Your search keyword '"Sebastian Teichert"' showing total 20 results

1. Editorial: Crustose coralline red algae frameworks and rhodoliths: Past and present

Author

Ana Cristina Rebelo, Sebastian Teichert, Valentina A. Bracchi, Michael W. Rasser, and Daniela Basso

Subjects

calcareous algae, algal lithofacies, bioconstructions, palaeobiogeography, palaeoenvironments, maerl, Science

Published

2022

2. Microplastic contamination of the drilling bivalve Hiatella arctica in Arctic rhodolith beds

Author

Sebastian Teichert, Martin G. J. Löder, Ines Pyko, Marlene Mordek, Christian Schulbert, Max Wisshak, and Christian Laforsch

Subjects

Medicine, Science

Abstract

Abstract There is an increasing number of studies reporting microplastic (MP) contamination in the Arctic environment. We analysed MP abundance in samples from a marine Arctic ecosystem that has not been investigated in this context and that features a high biodiversity: hollow rhodoliths gouged by the bivalve Hiatella arctica. This bivalve is a filter feeder that potentially accumulates MPs and may therefore reflect MP contamination of the rhodolith ecosystem at northern Svalbard. Our analyses revealed that 100% of the examined specimens were contaminated with MP, ranging between one and 184 MP particles per bivalve in samples from two water depths. Polymer composition and abundance differed strongly between both water depths: samples from 40 m water depth showed a generally higher concentration of MPs and were clearly dominated by polystyrene, samples from 27 m water depth were more balanced in composition, mainly consisting of polyethylene, polyethylene terephthalate, and polypropylene. Long-term consequences of MP contamination in the investigated bivalve species and for the rhodolith bed ecosystem are yet unclear. However, the uptake of MPs may potentially impact H. arctica and consequently its functioning as ecosystem engineers in Arctic rhodolith beds.

Published

2021

3. Erfolgreich Forschen durch Kooperation. Verknüpfung hochschuleigener Informationsstrukturen zu einem zentralen Service für Forschende

Author

Markus Putnings and Sebastian Teichert

Subjects

Forschungsberatung, Forschungskooperation, Informationsinfrastruktur, Wissenschaftliche Einrichtung, Bibliography. Library science. Information resources

Abstract

An der Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) entstand durch die Kooperation mehrerer hochschulinterner Einrichtungen ein außergewöhnlich umfassender Service für Forschende bei der Drittmittelberatung. Es wird als Best Practice-Beispiel aufgezeigt, wie diese Dienste ineinandergreifen und wie die Einrichtungen ihre Fähigkeiten in den Bereichen Informationsbeschaffung und -vermittlung einbringen können, um den gesamten Forschungsprozess kooperativ zu stützen. Hintergrund sind die Forderungen des Wissenschaftsrates und des Rats für Informationsinfrastrukturen nach einer besseren Koordinierung der Arbeit der Informationsinfrastruktureinrichtungen angesichts aktueller Herausforderungen bspw. im Bereich Open Science und Forschungsdatenmanagement. At Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), an exceptionally comprehensive service for third-party funding information and consulting has been implemented as a cooperation of several intra-university service institutions (such as Library, Department of Research Services and Research Development, etc.). This best practice example shows how the services fit together and how institutions can bring in their capabilities and skills to support the entire research process in the areas of information gathering and brokering. The background of this project were the demands of the Wissenschaftsrat (Science Council) and the Rat für Informationsinfrastruktureinrichtungen (Council for Scientific Information Infrastructures) for a better coordination of information infrastructure institutes in the view of the current challenges, such as research data management and open science.

Published

2017

4. Structural and Elemental Analysis of the Freshwater, Low-Mg Calcite Coralline Alga Pneophyllum cetinaensis

Author

Federica Ragazzola, Regina Kolzenburg, Jurgita Zekonyte, Sebastian Teichert, Chulin Jiang, Ante Žuljević, Annalisa Caragnano, and Annalisa Falace

Subjects

low-Mg calcite, element composition, structural integrity, freshwater, Botany, QK1-989

Abstract

Coralline algae are one of the most diversified groups of red algae and represent a major component of marine benthic habitats from the poles to the tropics. This group was believed to be exclusively marine until 2016, when the first freshwater coralline algae Pneophyllum cetinaensis was discovered in the Cetina River, southern Croatia. While several studies investigated the element compositions of marine coralline algal thalli, no information is yet available for the freshwater species. Using XRD, LA-ICP-MS and nano indentation, this study presents the first living low-Mg calcite coralline algae with Mg concentrations ten times lower than is common for the average marine species. Despite the lower Mg concentrations, hardness and elastic modulus (1.71 ± 1.58 GPa and 29.7 ± 18.0 GPa, respectively) are in the same range as other marine coralline algae, possibly due to other biogenic impurities. When compared to marine species, Ba/Ca values were unusually low, even though Ba concentrations are generally higher in rivers than in seawater. These low values might be linked to different physical and chemical characteristics of the Cetina River.

