discharge, or that additional meltwater sources contributed to global sea-level rise at that time.

Published

2021

28. Supplementary material to 'Millennial hydrological variability in the continental northern Neotropics during MIS3-2 inferred from sediments of Lake Petén Itzá, Guatemala'

Author

Rodrigo Martínez-Abarca, Michelle Abstein, Philipp Hoelzmann, David Hodell, Mark Brenner, Steffen Kutterolf, Sergio Cohuo, Laura Macario-González, Mona Stockhecke, Jason Curtis, Flavio Anselmetti, Daniel Ariztegui, Thomas Guilderson, Alexander Correa-Metrio, Frederik Schenk, Thorsten Bauersachs, Liseth Pérez, and Antje Schwalb

Published

2022

29. Aquatic and terrestrial proxy evidence for Middle Pleistocene palaeolake and lake‐shore development at two Lower Palaeolithic sites of Schöningen, Germany

Author

Julien Pilgrim, Kim J. Krahn, Antje Schwalb, Brigitte Urban, Mario Tucci, Peter Frenzel, Ingeborg Soulié-Märsche, Krahn, Kim J., 1Institute of Geosystems and Bioindication Technische Universität Braunschweig Langer Kamp 19c Braunschweig 38106 Germany, Tucci, Mario, 2Institute of Ecology Landscape Change Leuphana University Lüneburg Universitätsallee 1 Lüneburg 21335 Germany, Urban, Brigitte, Pilgrim, Julien, Frenzel, Peter, 3Institute of Geosciences Friedrich Schiller University Jena Burgweg 11 Jena 07749 Germany, Soulié‐Märsche, Ingeborg, 4Institut des Sciences de l’Évolution (ISE‐M) Université de Montpellier – CNRS Case 061, Place Eugène Bataillon Montpellier 34095 France, and Schwalb, Antje

Subjects

Shore, 551.79, Archeology, geography, Middle Pleistocene, geography.geographical_feature_category, Pleistocene, Geology, medicine.disease_cause, Schöningen, Ecosystems Research, Reinsdorf sequence, pollen, Pollen, aquatic microfossils, medicine, Physical geography, lake-shore development, Proxy (statistics), Ecology, Evolution, Behavior and Systematics

Abstract

The archaeological sites in the open‐cast mine of Schöningen, Germany, represent outstanding archives for understanding Middle Pleistocene interglacial–glacial transitions and human adaption. Aquatic microfossil and pollen assemblages from the ‘Reinsdorf sequence’, likely correlated to Marine Isotope Stage 9, document environmental changes from a thermal maximum to succeeding glacial conditions recorded in two sequences of excavation sites 12 II and 13 II. Multi‐proxy analyses enable detailed reconstruction of lake‐shore and landscape developments despite variable microfossil preservation in changing carbonate‐ and organic‐rich deposits. Rich aquatic vegetation with abundant charophytes suggests repeated phases with water depths of 0.5–2 m at site 13 II, while even greater temporary depths are deduced for 12 II DB. Mesorheophilic and mesotitanophilic ostracod species indicate stream inflows with medium–low calcium contents of >18 mg Ca L–1 originating from nearby springs. Diatoms point to meso‐eutrophic conditions and an alkaline pH of the lake water. Interglacial conditions with thermophile forests but no aquatic microfossils preserved, suggesting a dry or only temporarily flooded site, mark the beginning of the sequence. Continuous presence of aquatic organisms and overall dominance of small tychoplanktonic diatoms during a subsequent cool steppe phase provide evidence for increased water depths and unstable habitats characterized by erosion and probably prolonged periods of lake ice cover. During the succeeding boreal forest‐steppe phase, surface runoff into the productive, shallow lake decreased due to a more extensive vegetation cover. Concurrently, intensified groundwater input in contact with the nearby salt wall caused elevated salinities. Following a lake level drop, stream inflows and lake levels increased again towards the end of the Reinsdorf sequence and promoted development of a diverse fauna and flora at the lake shore; thereby maintaining an attractive living and hunting environment for early humans during a phase of generally cooler temperatures and landscape instability at the transition into a glacial period., Niedersächsisches Ministerium für Wissenschaft und Kultur http://dx.doi.org/10.13039/501100010570, Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Published

2021

30. Ecological turnover in neotropical freshwater and terrestrial communities during episodes of abrupt climate change

Author

Paula Echeverría-Galindo, Alexander Correa-Metrio, Antje Schwalb, Jason H. Curtis, Mona Stockhecke, Thorsten Bauersachs, Mark Brenner, Sergio Cohuo, Frederik Schenk, Steffen Kutterolf, Laura Macario González, and Liseth Pérez

Subjects

010506 paleontology, Climate Research, 010504 meteorology & atmospheric sciences, Ecology, Vegetation, 15. Life on land, 01 natural sciences, Klimatforskning, Detrended correspondence analysis, Arts and Humanities (miscellaneous), 13. Climate action, Paleoclimatology, Abrupt climate change, General Earth and Planetary Sciences, Glacial period, Species richness, Stadial, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The last 85,000 years were characterized by high climate and environmental variability on the Yucatán Peninsula. Heinrich stadials are examples of abrupt climate transitions that involved shifts in regional temperatures and moisture availability. Thus, they serve as natural experiments to evaluate the contrasting responses of aquatic and terrestrial ecosystems. We used ostracodes and pollen preserved in a 75.9-m-long sediment core (PI-6, ~85 ka) recovered from Lake Petén Itzá, Guatemala, to assess the magnitude and velocity of community responses. Ostracodes are sensitive to changes in water temperature and conductivity. Vegetation responds to shifts in temperature and the ratio of evaporation to precipitation. Ostracodes display larger and more rapid community changes than does vegetation. Heinrich Stadial 5-1 (HS5-1) was cold and dry and is associated with lower ostracode and vegetation species richness and diversity. In contrast, the slightly warmer and dry conditions during HS6 and HS5a are reflected in higher ostracode species richness and diversity. Our paleoecological study revealed the greatest ecological turnover for ostracodes occurred from 62.5 to 51.0 ka; for pollen, it was at the Pleistocene/Holocene transition. Future studies should use various climate and environmental indicators from lake and marine sediment records to further explore late glacial paleoclimate causes and effects in the northern neotropics.

