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Influence of endolithic algae on coral carbonate chemistry (2018)

Krause, Stefan ; Liebetrau, Volker ; Eisenhauer, Anton ; [et al.]

In: [Talk] In: EGU General Assembly 2018, 08.-13.04.2018, Vienna, Austria .

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Publication Date: 2018-12-10

Type: Conference or Workshop Item , NonPeerReviewed

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Widefield deconvolution epifluorescence microscopy combined with fluorescence in situ hybridization reveals the spatial arrangement of bacteria in sponge tissue (2018)

Manz, Werner ; Arp, Gernot ; Schumann-Kindel, Gabriela ; [et al.]

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Publication Date: 2021-03-29

Description: Widefield deconvolution epifluorescence microscopy (WDEM) combined with fluorescence in situ hybridization (FISH) was performed to identify and characterize single bacterial cells within sections of the mediterranean sponge Chondrosia reniformis. Sponges were embedded in paraffin wax or plastic prior to the preparation of thin sections, in situ hybridization and microscopy. Serial digital images generated by widefield epifluorescence microscopy were visualized using an exhaustive photon reassignment deconvolution algorithm and three-dimensional rendering software. Computer processing of series of images taken at different focal planes with the deconvolution technique provided deblurred three-dimensional images with high optical resolution on a submicron scale. Results from the deconvolution enhanced widefield microscopy were compared with conventional epifluorescent microscopical images. By the application of the deconvolution algorithm on digital image data obtained with widefield epifluorescence microscopy after FISH, the occurrence and spatial arrangement of Desulfovibrionaceae closely associated with micropores of Chondrosia reniformis could be visualized.

Keywords: Widefield deconvolution epifluorescence microscopy; FISH; 16S rRNA oligonucleotide probes; Sponge associated bacteria; Chondrosia reniformis ; 551

Language: English

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Sediments of the Ries Crater Lake (Miocene, Southern Germany). (2018)

Arp, Gernot

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Publication Date: 2021-03-29

Description: This field trip is devoted to the post-impact history of the Nördlinger Ries with focus on its carbonate lake sediments. We will explore major facies belts of the Ries crater lake, including basinal shales, littoral carbonate grainstones, dolomitic algal bioherms, sublacustrine spring mounds, carbonate floodplains, deltaic deposits and late freshwater limestones. Special emphasis is taken on fossil algae (green algae, charophytes, cyanobacteria), rhythms and cycles of bioherm growth, the genesis of microbialites in relation to climate and lake water chemistry, and paleosol formation in carbonate swamps.

Keywords: carbonate sedimentology; Ries impact crater; lake ; 551

Language: English

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Microbialite formation in seawater of increased alkalinity, Satonda Crater Lake, Indonesia (2018)

Arp, Gernot ; Reimer, Andreas ; Reitner, Joachim

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Publication Date: 2021-03-29

Description: The crater lake of the small volcanic island Satonda, Indonesia, is unique for its red-algal microbial reefs thriving in marinederived water of increased alkalinity. The lake is a potential analogue for ancient oceans sustaining microbialites under open-marine conditions. Current reef surfaces are dominated by living red algae covered by non-calcified biofilms with scattered cyanobacteria and diatoms. Minor CaCO3 precipitates are restricted to the seasonally flooded reef tops, which develop biofilms up to 500 mm thick dominated by the cyanobacteria Pleurocapsa, Calothrix, Phormidium, and Hyella. Microcrystalline aragonite patches form within the biofilm mucilage, and fibrous aragonite cements grow in exopolymer-poor spaces such as the inside of dead, lysed green algal cells, and reef framework voids. Cementation of lysed hadromerid sponge resting bodies results in the formation of ‘‘Wetheredella-like’’ structures. Hydrochemistry data and model calculations indicate that CO2 degassing after seasonal mixis can shift the carbonate equilibrium to cause CaCO3 precipitation. Increased concentrations of dissolved inorganic carbon limit the ability of autotrophic biofilm microorganisms to shift the carbonate equilibrium. Therefore, photosynthesis-induced cyanobacterial calcification does not occur. Instead, passive, diffusioncontrolled EPS-mediated permineralization of biofilm mucus at contact with the considerably supersaturated open lake water takes place. In contrast to extreme soda lakes, the release of Ca21 from aerobic degradation of extracellular polymeric substances does not support CaCO3 precipitation in Satonda because the simultaneously released CO2 is insufficiently buffered. Subfossil reef parts comprise green algal tufts encrusted by microstromatolites with layers of fibrous aragonite and an amorphous, unidentified Mg–Si phase. The microstromatolites probably formed when Lake Satonda evolved from seawater to Ca21-depleted raised-alkalinity conditions because of sulfate reduction in bottom sediments and pronounced seasonality with deep mixing events and strong CO2 degassing. The latter effect caused rapid growth of fibrous aragonite, while Mg–Si layers replaced the initially Mg-calcite-impregnated biofilms. This could be explained by dissolution of siliceous diatoms and sponge spicules at high pH, followed by Mg-calcite dissolution and Mg-silica precipitation at low pH due to heterotrophic activity within the entombed biofilms.