Published

2020

5. Crustose coralline red algae frameworks and rhodoliths: Past and present

Author

Ana Cristina Rebelo, Sebastian Teichert, Valentina Alice Bracchi, Michael Rasser, and Daniela Basso

Published

2023

6. Do skeletal Mg/Ca ratios of Arctic rhodoliths reflect atmospheric CO2 concentrations?

Author

Sebastian Teichert, Nora Voigt, and Max Wisshak

Subjects

0106 biological sciences, Calcite, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, 010604 marine biology & hydrobiology, Biodiversity, Ocean acidification, Rhodolith, biology.organism_classification, 01 natural sciences, Ecosystem engineer, chemistry.chemical_compound, Oceanography, chemistry, Arctic, ddc:550, Sea ice, Seawater, General Agricultural and Biological Sciences, 0105 earth and related environmental sciences

Abstract

The rhodolith-forming coralline red algal species Lithothamnion glaciale is the key ecosystem engineer of rhodolith beds on the coast of Svalbard. Because it significantly increases local biodiversity in this high-Arctic environment, we investigate the potential impact of changing environmental parameters on its calcite skeleton. Using energy-dispersive X-ray spectroscopy and environmental data from the Norwegian government’s environmental monitoring, we show that the magnesium concentration within an analysed algal calcite skeleton decreases linearly and significantly over a 40-year time span (R2 = 0.267, pperm 2 concentrations (R2 = 0.614, p pCO2 that drives ongoing ocean acidification. Since such a change in geochemistry may alter the stability of the calcite skeleton, our results could imply an impact on the future role of the rhodoliths as ecosystem engineers and consequently on Arctic biodiversity.

Published

2020

7. Editorial: Crustose Coralline Red Algae Frameworks and Rhodoliths: Past and Present

Author

Cristina Rebelo, A, Teichert, S, Bracchi, V, Rasser, M, Basso, D, Ana Cristina Rebelo, Sebastian Teichert, Valentina Alice Bracchi, Michael Rasser, Daniela Basso, Cristina Rebelo, A, Teichert, S, Bracchi, V, Rasser, M, Basso, D, Ana Cristina Rebelo, Sebastian Teichert, Valentina Alice Bracchi, Michael Rasser, and Daniela Basso

Published

2022

8. Sclerochronological insights into the environmental response of Corbula gibba from the Adriatic Sea

Author

Pierluigi Strafella, Najat Al Fudhaili, Niels de Winter, Matthias López Correa, Sebastian Teichert, Giuseppe Scarcella, Theresa Nohl, Chemistry, and Analytical, Environmental & Geo-Chemistry