Published

2021

31. Three new needle-shaped Fragilaria species from Central America and the Tibetan Plateau

Author

Anja Schwarz, Liseth Pérez, Junbo Wang, Antje Schwalb, Laura Macario-González, Carlos E. Wetzel, Kim J. Krahn, Gerhard Daut, and Sergio Cohuo-Durán

Subjects

geography, Plateau, geography.geographical_feature_category, Plant Science, Biology, biology.organism_classification, Fragilaria, Taxon, Algae, Genus, Crater lake, Botany, Sediment trap, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics

Abstract

Three new needle-shaped Fragilaria species from freshwater lake Apastepeque in El Salvador (Fragilaria salvadoriana sp. nov., F. maarensis sp. nov.) and subsaline lake Nam Co on the Tibetan Plateau (F. huebeneri sp. nov.) are described and compared based on light and scanning electron microscopy observations and morphometric analyses. Fragilaria salvadoriana sp. nov. is characterized by narrowly linear-lanceolate, sometimes centrally constricted valves, subcapitate to rarely capitate apices, and a distinct, dented appearing central area. Striae are composed of 2−5 occluded areolae. It can be differentiated from similar needle-shaped species by the valve outline, relatively low striae density, and shark fin-shaped spines. Characteristic of F. maarensis sp. nov. are a very narrowly lanceolate valve outline and subcapitate apices. The apical pore field is composed of 2–3 rows of poroids and acute, irregularly oriented spines are present at the junction between valve face and mantle. This taxon is clearly different from other Fragilaria species, displaying a high length-to-width ratio and a low number of areolae per stria. The Tibetan species, F. huebeneri sp. nov., forms long ribbon-like colonies linked together by spatula-shaped spines. Valves have subcapitate apices, a spindle- to needle-shaped outline and an indistinct central area. Striae are alternate and composed of 3–5 areolae per stria. Teratological forms of F. huebeneri sp. nov. were commonly observed in the sediment trap samples. Fragilaria salvadoriana sp. nov. and F. maarensis sp. nov. were found in a warm, tropical crater lake characterized by low conductivity and dissolved oxygen content, medium alkaline pH, and magnesium-calcium-bicarbonate-rich waters. Fragilaria huebeneri sp. nov. was frequent in a large, high elevation lake with increased specific conductivity, alkaline pH and sodium-bicarbonate-rich waters. The new species are compared to morphologically similar species from the genus Fragilaria Lyngbye and ecological preferences are discussed.

Published

2021

32. Insights into a remote cryosphere: a multi-method approach to assess permafrost occurrence at the Qugaqie basin, western Nyainqêntanglha Range, Tibetan Plateau

Author

Björn Riedel, Markus Gerke, Johannes Buckel, Fan Zhang, Andreas Hördt, Antje Schwalb, Eike Reinosch, and Roland Mäusbacher

Subjects

lcsh:GE1-350, geography, Plateau, geography.geographical_feature_category, Landform, Global warming, lcsh:QE1-996.5, Structural basin, Permafrost, Article, lcsh:Geology, Interferometric synthetic aperture radar, ddc:55, Cryosphere, Veröffentlichung der TU Braunschweig, Physical geography, Electrical resistivity tomography, Publikationsfonds der TU Braunschweig, Geology, lcsh:Environmental sciences, Earth-Surface Processes, Water Science and Technology, ddc:5

Abstract

Permafrost as a climate-sensitive parameter, its occurrence and distribution plays an important role in the observation of global warming. However, field-based permafrost distribution data and information on the subsurface ice content at the large area of the southern mountainous Tibetan Plateau (TP) is very sparse. Existing models based on boreholes and remote sensing approaches suggest permafrost probabilities for most of the Tibetan mountain ranges. Field data to validate permafrost models are generally lacking because access of the mountain regions in extreme altitudes is limited. The study provides geomorphological and geophysical field data from a north-orientated high-altitude catchment in the western Nyainqentanglha Range. Our multi-method-approach combines (A) geomorphological mapping data, (B) subsurface ice-occurrence derived from electrical resistivity tomography (ERT) data, and (C) multi-annual displacement rates from Interferometric Synthetic Aperture Radar (InSAR) analysis to assess the lower occurrence of the probable permafrost around 5400 m a.s.l. in the Qugaqie basin. Periglacial landforms such as rockglaciers and protalus ramparts are located in the periglacial zone from 5300–5600 a.s.l. The altitudinal periglacial landform distribution is supported by ERT data detecting ice-rich permafrost in a rockglacier at 5500 m a.s.l. and ice lenses around the rockglacier (5450 m a.s.l.). The highest, multiannual displacement rates up to 150 mm/y are observed typically on these rockglaciers. However, seasonality of rockglacier surface displacement like in other high mountain areas is missing. This study closes the gap of unknown state of periglacial features and potential permafrost occurrence in a high-elevated basin at the western Nyainqentanglha Range (Tibetan Plateau) and suppose – compared to other high mountain regions – a higher-elevated permafrost occurrence.

Published

2021

33. Hipercorig – an innovative hydraulic coring system recovering over 60 m long sediment cores from deep perialpine lakes

Author

Flavio S. Anselmetti, Stefano C. Fabbri, Ulrich Harms, Martin Wessels, Volker Wittig, Richard Niederreiter, Sebastian Schaller, Ulli Raschke, Antje Schwalb, and Michael Strasser

Subjects

Mechanical Engineering, lcsh:QE1-996.5, Energy Engineering and Power Technology, Drilling, Sediment, Coring, lcsh:Geology, Water depth, Paleontology, 550 Earth sciences & geology, Deglaciation, Glacial period, Foreland basin, Geology

Abstract

The record of past environmental conditions and changes archived in lacustrine sediments serves as an important element in paleoenvironmental and climate research. A main barrier in accessing these archives is the undisturbed recovery of long cores from deep lakes. In this study, we have developed and tested a new, environmentally friendly coring tool and modular barge, centered around a down-the-hole hydraulic hammering of an advanced piston coring system, called the Hipercorig. Test beds for the evaluation of the performance of the system were two periglacial lakes, Mondsee and Constance, located on the northern edge of the Alpine chain. These lakes are notoriously difficult to sample beyond ∼ 10 m sediment depths due to dense glacial deposits obstructing deeper coring. Both lakes resemble many global lake systems with hard and coarse layers at depth, so the gained experience using this novel technology can be applied to other lacustrine or even marine basins. These two experimental drilling projects resulted in up to 63 m coring depth and successful coring operations in up to 204 m water depth, providing high-quality, continuous cores with 87 % recovery. Initial core description and scanning of the 63 m long core from Mondsee and two 20 and 24 m long cores from Lake Constance provided novel insights beyond the onset of deglaciation of the northern Alpine foreland dating back to ∼ 18 400 cal BP.

