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Methoden und Algorithmen zur Ozean-Fernerkundung mit MOS : Laufzeit: 01.01.1992-31.12.1998 ; Schlußbericht zum Fördervorhaben (1999)

Neumann, Andreas ; Institut für Weltraumsensorik und Planetenerkundung

Berlin : DLR

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Keywords: Forschungsbericht

Type of Medium: Online Resource

Pages: 98 p. = 4017 kB, text and images

Edition: [Electronic ed.]

URL: https://edocs.tib.eu/files/e001/268245029.pdf

URL: https://edocs.tib.eu/files/e001/268245029l.pdf

Language: German , English

Note: Contract BMBF 03EE9203; 50EE9203. - nIndex. - Attachments in english , Differences between the printed and electronic version of the document are possible. - Bibliographic datas partially researched

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Electronic Resource

Die “Knorpelpalisadentympanoplastik” nach Heermann (1999)

Neumann, Andreas

Springer

HNO 47 (1999), S. 1074-1088

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ISSN: 1433-0458

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Nachdem die Prinzipien der Tympanoplastik durch Moritz [46], Wullstein [63] und Zöllner [67] vorgestellt und international anerkannt wurden und Wullstein selbst 1952 Spalthauttransplantate als Trommelfellersatz inaugurierte, wurde die Verwendung von Faszie als Trommelfellersatz 1957 von Unterberger [58], 1960 von H. Heermann [24] und 1963 von Kley [38] vorgeschlagen. Andere autologe mesodermale Gewebearten vie Vene (Shea 1960 [52]) und Periost (Agazzi 1960 [2]) konnten sich ebensowenig durchsetzten wie homologes Trommelfell (Betow 1970 [6]) oder lyophilisierte Dura (Gerhardt und Mahler 1970 [17]). Faszie des musculus temporalis ist somit das international etablierte und am häufigsten verwendete Transplantatmaterial zum Trommelfellersatz in der Mikrochirurgie des Mittelohres.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001060050495

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Paper (German National Licenses)

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Impact of benthos on morphodynamics from a modeling perspective (2021)

Arlinghaus, Peter ; Zhang, Wenyan ; Wrede, Alexa ; [et al.]

ELSEVIER SCIENCE BV

In: EPIC3Earth-Science Reviews, ELSEVIER SCIENCE BV, 221(103803), ISSN: 0012-8252

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Publication Date: 2022-08-21

Description: Benthic organisms and their bioturbation activities have a profound effect on a multitude of sediment properties. While many studies have already explored benthic impacts at small temporal and spatial scales, little is known on how the small-scale effects accumulate and interactively guide large-scale (km-scale) morphological evolution. Here we firstly summarize the most important processes of benthos affecting sediment stability and then explore existing biomorphodynamic modeling studies both at small- and large-scales. In general, microbenthos (body size 〈0.1 mm) mainly stabilizes sediments while meio- (0.1–1 mm) and macrobenthos (〉1 mm) may stabilize or destabilize sediments. Among all types of sediment, fine-grained fraction (silt and clay) is most sensitive to the impact of benthos. Benthic organisms have the capability to mediate sediment transport and sedimentation patterns beyond their habitats on the long-term and over a large-scale. However, so far, numerical models evaluating benthic impact are limited to explorative studies and have not reached a stage where they can be used for predictive modeling. The barriers hindering a further development of biomorphodynamic models include not only limited understanding of fundamental biological/bio-physical processes affecting morphological development and dynamic feedback loops among them but also a shortage of data for model calibration and confirmation of simulation results. On the other hand, thriving for higher model complexity does not necessarily lead to better performance. Before conducting biomorphodynamic modeling, researchers must figure out which questions can be answered in a meaningful sense with simulation results that can be compared with observations and which level of modeling complexity is sufficient for that purpose.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , NonPeerReviewed

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Macrofauna as a major driver of bentho-pelagic exchange in the southern North Sea (2021)

Neumann, Andreas ; Beusekom van, Justus E. E. ; Eisele, Annika ; [et al.]

AMER SOC LIMNOLOGY OCEANOGRAPHY

In: EPIC3Limnology and Oceanography, AMER SOC LIMNOLOGY OCEANOGRAPHY, 66(6), pp. 2203-2217, ISSN: 0024-3590

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Publication Date: 2022-09-21

Description: The contribution of sediments to nutrient cycling of the coastal North Sea is strongly controlled by the intensity of fluxes across the sediment water interface. Pore-water advection is one major exchange mechanism that is well described by models, as it is determined by physical parameters. In contrast, biotransport (i.e., bioirrigation, bioturbation) as the other major transport mechanism is much more complex. Observational data reflecting biotransport, from the German Bight for example, is scarce. We sampled the major sediment provinces of the German Bight repeatedly over the years from 2013 to 2019. By employing ex situ whole core incubations, we established the seasonal and spatial variability of macrofauna-sustained benthic fluxes of oxygen and nutrients. A multivariate, partial least squares analysis identified faunal activity, in specifically bioturbation and bioirrigation, alongside temperature, as the most important drivers of oxygen and nutrient fluxes. Their combined effect explained 63% of the observed variability in oxygen fluxes, and 36–48% of variability in nutrient fluxes. Additional 10% of the observed variability of fluxes were explained by sediment type and the availability of plankton biomass. Based on our extrapolation by sediment provinces, we conclude that pore-water advection and macrofaunal activity contributed equally to the total benthic oxygen uptake in the German Bight.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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