Abstract

Bivalve shells are accretionary biogenic carbonates that yield a record of the organisms’ life history, also with respect to the physiological response to the ambient environmental conditions. This is reflected by variations in the shells’ growth bands, their chemical composition, and morphological features, making them useful tools in paleobiology and paleoenvironmental reconstructions. Corbula gibba is an abundant bivalve species in the Adriatic Sea that is commonly used to resolve questions in age determinations, paleoenvironmental reconstructions and sequence stratigraphic studies [1,2]. Nevertheless, a detailed analysis of its response in growth bands and chemical signatures to environmental variations is currently missing. This study evaluates growth increments and chemical variations in Corbula gibba shells. The shells have been collected alive from the Western Adriatic Sea between Senigallia and Ancona to shed light on the reliability of the Corbula gibba as an archive for (paleo)environmental information. Mutvei's solution has been used [3] to stain the alternating dark and light bundles in the shell, enhancing the visualization of growth increments. High-resolution elemental profiles have been acquired across the outer shells layer using the non-destructive Micro X-ray fluorescence (µ-XRF) technique [4]. The results are compared to available climatic information for Ancona and indicate that Corbula gibba shells record detailed temporal changes in the environment such as tidal fluctuations caused by lunar cycle.[1] Tomašových, A., Gallmetzer, I., Haselmair, A., Kaufman, D., Vidović, J., & Zuschin, M. (2017). Stratigraphic unmixing reveals repeated hypoxia events over the past 500 yr in the northern Adriatic Sea. Geology, 45 (4), 363-366.[2] Tomašových, A., Gallmetzer, I., Haselmair, A., Kaufman, D., Kralj, M., & Cassin, D. et al. (2018). Tracing the effects of eutrophication on molluscan communities in sediment cores: outbreaks of an opportunistic species coincide with reduced bioturbation and high frequency of hypoxia in the Adriatic Sea. Paleobiology, 44 (4), 575-602.[3] Schöne, B., Dunca, E., Fiebig, J., & Pfeiffer, M. (2005). Mutvei's solution: An ideal agent for resolving microgrowth structures of biogenic carbonates. Palaeogeography, Palaeoclimatology, Palaeoecology, 228 (1-2), 149-166.[4] de Winter, N.J., Sinnesael, M., Makarona, C., Vansteenberge, S., Claeys, P., (2017). Trace element analyses of carbonates using portable and micro-X-ray fluorescence: performance and optimization of measurement parameters and strategies. Journal of Analytical Atomic Spectrometry, 32, 1211–1223.

Published

2022

9. The potential of coralline algae as SST proxy and for climate model evaluation: A New Zealand case study

Author

Elena Kropač, Thomas Mölg, and Sebastian Teichert

Abstract

General circulation models (GCMs) are currently the most important tools for obtaining projections about future climate. In addition, they provide data input for regional atmospheric models that translate global climate change to regional and local scales where humans and environments face the impacts. To ensure the accurateness of their simulations, GCMs need to be evaluated as thoroughly as possible against past climate records, where one focus is on the so-called "historical period" (1850–present). However, the evaluation task is difficult for the period before World War II and earlier due to a frequent lack of reliable observations. This problem is exacerbated for the Southern Hemisphere, which has been notoriously understudied in comparison to the climate of the Northern Hemisphere.In New Zealand, variations in sea surface temperature (SST) are reflected on a variety of spatial and temporal scales and are statistically detectable through to temperature anomalies and glacier mass balance changes in the high mountains of the Southern Alps. The correct simulation of SST by GCMs is therefore crucial, especially when investigating the physical mechanisms that transform large-scale SST signals into local climate anomalies by using regional atmospheric modeling.In the project “NZ-PROXY”, we utilize crustose coralline algae (CCA) – a rather recently discovered proxy archive – to extend the observational time series of SST in the New Zealand region back to ~1850. The SST reconstruction is then employed in GCM evaluation to reveal their skill in representing the large-scale climate of New Zealand. Finally, high-resolution sensitivity simulations are obtained from a regional atmospheric model to investigate the added value of the advanced GCM selection for regional climate modeling.

Published

2022

10. Structural and Geochemical Assessment of the Coralline Alga Tethysphytum antarcticum from Terra Nova Bay, Ross Sea, Antarctica

Author

Matthias López Correa, Sebastian Teichert, Federica Ragazzola, Salvador Cazorla Vázquez, Felix B. Engel, Katrin Hurle, Claudio Mazzoli, Piotr Kuklinski, Giancarlo Raiteri, and Chiara Lombardi

Subjects

crustose coralline algae, taxonomy, climate change, ddc:550, crustose coralline algae, Antarctica, taxonomy, phylogeny, thallus structure, biomineralization, geochemistry, climate change, Antarctica, thallus structure, Geology, phylogeny, biomineralization, Geotechnical Engineering and Engineering Geology, geochemistry