Published

2020

34. Increasing lake levels on the central Tibetan Plateau since 1920 CE inferred by a sub-fossil chironomid record from Shen Co

Author

Sonja Rigterink, Paula Echeverría-Galindo, Rodrigo Martínez-Abarca, Julieta Massaferro, Philipp Hoelzmann, Bernd Wünnemann, Andreas Laug, Liseth Pérez, Wengang Kang, Nicole Börner, Anja Schwarz, Ping Peng, Junbo Wang, Liping Zhu, and Antje Schwalb

Abstract

Lakes on the Tibetan Plateau are especially vulnerable to global warming and increasing temperatures but are also sensitive to changes in the atmospheric circulation such as the Westerlies and the Asian Summer Monsoon, which are main drivers of precipitation on the Plateau. Shallow lake environments in such high-altitudinal areas, which are not directly influenced by meltwater supply, are excellent study sites to determine changes in precipitation and evaporation. Here, we present a 300-year high-resolution chironomid record from the high-altitude (> 4,733 m a.s.l.), saline (9 g L-1) and shallow (~ 5 m water depth) lake Shen Co (N 31° 00’, E 90°29’), situated on the southern part of the central Tibetan Plateau. We combined chironomid assemblages with sedimentological, mineralogical and geochemical data from a short sediment core (37.5 cm) to detect hydrological changes since 1830 CE. Our study revealed three different periods in Shen Co: (1) from 1830 until 1920 CE sediments were void of chironomids, suggesting dry conditions leading to low lake levels, high salinity resulting from low runoff and high evaporation rates, supported by increasing Mg/Ca and Sr/Rb ratios of the sediments; (2) a humid phase characterized by the appearance of Acricotopus indet. morphotype incurvatus from 1920 until 1950 CE, indicating rising lake levels caused by higher runoff and decreased evaporation, also supported by sediment analysis with increasing TOC and Ti as well as a decreasing Ca/Ti ratio; and (3) a continuous water level rise from the 1950s onwards with a lake level maximum as well as high macrophyte growth since the beginning of the 21th century, supported by the dominance of Procladius and the phytophilic taxon Psectrocladius sordidellus-type. We compared our results with paleoclimate records from the Tibetan Plateau, based on e.g. ice core δ18O, pollen, tree rings, indicating warmer and wetter climate conditions on the central Tibetan Plateau during the last ~ 100 years. Our findings highlight that chironomid records from shallow lake environments are excellent indicators of lake level variations as well as changes in macrophyte vegetation.

Published

2022

35. Retreat of the Rhine Glacier from Lake Constance: Sedimentological and geochemical evidence from a deep-basin sediment core

Author

Sebastian Schaller, Michael E. Böttcher, Marius W. Buechi, Laura S. Epp, Stefano C Fabbri, Natacha Gribenski, Ulrich Harms, Sebastian Krastel, Alina Liebezeit, Katja Lindhorst, Hanna Marxen, Ulli Raschke, David Schleheck, Iris Schmiedinger, Antje Schwalb, Hendrik Vogel, Martin Wessels, and Flavio S. Anselmetti

Abstract

The modern, over 250-m-deep basin of Lake Constance represents the underfilled northern part of an over 400-m-deep, glacially overdeepened trough, which reaches well into the Alps at its southern end. The overdeepening was formed by repeated glacial advance-retreat cycles of the Rhine Glacier throughout the Middle to Late Pleistocene. A seismic survey of Lake Constance revealed a Quaternary sediment fill of more than 150 m thickness representing at least the last glacial cycle. The stratified sedimentary fill consists at the base of ice-contact deposits on top of the molasse bedrock, overlain by glaciolacustrine to lacustrine sediments. During the successful field test of a newly developed, mid-size coring system ("HIPERCORIG"), the longest core (HIBO19) ever taken in Lake Constance was retrieved with an overall length of 24 m. The sediments recovered consist of a nearly continuous succession of lacustrine silts and sands including more than 12 m of Late Glacial sediment at the base. 14 lithotypes were identified through petrophysical and geochemical analyses. In combination with a 14C- and OSL-based age-depth model, the core was divided into three main chronostratigraphic units. The basal age of ~13.7 ka BP dates the base of the succession back to the Bølling-Allerød interstadial, with overlying strata representing a complete and thick Younger-Dryas to Holocene succession. The sediments offer a high-resolution insight into the evolution of paleo-Lake Constance from a cold, postglacial to a more productive, warm Holocene lake. The Late Glacial succession is dominated by massive, m-thick sand beds reflecting episodic sedimentation pulses. They are most likely linked to a subaquatic channel system originating in the river Seefelder Aach, which is, despite the Holocene drape, still apparent in today's lake bathymetry. The overlying Holocene succession reveals a prominent, several cm-thick, double-turbiditic event layer representing the most distal impact of the Flimser Bergsturz, the largest known rockslide of the Alps that occurred over 100 km upstream the river Rhine at ~9.5 ka BP. Furthermore, lithologic variations in the Holocene succession document the varying sediment loads of the river Rhine and the endogenic production representing a multitude of environmental changes.

Published

2022

36. Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau:Overview and prospects

Author

Weihan Jia, Sten Anslan, Fahu Chen, Xianyong Cao, Hailiang Dong, Katharina Dulias, Zhengquan Gu, Liv Heinecke, Hongchen Jiang, Stefan Kruse, Wengang Kang, Kai Li, Sisi Liu, Xingqi Liu, Ying Liu, Jian Ni, Antje Schwalb, Kathleen R. Stoof-Leichsenring, Wei Shen, Fang Tian, Jing Wang, Yongbo Wang, Yucheng Wang, Hai Xu, Xiaoyan Yang, Dongju Zhang, and Ulrike Herzschuh

Subjects

Archeology, Global and Planetary Change, Sedimentary ancient DNA (sedaDNA), Paleogeography, Taphonomy, Tibetan Plateau, Geology, Environmental DNA, Biodiversity, Paleoecology, Ecology, Evolution, Behavior and Systematics, Ecosystem

Abstract

Alpine ecosystems on the Tibetan Plateau are being threatened by ongoing climate warming and intensified human activities. Ecological time-series obtained from sedimentary ancient DNA (sedaDNA) are essential for understanding past ecosystem and biodiversity dynamics on the Tibetan Plateau and their responses to climate change at a high taxonomic resolution. Hitherto only few but promising studies have been published on this topic. The potential and limitations of using sedaDNA on the Tibetan Plateau are not fully understood. Here, we (i) provide updated knowledge of and a brief introduction to the suitable archives, region-specific taphonomy, state-of-the-art methodologies, and research questions of sedaDNA on the Tibetan Plateau; (ii) review published and ongoing sedaDNA studies from the Tibetan Plateau; and (iii) give some recommendations for future sedaDNA study designs. Based on the current knowledge of taphonomy, we infer that deep glacial lakes with freshwater and high clay sediment input, such as those from the southern and southeastern Tibetan Plateau, may have a high potential for sedaDNA studies. Metabarcoding (for microorganisms and plants), metagenomics (for ecosystems), and hybridization capture (for prehistoric humans) are three primary sedaDNA approaches which have been successfully applied on the Tibetan Plateau, but their power is still limited by several technical issues, such as PCR bias and incompleteness of taxonomic reference databases. Setting up high-quality and open-access regional taxonomic reference databases for the Tibetan Plateau should be given priority in the future. To conclude, the archival, taphonomic, and methodological conditions of the Tibetan Plateau are favorable for performing sedaDNA studies. More research should be encouraged to address questions about long-term ecological dynamics at ecosystem scale and to bring the paleoecology of the Tibetan Plateau into a new era.