Keywords: Paläontologie: Allgemeines ; 551 ; VU 000 ; 38.20 ; 38.2

Language: English

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Microbialite formation in seawater of increased alkalinity, Satonda Crater Lake, Indonesia - Reply (2018)

Arp, Gernot ; Reimer, Andreas ; Reitner, Joachim

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Publication Date: 2021-03-29

Description: Our paper (Arp et al. 2003) revises previous studies of Kaz´mierczak and Kempe (1990, 1992), Kempe and Kaz´mierczak (1990a, 1990b, 1993), and Kempe et al. (1996, 1997) on Lake Satonda reefs with regard to biofilm calcification and microbialite formation. We confirm that the transfer of bottom waters of increased alkalinity (due to sulfate reduction) to shallow water layers (mixolimnion) principally can support or cause biofilm calcification and microbialite formation in shallow waters (as suggested by Kempe 1990). However, their two-stage model of microbialite formation in Lake Satonda, which claims that superficial in vivo permineralization of coccoid cyanobacterial colonies by high-Mg calcite is followed by internal fibrous aragonite growth due to anaerobic decay of the entombed colonies to form microstromatolites (Kaz´mierczak and Kempe 1990) as well as Wetheredella-like structures (Kaz´mierczak and Kempe 1992) is a theoretical construct without supporting evidence from data and observations from Satonda crater lake. Also, the comparison of Lake Satonda stromatolitelike encrustations on green algae with early Paleozoic stromatoporoids by Kaz´mierczak and Kempe (1990) lacks—in our opinion—any supporting evidence. In their discussion, Kaz´mierczak and Kempe reiterate allegations seemingly supported by images and data. At a closer look, results obtained from inadequately treated samples (air drying, etching fractures, or cutting planes), a tendentious identification of coccoid structures, analytical failures (basic mineralogy from EDX measurements), and biased consideration of data (supersaturation) results in theoretical misconceptions of post-mortem calcification of degrading cyanobacterial colonies. Our positions and arguments follow.

Keywords: Paläontologie: Allgemeines ; 551 ; VU 000 ; 38.20 ; 38.2

Language: English

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Phylogenetic Analysis of a Microbialite-Forming Microbial Mat from a Hypersaline Lake of the Kiritimati Atoll, Central Pacific (2018)

Schneider, Dominik ; Arp, Gernot ; Reimer, Andreas ; [et al.]

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Publication Date: 2021-04-25

Description: On the Kiritimati atoll, several lakes exhibit microbial mat-formation under different hydrochemical conditions. Some of these lakes trigger microbialite formation such as Lake 21, which is an evaporitic, hypersaline lake (salinity of approximately 170%). Lake 21 is completely covered with a thick multilayered microbial mat. This mat is associated with the formation of decimeter-thick highly porous microbialites, which are composed of aragonite and gypsum crystals. We assessed the bacterial and archaeal community composition and its alteration along the vertical stratification by large-scale analysis of 16S rRNA gene sequences of the nine different mat layers. The surface layers are dominated by aerobic, phototrophic, and halotolerant microbes. The bacterial community of these layers harbored Cyanobacteria (Halothece cluster), which were accompanied with known phototrophic members of the Bacteroidetes and Alphaproteobacteria. In deeper anaerobic layers more diverse communities than in the upper layers were present. The deeper layers were dominated by Spirochaetes, sulfate-reducing bacteria (Deltaproteobacteria), Chloroflexi (Anaerolineae and Caldilineae), purple non-sulfur bacteria (Alphaproteobacteria), purple sulfur bacteria (Chromatiales), anaerobic Bacteroidetes (Marinilabiacae), Nitrospirae (OPB95), Planctomycetes and several candidate divisions. The archaeal community, including numerous uncultured taxonomic lineages, generally changed from Euryarchaeota (mainly Halobacteria and Thermoplasmata) to uncultured members of the Thaumarchaeota (mainly Marine Benthic Group B) with increasing depth.