Abstract

Crustose coralline algae (CCA) occur from the tropics to the poles in photic benthic environments. Here, we report on some of the world’s southernmost and coldest CCA sites in Terra Nova, Ross Sea, Antarctica at 74°41′ S. The recently described red alga Tethysphytum antarticum is investigated for its skeletal architecture, its mineralogical and geochemical composition, as well as for its taxonomic classification. A phylogenetic analysis based on molecular genetics and the sequencing of the photosystem II protein D1 (psbA) gave a perfect match with T. antarcticum. Histological sections and micro-CT-scans provide new diagnostic details for the conceptacles (the reproductive organs of the alga). X-ray diffractometry and electron-microprobe measurements yielded a clear high-Mg calcite (~8 mol%) composition of the skeletal parts. Detailed back-scattered electron imaging of polished petrographic thin sections revealed a two-layered thallus (vegetative plant tissue), comprising an organic-rich irregularly calcified basal layer with rectangular cells, overlain by the main thallus. Elemental maps show relatively increased sulphur in the basal layer, clearly tied to organic cell walls. MgCO3 and SrCO3 were targeted with semiquantitative elemental mappings and in an ontogenetic quantitative spot transect. Compared with temperature (−1.95 °C to +1.08 °C), the MgCO3 (mol%) reflects this world’s coldest CCA site temperature with the lowest MgCO3 content of 7.9 ± 1.6 mol%. The along transect variability, however, shows with ~6 mol% a larger MgCO3 variability than expected for the 3 °C intra-annual temperature amplitude in Terra Nova Bay. This implies that in low amplitude settings the biomineralisation control on Mg/Ca ratios can outcompete its temperature sensitivity. Mark-recapture studies, next to the environmental logger station La Zecca are suggested, to perform a detailed growth rate and biomineralisation quantification.

Published

2023

11. Ultrastructure of the epidermal gland system of Tetranchyroderma suecicum Boaden, 1960 (Gastrotricha: Macrodasyida) indicates a defensive function of its exudate

Author

Wilko H. Ahlrichs, Sebastian Teichert, Alexander Gruhl, Christian Schulbert, Jannik Schnier, and Alexander Kieneke

Subjects

0106 biological sciences, Cell type, biology, Confocal, 010607 zoology, Merocrine, Anatomy, Macrodasyida, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, medicine.anatomical_structure, Cytoplasm, Ultrastructure, medicine, Animal Science and Zoology, Developmental biology, Nucleus, Developmental Biology

Abstract

Although the phylum Gastrotricha is known and studied for more than 150 years, some cell types, tissues and organ systems are still not well understood in terms of their morphology, ultrastructure, function and role. One of these features is the epidermal gland system (EGS). As yet, there is just a single detailed electron microscopic investigation of the epidermal glands of the species Turbanella cornuta Remane, 1925, plus scattered ultrastructural data of few additional species. We comprehensively investigated the epidermal glands of Tetranchyroderma suecicum Boaden, 1960 by means of serial sectioning and transmission electron microscopy (TEM) and with scanning electron microscopy. Furthermore, light microscopical, confocal laser scanning microscopical and micro-computed tomographical (µCT) techniques were additionally used for this investigation. Computer programs for 3D-reconstructions were used to analyse the data obtained by TEM and µCT. Tetranchyroderma suecicum possesses up to 100, mostly pairwise arranged, glandulocytes. Each single-celled gland contains a large anastomosing secretory cistern with granular content, has a very electron-dense cytoplasm, a basally positioned nucleus, peripherally arranged mitochondria and a cuticulated, ‘chimney-like’ apical neck, which carries the cellular pore. Each merocrine glandulocyte is associated with an adjacent ciliated sensory cell. There is currently no coherent hypothesis of the glandulocytes’ functional role, but different ideas are discussed. We refer to evidence that the secretory product of the EGS of Tetranchyroderma suecicum most likely acts as a repellent against potential predators.

Published

2019

12. Brackish water algal reefs – facies analysis as a tool to identify palaeoenvironmental variations in Miocene deposits (Mainz‐Weisenau, Germany)

Author

Julia Knoblach, Sebastian Teichert, Theresa Nohl, Knoblach, Julia, 1 Friedrich‐Alexander‐Universität Erlangen‐Nürnberg Erlangen Germany, and Teichert, Sebastian

Subjects

geography, geography.geographical_feature_category, Brackish water, Geochemistry, brackish deposits, Geology, microbial calcite precipitation, ddc:560, Facies, 561.93, facies development, algal reefs, Cladophorites sp, Reef