Published

2022

37. Geodiversity influences limnological conditions and freshwater ostracode species distributions across broad spatial scales in the northern Neotropics

Author

Laura Macario-González, Sergio Cohuo, Philipp Hoelzmann, Liseth Pérez, Manuel Elías-Gutiérrez, Margarita Caballero, Alexis Oliva, Margarita Palmieri, María Renée Álvarez, and Antje Schwalb

Subjects

influence, Geodiversity, northern Neotropics, 500 Naturwissenschaften und Mathematik::550 Geowissenschaften, Geologie::550 Geowissenschaften, ddc:55, ddc:550, Veröffentlichung der TU Braunschweig, Publikationsfonds der TU Braunschweig, Ecology, Evolution, Behavior and Systematics, Article, Earth-Surface Processes, ddc:5

Abstract

Geodiversity is recognized as one of the most important drivers of ecosystem characteristics and biodiversity globally. However, in the northern Neotropics, the contribution of highly diverse landscapes, environmental conditions, and geological history in structuring large-scale patterns of aquatic environments and aquatic species associations remains poorly understood. We evaluated the relationships among geodiversity, limnological conditions, and freshwater ostracodes from southern Mexico to Nicaragua. A cluster analysis (CA), based on geological, geochemical, mineralogical, and water-column physical and chemical characteristics of 76 aquatic ecosystems (karst, volcanic, tectonic) revealed two main limnological regions: (1) karst plateaus of the Yucatán Peninsula and northern Guatemala, and (2) volcanic terrains of the Guatemalan highlands, mid-elevation sites in El Salvador and Honduras, and the Nicaraguan lowlands. In addition, seven subregions were recognized, demonstrating a high heterogeneity of aquatic environments. Principal component analysis (PCA) identified water chemistry (ionic composition) and mineralogy as most influential for aquatic ecosystem classification. Multi-parametric analyses, based on biological data, revealed that ostracode species associations represent disjunct faunas. Five species associations, distributed according to limnological regions, were recognized. Structural equation modeling (SEM) revealed that geodiversity explains limnological patterns of the study area. Limnology further explained species composition, but not species richness. The influence of conductivity and elevation were individually evaluated in SEM and were statistically significant for ostracode species composition, though not for species richness. We conclude that geodiversity has a central influence on the limnological conditions of aquatic systems, which in turn influence ostracode species composition in lakes of the northern Neotropical region.

Published

2022

38. Supplementary material to 'Geodiversity primarily shapes large-scale limnology and aquatic species distribution in the northern Neotropics'

Author

Laura Anahí Macario-González, Sergio Cohuo, Philipp Hoelzmann, Liseth Pérez, Manuel Elías-Gutiérrez, Margarita Caballero, Alexis Oliva, Margarita Palmieri, María Reneé Álvarez, and Antje Schwalb

Published

2021

39. Geodiversity primarily shapes large-scale limnology and aquatic species distribution in the northern Neotropics

Author

Laura Anahí Macario-González, Sergio Cohuo, Philipp Hoelzmann, Liseth Pérez, Manuel Elías-Gutiérrez, Margarita Caballero, Alexis Oliva, Margarita Palmieri, María Reneé Álvarez, and Antje Schwalb

Abstract

Geodiversity is recognized as one of the most important drivers of ecosystems characteristics and biodiversity globally. However, in the northern Neotropics, the contribution of highly diverse landscapes and geological history in structuring large-scale patterns of limnology and aquatic species associations remain poorly understood. We evaluate the interaction between geodiversity, limnology and freshwater ostracode assemblages to explore drivers of aquatic ecosystem structure from southern Mexico to Nicaragua. Cluster analysis based on geological, limnological, sedimentological and mineralogical characteristics of 76 aquatic ecosystems (karst, volcanic, tectonic) reveal two main limnological regions: (1) Karst terraces from the Yucatán Peninsula and northern Guatemala, and (2) volcanic terrains of the Guatemalan highlands, El Salvador and Honduras mid-elevations, and Nicaraguan lowlands. In addition, seven limnological subregions were recognized, attesting high limnological heterogeneity. Principal Component Analysis identifies water ionic and sediment composition as most influential for aquatic ecosystem classification and given their source of formation, we recognized geology as the fundamental determinant for large-scale limnological patterns. Multiparametric analyses based on biological data revealed that species association represent disjunct faunas. For instance, five species associations are closely related to limnological regions. Structural equation modelling reveals a strong influence of limnology and elevation on the biological composition, but geodiversity resulted in the most important driver. The confinement of species associations is attributed to regional lake geochemistry. We deduce a linear, continuous and primary influence of geodiversity for limnological structure, geochemical properties and aquatic biological composition in Lakes of the northern Neotropical region.