Keywords: Phylogenetic Analysis; Microbialite; Microbial Mat; Hypersaline Lake; Kiritimati Atoll ; 551

Language: English

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The bipolar bivalve Oxytoma (Palmoxytoma) cygnipes (Young & Bird, 1822) in the Upper Pliensbachian of Germany (2018)

Arp, Gernot ; Seppelt, Stephan

Springer-Verlag | Berlin/Heidelberg

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Publication Date: 2021-04-25

Description: The morphologically conspicuous bivalve Oxytoma (Palmoxytoma) cygnipes (Young & Bird, 1822), known for its palaeogeographically bipolar distribution, from a limestone bed in the boundary “Belemniten–Schichten”/Amaltheenton formation, Lower Jurassic, in N Germany is described. The occurrence of this palaeoceanographically significant bivalve points to an influx of cool seawater from the Arctic to the North-German Basin at the base of the Upper Pliensbachian, just before the deposition of the Amaltheenton formation. A review of previously reported occurrences on the NW European Shelf indicates two distinct stratigraphic intervals of occurrence of this taxon: the Rhaetian–Hettangian boundary and the Upper Pliensbachian. Whereas the former interval of occurrence may be related to short-term cooling in the course of the end-Triassic extinction event, the latter is interpreted as reflecting the influx of a cool water current to the eastern part of the NW European Shelf, which continued southwards parallel to the coast of the Bohemian–Vindelician High.

Keywords: Bivalvia; Germany; Triassic–Jurassic boundary; Pliensbachian; Boreal; Bivalvia; Deutschland; Trias–Jura-Grenze; Pliensbachium; Boreal ; 551 ; Earth Sciences; Paleontology

Language: English

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Lias-Fossilien aus der Tongrube Eichenberg, Nordhessen (2018)

Arp, Gernot ; Persoh, D. ; Reimer, A. ; [et al.]

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Publication Date: 2021-03-29

Description: Fossilreiche Aufschlüsse im Lias des Leinetalgrabens sind eine Seltenheit. Eine Ausnahme hiervon bildet die Tongrube bei Eichenberg an der Grenze von Nordhessen zu Niedersachsen, welche etwa 20 m Ton- und Mergelschiefer des höheren Lias a3 mit einer individuenreichen Ammonoideenfauna (Arnioceras ssp., Euagassiceras resupinatum) erschließt. Die Muschelfauna wird durch eine artenarme Vergesellschaftung von dünnschaligen, vorwiegend epibyssaten Formen repräsentiert, wie sie in schlecht durchlüfteten Sedimentationsräumen des Unterjura typisch ist

Keywords: Paläontologie: Allgemeines ; 551 ; VU 000 ; 38.20 ; 38.2

Language: German

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Microbial fabric formation in spring mounds ("microbialites") of alkaline salt lakes in the Badain Jaran Sand Sea, PR China (2018)

Arp, Gernot ; Hofmann, Jürgen ; Reitner, Joachim

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Publication Date: 2021-03-29

Description: The large sandy desert of Badnin Jaran Shamo, Inner Mongolia, has several salt lakes located among megadunes with crests as high as 400 m. Most of the lakes are hypo- to hypersaline and alkaline, with pH values between 8.5 and 10. Because of their reef-like aragonitie pinnacles rising from the lake floor, Lake Nuoertu and Lake Huhejaran haue been investigated in detail. The porous limes tones of the tufa pinnacles ("spring mounds'') result {rom a hydrochemieally forced, exopolymer-mediated calcification of cyanobacteria- dominated mierobial mats at sublacustrine springs. The development oftheir enigmatie fabries is documented for the first time. Siekle-cell-like and bubbleshaped fabries reflect successive mineralization during degradation, shrinkage of the organie mucus, and gas formation by bacteria. Fossil analogues are known from the Pleistocene and Miocene (Ries-crater lake), but older non-marine, Phanerozoie examples are expected. 1b the extent that these textures are associated exclusively with alkaline environments, they can be used to test the hypothesis of an alkali ne ocean early in Earth history.

Keywords: Paläontologie: Allgemeines ; 551 ; VU 000 ; 38.20 ; 38.2

Language: English

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