Abstract

Brackish‐water carbonates are far less studied than their marine or limnic counterparts. However, their association with few, specialized species enables the documentation of fine‐scale changes in the depositional environment. The Cenozoic Mainz Basin (Germany) was only sporadically connected to the North Sea and the Paratethys, exposing several transitions from marine to fresh water influence. Focusing on one outcrop of the Rüssingen Formation of Mainz‐Weisenau (Aquitanian, Miocene), we present a detailed analysis of the faunal and sedimentological responses to changing salinities and water depth, including algal reef growth and facies development. The deposits include allochthonous limestones surrounding an autochthonous reef complex and several smaller reef patches. The allochthonous facies is dominated by the gastropod Hydrobia inflata, and the reef facies is mainly made up by the green alga Cladophorites sp. The algal thalli are overgrown by cryptocrystalline, organic precipitations, and laminated, chemical precipitations. Locally, quiver‐shaped structures of Trichoptera sp. protective cases occur. The depositional setting was a shallow, low energy, and brackish environment supersaturated by carbonate. We could not confirm a general trend of reducing salinities as reported for the Rüssingen Formation. Our results question previously reported episodic desiccation events, because apparent caliche horizons actually represent thin beds of increased Cladophorites growth. Set‐up, distribution of the reef facies, and reef debris indicate short‐time variations of temperature, salinity and water depth. We conclude that these variations are based on the geographic position at the edge of an algal reef barrier, separating the Mainz Basin from the Rhine Rift Valley., This study investigates the record of small‐scale changes in the depositional environment of Miocene brackish‐water deposits from the Mainz Basin (Germany) by facies analysis. Set‐up, distribution of the reef facies, and reef debris indicate short‐time variations of temperature, salinity and water depth. The apparent caliche horizons actually represent thin beds of increase Cladophorites growth. The example demonstrates that these brackish deposits are a sensitive recorder of palaeoenvironmental change., Open access funding enabled and organized by Projekt DEAL. WOA Institution: FRIEDRICH‐ALEXANDER‐UNIVERSITAET ERLANGEN‐NURNBERG Blended DEAL: ProjektDEAL

Published

2021

13. Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought

Author

Sebastian Teichert, William J. Woelkerling, and Axel Munnecke

Subjects

Atmospheric Science, Histology, Visual Arts and Performing Arts, biology, Paleontology, Corallinaceae, General Medicine, Red algae, biology.organism_classification, Pathology and Forensic Medicine, Order (biology), Botany, Corallinophycidae, Geology, Ecology, Evolution, Behavior and Systematics

Published

2019

14. A possible link between coral reef success, crustose coralline algae and the evolution of herbivory

Author

Sebastian, Teichert, Manuel, Steinbauer, and Wolfgang, Kiessling

Subjects

Ecology, Coral Reefs, Evolution, lcsh:R, lcsh:Medicine, Anthozoa, Biological Evolution, Article, Ocean sciences, ddc:570, Rhodophyta, Animals, lcsh:Q, Herbivory, lcsh:Science, Ecosystem

Abstract

Crustose coralline red algae (CCA) play a key role in the consolidation of many modern tropical coral reefs. It is unclear, however, if their function as reef consolidators was equally pronounced in the geological past. Using a comprehensive database on ancient reefs, we show a strong correlation between the presence of CCA and the formation of true coral reefs throughout the last 150 Ma. We investigated if repeated breakdowns in the potential capacity of CCA to spur reef development were associated with sea level, ocean temperature, CO2 concentration, CCA species diversity, and/or the evolution of major herbivore groups. Model results show that the correlation between the occurrence of CCA and the development of true coral reefs increased with CCA diversity and cooler ocean temperatures while the diversification of herbivores had a transient negative effect. The evolution of novel herbivore groups compromised the interaction between CCA and true reef growth at least three times in the investigated time interval. These crises have been overcome by morphological adaptations of CCA.

Published

2020

15. Correction to: Do Skeletal Mg/Ca Ratios of Arctic Rhodoliths Reflect Atmospheric CO2 Concentrations?

Author

Nora Voigt, Sebastian Teichert, and Max Wisshak

Subjects

Oceanography, Arctic, Ecology (disciplines), Biology, General Agricultural and Biological Sciences

Published

2021

16. Arctic rhodolith beds and their environmental controls (Spitsbergen, Norway)

Author

Armin U. Form, Michael Meyerhöfer, William J. Woelkerling, André Freiwald, Max Wisshak, Sebastian Teichert, Andres Rüggeberg, and Dieter Piepenburg

Subjects

biology, Ecology, Stratigraphy, Fauna, Paleontology, Coralline algae, Geology, Rhodolith, Ocean acidification, Phymatolithon, biology.organism_classification, Ecosystem engineer, Oceanography, Benthic zone, Maerl