Published

2021

40. Eemian landscape response to climatic shifts and evidence for northerly Neanderthal occupation at a palaeolake margin in Northern Germany

Author

Sabine Dietel, Marie Kaniecki, Tobias Lauer, Thomas Kasper, Philipp Hoelzmann, Michael Hein, Antje Schwalb, Brigitte Urban, Marcel Weiss, Mario Tucci, Jonathan Schultz, Hans von Suchodoletz, David C. Tanner, Anton Hermann Buness, Urban, Brigitte, 2 Institute of Ecology Leuphana University of Lüneburg Lüneburg Germany, Tanner, David Colin, 3 Section 1: Seismic, Gravimetry, and Magnetics Leibniz Institute for Applied Geophysics Hannover Germany, Buness, Anton Hermann, Tucci, Mario, Hoelzmann, Philipp, 4 Institute for Geographical Sciences Freie Universität Berlin Berlin Germany, Dietel, Sabine, 5 Institute for Geosciences and Geography Martin Luther University Halle‐Wittenberg Halle Germany, Kaniecki, Marie, 1 Department of Human Evolution Max Planck Institute for Evolutionary Anthropology Leipzig Germany, Schultz, Jonathan, Kasper, Thomas, 6 Institute for Geography Friedrich Schiller University Jena Jena Germany, von Suchodoletz, Hans, 7 Department of Geography, Faculty of Physics and Geosciences University of Leipzig Leipzig Germany, Schwalb, Antje, 8 Institute of Geosystems and Bioindication Technical University Braunschweig Braunschweig Germany, and Lauer, Tobias

Subjects

landscape evolution, Eemian, Neanderthal, Thermoluminescence dating, biology, ddc:551, Geography, Planning and Development, Eemian interglacial, Neanderthal occupation, Paleontology, ddc:554.3, pollen analysis, paleolake, Margin (machine learning), biology.animal, 500 Naturwissenschaften und Mathematik::550 Geowissenschaften, Geologie::550 Geowissenschaften, luminescence dating, Earth and Planetary Sciences (miscellaneous), Biology, eemian interglacia, Geology, Earth-Surface Processes

Abstract

The prevailing view suggests that the Eemian interglacial on the European Plain was characterized by largely negligible geomorphic activity beyond the coastal areas. However, systematic geomorphological studies are sparse. Here we present a detailed reconstruction of Eemian to Early Weichselian landscape evolution in the vicinity of a small fingerlake on the northern margin of the Salzwedel Palaeolake in Lower Saxony (Germany). We apply a combination of seismics, sediment coring, pollen analysis and luminescence dating on a complex sequence of colluvial, paludal and lacustrine sediments. Results suggest two pronounced phases of geomorphic activity, directly before the onset and at the end of the Eemian period, with an intermediate period of pronounced landscape stability. The dynamic phases were largely driven by incomplete vegetation cover, but likely accentuated by fluvial incision in the neighbouring Elbe Valley. Furthermore, we discovered Neanderthal occupation at the lakeshore during Eemian pollen zone (PZ) E IV, which is chronologically in line with other known Eemian sites of central Europe. Our highly‐resolved spatio‐temporal data substantially contribute to the understanding of climate‐induced geomorphic processes throughout and directly after the last interglacial period. It helps unraveling the landscape dynamics between the coastal areas to the north and the loess belt to the south., Two phases of channel incision at the Saalian‐Eemian transition and in the late Eemian. Incisions closely followed by rising water tables. Long‐lasting phase of geomorphic stability in the mid‐Eemian, characterized by: very dense forest cover. the formation of a fingerlake within the paleochannel with gradually sinking water table. no influx of clastic sediments, but deposition of peat and lake‐marl deposits., Max‐Planck‐Gesellschaft http://dx.doi.org/10.13039/501100004189

Published

2021

41. Morphological diversity and discrimination tools of the non-marine ostracod Cypridopsis silvestrii across temporal and spatial scales from Patagonia

Author

Marta Ines Alperin, Daniel Ariztegui, Lorena Yésica Ramos, Gabriela Catalina Cusminsky, Alejandra Patricia Perez, Antje Schwalb, and Corina Anabel Coviaga

Subjects

Science, Ostracoda, Biology, Paleontología, Valve, Posterior margin, Crustacea, Ostracod, ddc:550, Patagonia, Animals, Ciencias Naturales, morphological variability, Transect, Multidisciplinary, Outline analysis, Fossils, Ecology, Reproduction, biology.organism_classification, Taxon, Multivariate Analysis, Paleoecology, Female, Taxonomy (biology), Water conductivity, valve outline analysis, Cypridopsis silvestrii

Abstract

Geometric morphometric methods are powerful tools to discriminate between closely related ostracods taxa as well as to study the relationship between their morphological variations, taxonomy and paleoecology. In this study, valve outline analysis allows the discrimination between the non-marine ostracod C. silvestrii and R. whatleyi juveniles, pointing out differences in the posterior valve area and surface ornamentation. Modern female specimens of C. silvestrii from 23 sites located in a spatial transect (41 to 51 °S) exhibited extensive morphological variability, on the basis of which three morphotypes (acuminated, transitional, subtruncated) were determined. Multivariate analyses showed that acuminated and transitional shapes are not arranged in groups but the subtruncated morphotype, previously described as E. cecryphalium, seems to be associated with low water conductivity (372 µS cm-1), dominant cold (5 oC) and windy (8.6 m s-1) climatic conditions. The fossil cluster which included nine cores spanning the last 15.6 kyr, only covered acuminated and transitional shapes, which may indicate that these lineages might be older than the subtruncated morphotype. In addition, morphological differences between reproduction modes suggested that parthenogenetic females exhibit de posterior margin more acuminate than sexual females. These results set the ground for more precise ecological and paleoenvironmental studies in Patagonia., Facultad de Ciencias Naturales y Museo

Published

2021

42. Changes in ostracod assemblages and morphologies during lake‐level variations of Lago Cardiel (49°S), Patagonia, Argentina, over the last 15.6 ka

Author

Antje Schwalb, Gabriela Catalina Cusminsky, Marta Ines Alperin, Daniel Ariztegui, Vera Markgraf, and Lorena Yésica Ramos

Subjects

010506 paleontology, Archeology, GEOMETRIC MORHOMETRY, 010504 meteorology & atmospheric sciences, Argentina, QUATERNARY, 01 natural sciences, Paleontología, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Ostracod, ddc:550, Patagonia, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, OSTRACODA, biology, Geology, biology.organism_classification, Archaeology, Ostracodes, Lake Cardiel, LAGO CARDIEL, INSTRAESPECIFIC MORPHOLOCAL VARIABILITY, Quaternary, CIENCIAS NATURALES Y EXACTAS