Abstract

Coralline algae (Corallinales, Rhodophyta) that form rhodoliths are important ecosystem engineers and carbonate producers in many polar coastal habitats. This study deals with rhodolith communities from Floskjeret (78°18′N), Krossfjorden (79°08′N), and Mosselbukta (79°53′N), off Spitsbergen Island, Svalbard Archipelago, Norway. Strong seasonal variations in temperature, salinity, light regime, sea-ice coverage, and turbidity characterize these localities. The coralline algal flora consists of Lithothamnion glaciale and Phymatolithon tenue. Well-developed rhodoliths were recorded between 27 and 47 m water depth, while coralline algal encrustations on lithoclastic cobbles were detected down to 77 m water depth. At all sites, ambient waters were saturated with respect to both aragonite and calcite, and the rhodolith beds were located predominately at dysphotic water depths. The rhodolith-associated macrobenthic fauna included grazing organisms such as chitons and echinoids. With decreasing water depth, the rhodolith pavements were regularly overgrown by non-calcareous Polysiphonia-like red algae. The corallines are thriving and are highly specialized in their adaptations to the physical environment as well as in their interaction with the associated benthic fauna, which is similar to other polar rhodolith communities. The marine environment of Spitsbergen is already affected by a climate-driven ecological regime shift and will lead to an increased borealization in the near future, with presently unpredictable consequences for coralline red algal communities.

Published

2013

17. Rhodolith beds (Corallinales, Rhodophyta) and their physical and biological environment at 80°31′N in Nordkappbukta (Nordaustlandet, Svalbard Archipelago, Norway)

Author

Jan Büdenbender, William J. Woelkerling, Max Wisshak, Armin U. Form, André Freiwald, Michael Meyerhöfer, Andres Rüggeberg, Sebastian Teichert, and Dieter Piepenburg

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Coralline algae, Rhodolith, Plant Science, Red algae, Aquatic Science, Phymatolithon, biology.organism_classification, Phymatolithon tenue, Water column, Arctic, Benthic zone, Sea ice, Lithothamnion glaciale

Abstract

Polar coralline red algae (Corallinales, Rhodophyta) that form rhodoliths have received little attention concerning their potential as ecosystem engineers and carbonate factories; although, recent findings revealed that they are much more widespread in polar waters than previously thought. The present study deals with the northernmost rhodolith communities currently known, discovered in 2006 at 80°31'N in Nordkappbukta (North Cape Bay) at Nordaustlandet, Svalbard. These perennial coralline algae must be adapted to extreme seasonality in terms of light regime (c. 4 months winter darkness), sea ice coverage, nutrient supply, turbidity of the water column, temperature and salinity. The rhodolith communities and their environment were investigated using multibeam swath bathymetry, CTD measurements, recordings of the photosynthetic active radiation (PAR) and determination of the water chemistry, seabed imaging and targeted sampling by means of the manned submersible JAGO as well as benthic collections with a dredge. The coralline flora was composed mainly of Lithothamnion glaciale, with a lesser amount of Phymatolithon tenue. Based on their distribution and development at different depth levels, a facies model was developed. Rhodoliths occurred between 30 and 51 m, while coralline algae attached to cobbles were present as deep as 78 m. Measurements of the PAR indicated their adaptation to extreme low light levels. Ambient waters were always saturated with reference to calcite and aragonite for the whole area. The rhodolith-associated macrobenthic fauna samples yielded 59 species, only one of which was typically Arctic, and the concomitant appearance of corallines and grazers kept the corallines free from epiphytes and coequally provided feeding grounds for the grazers. Overall, L. glaciale and P. tenue appeared to be well adapted to the extreme environment of the Arctic.

Published

2012

18. Early Jurassic anoxia triggered the evolution of the oldest holoplanktonic gastropod Coelodiscus minutus by means of heterochrony

Author

Sebastian Teichert and Alexander Nützel

Subjects

Paleontology, Benthic zone, Gastropoda, Biology, Plankton, biology.organism_classification, Deep sea, Neoteny, Bioturbation, Anoxic waters, Posidonia Shale