Abstract

Changes in the ostracod assemblages from two sediment cores collected from Lago Cardiel in southeastern Patagonia (49°S) reflect the main regional abrupt climatic changes over the last 15.6 cal. ka BP. Shifts in species abundance and switches in dominances suggest that these were mainly driven by variable salinity. During the Late Pleistocene, Limnocythere rionegroensis was abundant and dominant, indicating waters with high salinity and prevalence of evaporative processes. Between 12.6 and 10.8 cal. ka BP, Lago Cardiel expanded markedly and reached an Early Holocene highstand of +55 m above present lake level. A major change in ostracod assemblage in which Limnocythere patagonica appears as the dominant species in parallel with the disappearance of L. rionegroensis and Eucypris aff. cecryphalium mirrored this transitional period between the cold and dry Late Pleistocene and the humid and warm Early Holocene. Over the last 4 cal. ka BP, L. rionegroensis returned to the species assemblage and Riocypris whatleyi increased its abundance pointing towards increasing salinities. The variations in size, shape and ornamentation of L. rionegroensis and R. whatleyi fossil valves were examined using geometric morphometric techniques and further compared to those of modern Patagonian sites. Limnocythere rionegroensis specimens displayed high morphological variability during the evolution of Lago Cardiel. More specifically, the switch in reproductive mode – from sexual to parthenogenetic– and the increase in valve ornamentation around 12.7 cal. ka BP suggest that these changes were promoted by the hydrological alteration that occurred in the Late Pleistocene. This exercise provides a robust range of morphological variation for these proxies, which will be useful in further taxonomic and palaeoenvironmental studies adding more information about different factors influencing the observed morphological trends. Fil: Ramos, Lorena Yésica. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina Fil: Alperin, Marta Ines. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo; Argentina Fil: Schwalb, A.. Technische Universität Braunschweig. Institut für Geosysteme und Bioindikation; Alemania Fil: Markgraf, Vera. University of Colorado; Estados Unidos Fil: Ariztegui, Daniel. Universidad de Ginebra; Suiza Fil: Cusminsky, Gabriela Catalina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina

Published

2019

43. High‐throughput identification of non‐marine Ostracoda from the Tibetan Plateau: Evaluating the success of various primers on sedimentary DNA samples

Author

Sten Anslan, Miguel Vences, Wengang Kang, Nicole Börner, Liping Zhu, Anja Schwarz, Antje Schwalb, Ping Peng, Sven Künzel, Peter Frenzel, Liseth Pérez, Paula Echeverría-Galindo, and Junbo Wang

Subjects

Computational biology, Biology, Article, Microbial ecology, chemistry.chemical_compound, Genetics, GE1-350, Veröffentlichung der TU Braunschweig, ostracodes, Throughput (business), Ecology, Evolution, Behavior and Systematics, ddc:5, geography, Plateau, geography.geographical_feature_category, Ecology, QR100-130, sediment sample, sample size, Environmental sciences, ddc:57, chemistry, primer design, metabarcoding, ddc:55, Sedimentary rock, Identification (biology), Publikationsfonds der TU Braunschweig, sedDNA, DNA

Abstract

Dwelling in a variety of aquatic habitats, one of the most abundant groups of microcrustaceans, ostracodes, are widely used indicator organisms in paleolimnological research. Typically, they are identified via traditional methods using morphological features but this may be excessively time‐consuming and prone to inter‐investigator variation. DNA barcoding and metabarcoding have become important tools for specimen identification, with a great impact in the field of taxonomy, (paleo‐)ecology and evolution. Despite its potential, metabarcoding has been rarely used to analyze the community structure of ostracodes. Here, we evaluate the performance of a metabarcoding approach for ostracode identification in surface sediment samples collected from Lake Nam Co on the Tibetan Plateau. We tested six different primer pairs amplifying fragments of three different genes, and compared their success in inferring ostracode communities, coupled with morphological identification of ostracodes from the same sediment samples. In total, depending on the primer pair used, seven to nineteen ostracode amplicon sequence variants (ASVs) were identified. Via microscopy, eight morphospecies were identified. We found considerable differences between primer pairs in yielding ostracode sequences via metabarcoding. In general, the highest proportions of ostracode reads and ASVs were found with primers amplifying fragments of the 18S rRNA gene, whereas primers for COI gene had the highest in silico amplification success and highest sequencing depth per sample but only contained

Published

2021

44. Rock glacier inventory of the western Nyainqêntanglha Range, Tibetan Plateau, supported by InSAR time series and automated classification

Author

Markus Gerke, Eike Reinosch, Antje Schwalb, Qinghua Ye, Björn Riedel, and Johannes Buckel

Subjects

Series (stratigraphy), geography, geography.geographical_feature_category, Plateau, Elevation, Rock glacier, Permafrost, Article, Interferometric synthetic aperture radar, ddc:55, Veröffentlichung der TU Braunschweig, Satellite imagery, Physical geography, Publikationsfonds der TU Braunschweig, Mountain range, Geology, ddc:5, Earth-Surface Processes

Abstract

The western Nyainqêntanglha Range on the Tibetan Plateau reaches an elevation of 7,162 m and is characterized by an extensive periglacial environment under semi-arid climatic conditions. Rock glaciers play an important part of the water budget in high mountain areas and recent studies suggest that they may even act as climate-resistant water storages. In this study we present the first rock glacier inventory of this region containing 1,433 rock glaciers over an area of 4,622 km. To create the most reliable inventory we combine manually created rock glacier outlines with an automated classification approach. The manual outlines were generated based on surface elevation data, optical satellite imagery and a surface velocity estimation. This estimation was generated via InSAR time series analysis with Sentinel-1 data from 2016 to 2019. Our pixel-based automated classification was able to correctly identify 87.8% of all rock glaciers in the study area at a true positive rate of 69.5%. In total, 65.9% of rock glaciers are classified as transitional with surface velocities of 1–10 cm/yr. In total, 18.5% are classified as active with higher velocities of up to 87 cm/yr. The southern windward side of the mountain range contains more numerous and more active rock glaciers. We attribute this to higher moisture availability supplied by the Indian Monsoon.

Published

2021

45. A heterocyte glycolipid-based calibration to reconstruct past continental climate change

Author

Thomas W. Evans, Antje Schwalb, Lorenz Schwark, James M. Russell, and Thorsten Bauersachs

Subjects

Geologic Sediments, 010504 meteorology & atmospheric sciences, Climate Change, Science, General Physics and Astronomy, Climate change, Fresh Water, Cyanobacteria, Palaeoclimate, 010502 geochemistry & geophysics, Tanzania, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, Proxy (climate), Projection and prediction, Limnology, Glacial period, Relative species abundance, 0105 earth and related environmental sciences, Multidisciplinary, Geography, Temperature, Sediment, General Chemistry, Biogeochemistry, Radiative forcing, Lakes, Oceanography, Calibration, Period (geology), Freshwater ecology, Environmental science, Glycolipids, Surface water

Abstract

Understanding Earth’s response to climate forcing in the geological past is essential to reliably predict future climate change. The reconstruction of continental climates, however, is hampered by the scarcity of universally applicable temperature proxies. Here, we show that heterocyte glycolipids (HGs) of diazotrophic heterocytous cyanobacteria occur ubiquitously in equatorial East African lakes as well as polar to tropical freshwater environments. The relative abundance of HG26 diols and keto-ols, quantified by the heterocyte diol index (HDI26), is significantly correlated with surface water temperature (SWT). The first application of the HDI26 to a ~37,000 year-long sediment record from Lake Tanganyika provides evidence for a ~4.1 °C warming in tropical East Africa from the last glacial to the beginning of the industrial period. Given the worldwide distribution of HGs in lake sediments, the HDI26 may allow reconstructing SWT variations in polar to tropical freshwater environments and thereby quantifying past continental climate change., Understanding the past is necessary to comprehend Earth’s response to present climate change, but past climate reconstruction is hampered by a lack of temperature proxies. Here the authors develop the HDI26, a proxy using cyanobacterial glycolipids to reconstruct water temperatures of lakes worldwide.

Published

2021

46. Retreat of the Rhine Glacier from Lake Constance: Sedimentological and geochemical evidences from a deep lake-basin drillhole

Author

Laura S. Epp, Antje Schwalb, David Schleheck, Martin Wessels, Iris Schmiedinger, Marius W. Buechi, Michael E. Boettcher, Katja Lindhorst, Natacha Gribenski, Ulli Raschke, Stefano C. Fabbri, Sebastian Krastel, Sebastian Schaller, Hendrik Vogel, Ulrich Harms, Flavio S. Anselmetti, and Alina Liebezeit

Subjects

geography, geography.geographical_feature_category, Lake basin, Geochemistry, Glacier, Geology

Abstract

The modern basin of trinational Lake Constance, between Switzerland, Germany, and Austria, represents the underfilled northern part of a glacially overdeepened trough. It is over 400 m deep and reaches well into the Alps at its southern end. The overdeepening was formed by the numerous glacial advance-retreat cycles of the Rhine Glacier throughout the Middle to Late Quaternary. A seismic survey of Lake Constance revealed a Quaternary sediment fill of over 150 m thickness under the modern lake floor in a maximal water depth of >250 m. This sedimentary sequence represents at least the last glacial cycle with ice-contact deposits at the base on top of the Molasse bedrock overlain by glaciolacustrine to lacustrine sediments. During the successful field test of a newly developed mid-size coring system ("HIPERCORIG"), the longest core ever taken in Lake Constance was recovered with an overall length of 24 m. The drill core, taken in a water depth of 200 m, consists of a nearly continuous succession of lacustrine sediments including over 12 m of pre-Holocene sediment at the base. The entire core was petrophysically and geochemically analyzed, sedimentologically described, and 14 lithotypes were identified. In combination with a 14C- and OSL-based age-depth model, the core was divided into three main chronostratigraphic units. The basal age of ~13.7 ka BP places the base of the section back into the Bølling-Allerød interstadial whereas the overlying strata represent a complete Younger-Dryas and Holocene section.The sediments offer a high-resolution insight into the evolution of Paleolake Constance from a cold postglacial to a more productive warm Holocene lake. The Late Glacial sections are dominated by massive, m-thick sand beds reflecting episodic sedimentation pulses. They are most likely linked with a subaquatic channel system that is still apparent in today's lake bathymetry despite the Holocene drape. This channel system was fed from a Late Glacial river from the north; provenance analysis of the initially unexpected sands together with hydrologic considerations will document whether this inflowing high-discharge river represented a local catchment (i.e. northern lake shore) or an Alpine signal (i.e. from the south) provided by the Rhine glacier. Tentative pore water hydrogeochemical and isotope analyses indicate a still active flow system at depth. The overlying Holocene section reveals a prominent, several cm-thick double-turbiditic event layer representing the most distal impact of the "Flimser Bergsturz", the largest known rock slide of the Alps that occurred over 100 km upstream the Rhine River at ~9.5 ka BP. Furthermore, lithologic variations in the Holocene section document the varying sediment load of the Rhine and of the endogenic production representing a multitude of environmental changes.

Published

2021

47. Impact of urban development on waterbodies during medieval and early modern ages in Bad Waldsee (Germany)

Author

Matthias Hinderer, Elena Marinova, Kristin Haas, Antje Schwalb, Rik Tjallingii, Kim J. Krahn, Sara Saeidi Ghavi Andam, and Manfred Rösch

Subjects

Geography, Urban planning, Socioeconomics

Abstract

Seasonally laminated lacustrine sediments of Lake Stadtsee, located in the city of Bad Waldsee (Southern Germany), offer a continuous archive that allows a unique and yearly correlation of sedimentary signals and historic documents since medieval times. Comparison of the economic and environmental history of an urban centre will provide detailed insight into how the history of a city and its periphery region affected lake development and water quality, and how fast water quality and aquatic ecosystem recovered from human impact and activities. An interdisciplinary research team consisting of geologists, biologists, and historians from various universities and institutions has been established and started its work recently. The common goal of the different working groups and disciplines is to investigate temporally highly resolved sediment records of diatom and pollen spectra, geochemical proxies, and sediment facies of profundal sediment cores from Lake Stadtsee and to compare and calibrate these results with historic documents, stock books, archive records, dendrochronology records, and maps. So far, continuous geochemical sediment records of Lake Stadtsee were acquired non-destructively using X-ray fluorescence (XRF) core scanning. These element intensity records of the major elements (e.g. Al, Si, K, Ca, Ti, Fe) were measured every 2 mm. Sampling and subsequent analyses (e.g. pollen, PAH, isotopes) are ongoing.Overall, the environmental impact of socio-economic development for the preindustrial development phase of a city from AD 1200 to 1800 will be assessed for the first time. The research will focus on the effects of population growth or decrease, farming intensity, economic production, trade activity in relation to environmental, and climate change, including catastrophic events such as fires and floods. The results will provide important insights about the response of urban surface waters to changing emissions of the city and the long-term behaviour of persistent pollutants on lakes. The project will thereby contribute to the knowledge of historic human impact on the environment in Germany, pre-medieval reference conditions, and the limits of resilience of aquatic systems. Thus, it will target the past environmental footprint of anthropogenic induced events on urbanized lake ecosystems and help to understand the mechanism behind such processes in the future.