Abstract

The tiny gastropod Coelodiscus minutus is superabundant in concretions of the Early Jurassic Posidonia Shale of South Germany which were formed under anoxic or extremely dysoxic conditions. Previous suggestions that C. minutus was a holoplanktonic organism are corroborated based on new evidence from exceptionally well-preserved specimens. The measurements of shell thickness show that the shell of Coelodiscus is very thin (mean 11 µm). In contrast to previous suggestions, the shell of Coelodiscus was not formed in three ontogenetic phases (embryonic, larval and adult shell) but in two phases comprising an embryonic and a secondary shell, the latter forming during an extended larval phase. Hostile conditions on the sea floor, absence or extreme scarcity of epibenthic animals as well as the small size also argue against a benthic life style of this gastropod. Coelodiscus minutus is the oldest known holoplanktonic gastropod. We speculate that Coelodiscus evolved during the Early Jurassic from a benthic precursor, which had a planktotrophic larval development. Probably under the influence of increasing frequency of dysoxic episodes along with hostile benthic conditions, the larval phase was extended neotenously and eventually, a holoplanktonic species evolved. During the Early Toarcian anoxic event, C. minutus was highly abundant in the plankton and dead shells rained down to the anoxic or dysoxic sea bottom. These thin and fragile shells formed an ooze similar to the pteropod ooze in the modern deep sea. The shells were preserved due to the absence or low level of deposit feeding and bioturbation as well as the formation of early diagenetic concretions.

Published

2015

19. Hollow rhodoliths increase Svalbard's shelf biodiversity

Author

Sebastian Teichert

Subjects

Multidisciplinary, Ecology, Marine habitats, Biodiversity, Tropics, Global change, 15. Life on land, Biology, Ecosystem engineer, Article, Svalbard, Habitat, Benthic zone, Threatened species, Rhodophyta, 14. Life underwater, Ecosystem

Abstract

Rhodoliths are coralline red algal assemblages that commonly occur in marine habitats from the tropics to polar latitudes. They form rigid structures of high-magnesium calcite and have a good fossil record. Here I show that rhodoliths are ecosystem engineers in a high Arctic environment that increase local biodiversity by providing habitat. Gouged by boring mussels, originally solid rhodoliths become hollow ecospheres intensely colonised by benthic organisms. In the examined shelf areas, biodiversity in rhodolith-bearing habitats is significantly greater than in habitats without rhodoliths and hollow rhodoliths yield a greater biodiversity than solid ones. This biodiversity, however, is threatened because hollow rhodoliths take a long time to form and are susceptible to global change and anthropogenic impacts such as trawl net fisheries that can destroy hollow rhodoliths. Rhodoliths and other forms of coralline red algae play a key role in a plurality of environments and need improved management and protection plans.

Published

2014

20. Polar coralline algal CaCO3-production rates correspond to intensity and duration of the solar radiation

Author

André Freiwald and Sebastian Teichert

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Polar night, Ecology, 010604 marine biology & hydrobiology, Global change, Rhodolith, 15. Life on land, Biology, Seasonality, medicine.disease, biology.organism_classification, 01 natural sciences, Ecosystem engineer, Oceanography, Algae, Benthic zone, Sea ice, medicine, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

In this study we present a comparative quantification of CaCO3 production rates by rhodolith-forming coralline red algal communities situated in high polar latitudes and assess which environmental parameters control these production rates. The present rhodoliths act as ecosystem engineers, and their carbonate skeletons provide an important ecological niche to a variety of benthic organisms. The settings are distributed along the coasts of the Svalbard archipelago, being Floskjeret (78°18' N) in Isfjorden, Krossfjorden (79°08' N) at the eastern coast of Haakon VII Land, Mosselbukta (79°53' N) at the eastern coast of Mosselhalvøya, and Nordkappbukta (80°31' N) at the northern coast of Nordaustlandet. All sites feature Arctic climate and strong seasonality. The algal CaCO3 production rates were calculated from fuchsine-stained, presumably annual growth increments exhibited by the rhodoliths and range from 100.9 g (CaCO3) m−2 yr−1 at Nordkappbukta to 200.3 g (CaCO3) m−2 yr−1 at Floskjeret. The rates correlate to various environmental parameters with geographical latitude being the most significant (negative correlation, R2 = 0.95, p = 0.0070), followed by the duration of the polar night (negative correlation, R2 = 0.93, p = 0.0220), the duration of the sea ice cover (negative correlation, R2 = 0.87, p = 0.0657), and the annual mean temperature (positive correlation, R2 = 0.48, p = 0.0301). This points out sufficient light incidence to be the main control of the growth of the examined coralline red algal rhodolith communities, while temperature is less important. Thus, the ongoing global change with its rising temperatures will most likely result in impaired conditions for the algae, because the concomitant increased global runoff will decrease water transparency and hence light incidence at the four offshore sites. Regarding the aforementioned role of the rhodoliths as ecosystem engineers, the impact on the associated organisms will presumably also be negative.

Published

2013