Published

2021

48. Inventory of active rock glaciers in the western Nyainqêntanglha Range, Tibetan Plateau

Author

Björn Riedel, Johannes Buckel, Markus Gerke, Eike Reinosch, Qinghua Ye, and Antje Schwalb

Subjects

geography, Plateau, geography.geographical_feature_category, Range (biology), Rock glacier, Physical geography, Geology

Abstract

The western Nyainqêntanglha Range on the Tibetan Plateau (TP) reaches an elevation of 7162 m and is characterized by an extensive periglacial environment. Here, we present the first rock glacier inventory of the central TP containing 1433 rock glaciers over an area of 4622 km². The rock glaciers are identified based on their surface velocity. The surface velocity is derived from Sentinel-1 satellite data of 2016 to 2019 via InSAR time series analysis. 16.4 % of the inventoried rock glaciers are classified as active with a surface velocity above 10 cmyr-1 and 80.0 % are classified as transitional with 1 to 10 cmyr-1. The western Nyainqêntanglha Range forms a climate divide between the dry continental climate brought by the Westerlies from the north-west and the Indian Summer Monsoon to the south. 89.7 % of all active rock glaciers and 74 % of the free ice glacial area are located on the southern side. The higher moisture availability on the southern (windward) side of the mountain range is likely the cause of a higher rock glacier occurrence and the greater activity.Manually identifying and outlining rock glaciers is time consuming and subjective. To ensure a high reliability and comparability of our inventory, we therefore combined a manual approach with an automated classification. Three analysts worked in tandem to generate the manual outlines according to the guidelines of the IPA action group on ‘Rock glacier inventories and kinematics’. A subset of these outlines acted as training areas for a pixel-based maximum likelihood classification. Both the manual and the automated classification were performed based on DEM parameters (elevation, slope etc.), optical datasets (Sentinel-2 and NDVI) and surface velocity (generated with InSAR). 87.8 % of all manually outlined rock glaciers were identified successfully at a true positive rate of 69.5 %. 18 additional rock glaciers were added to the inventory based on the automated classification. This combined approach is therefore beneficial to generate a complete inventory. The automated classification can, however, not replace the expertise of an analyst as it greatly overestimates the actual rock glacier area.

Published

2021

49. Diatom metabarcoding and microscopic analyses from sediment samples at Lake Nam Co, Tibet: The effect of sample-size and bioinformatics on the identified communities

Author

Anja Schwarz, Robin Schmidt, Sven Künzel, Wengang Kang, Junbo Wang, Patrick Rioual, Antje Schwalb, Miguel Vences, Sten Anslan, Paula Echeverría-Galindo, and Nicole Börner

Subjects

0106 biological sciences, Bioinformatics, Sequencing data, General Decision Sciences, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Tibetan Plateau, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 0105 earth and related environmental sciences, Diatoms, biology, Ecology, fungi, Sediment, biology.organism_classification, DNA extraction, Sequence identity, Water depth, Diatom, Metabarcoding, Taxonomy (biology), sedDNA, Bioindicator

Abstract

Diatoms (Bacillariophyceae) are characterized by silicified cell walls that favor their long-term preservation in sediments, therefore widely used as bioindicators of present and past water conditions. Alongside with traditional morphological analyses, metabarcoding has become a valuable tool to study the community structures of various organisms, including diatoms. Here, we test whether the quantity of sediment sample used for DNA extraction affects the results obtained from high-throughput sequencing (metabarcoding) of the diatom rbcL region by isolating DNA from 10 g and 0.5 g (wet weight) of lake surface sediment samples. Because bioinformatics processing of metabarcoding data may affect the outcome, we also tested the consistency of the results from three different pipelines: 1) ESVs (exact sequence variants) pipeline; 2) clustering sequences at 95% sequence identity to form OTUs (operational taxonomic units; 95% OTUs); and 3) 97% OTUs pipeline. Additionally, the agreement between metabarcoding data and morphological inventories of corresponding samples were compared. Our results demonstrate highly uniform patterns between the diatom rbcL amplicons from 10 g and 0.5 g of sedimentary DNA (sedDNA) extracts (HTS 10 and HTS 0.5, respectively). Furthermore, after the careful curation of the sequencing data, metabarcoding results were highly consistent among the data sets produced by different bioinformatics pipelines. Comparing results from metabarcoding and microscopy, we identified some taxonomic mismatches: morphological analyses identified 59 diatom genera, whereas metabarcoding 49 to 54 genera. These mismatches are related to incompleteness of the sequence databases, but also to inconsistencies in diatom taxonomy in general and potential dissolution effects of diatom valves caused by high alkalinity of the investigated lake waters. Nevertheless, multivariate community analysis revealed consistent results between data sets identified by microscopy and metabarcoding – water depth and conductivity as the most significant variables in driving diatom communities in Lake Nam Co – further confirming that metabarcoding is a viable method for identifying diatom-environment relationships.

Published

2021

50. How Changes of Past Vegetation and Human Impact Are Documented in Lake Sediments: Paleoenvironmental Research in Southwestern Germany, a Review

Author

Angelika Kleinmann, Manfred Rösch, Lucia Wick, Karl-Heinz Feger, Matthias Hinderer, Gegeensuvd Tserendorj, Lucas Kämpf, Antje Schwalb, Elske Fischer, Elena Marinova, and Jutta Lechterbeck

Subjects

Geography, Environmental change, Period (geology), Context (language use), Vegetation, Physical geography, Landscape history, Foreland basin, Holocene, Natural (archaeology)

Abstract

During the last four decades, sediment cores were collected from the deepest zones of >30 small lakes in south-west Germany to investigate archaeological questions about settlement and land use history in Central Europe. The primary aim was to establish well-dated pollen profiles with very high temporal resolution. A major focus was to reconstruct the extent and intensity of land clearing during the Neolithic, the Iron Age, the Roman Period as well as through the Medieval timeframe in context with intermittent recovery periods during political and economic crises. In southwestern Germany, lake sites are not evenly distributed, but rather restricted to the formerly glaciated landscapes of the Northern Alpine foreland, including Lake Constance and the Black Forest. The most important results are as follows: 1. Central basinal sediments of small lakes are the best archives to study environmental change, past human impact, and vegetation. 2. The lakes reflect the environment and its change, triggered by natural and anthropogenic factors. 3. Lakes in areas with silicic bedrock have much lower sedimentation rates than lakes in the carbonate-rich North Alpine foreland in Germany. 4. Human impact causes sedimentation rates to increase by different rates, depending on the magnitude of impact and system sensitivity; in most cases, lamination disappears from the sedimentary record. 5. The small lakes integrate local landscape history, whereas the larger lakes integrate over larger catchments and record regional signals. 6. During the Late Weichselian and early Holocene, the landscape history of Southwestern Germany was rather uniform on a regional scale. 7. Landscape history from the middle Holocene onwards was more and more impacted by man, resulting in a variety of local and regional effects that are recorded in these lakes. 8. Overall, climate and natural factors determined the environmental settings, and people preferred regions with fertile soils and warm climate for settling and farming.

Published

2021