ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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Tropical climate changes at millennial and orbital timescales on the Bolivian Altiplano (2001)

Baker, P. A. ; Rigsby, C. A. ; Seltzer, G. O. ; [et al.]

Nature Publishing Group

In: Nature, 409 (6821). pp. 698-701.

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Publication Date: 2017-01-04

Description: Tropical South America is one of the three main centres of the global, zonal overturning circulation of the equatorial atmosphere (generally termed the 'Walker' circulation1). Although this area plays a key role in global climate cycles, little is known about South American climate history. Here we describe sediment cores and down-hole logging results of deep drilling in the Salar de Uyuni, on the Bolivian Altiplano, located in the tropical Andes. We demonstrate that during the past 50,000 years the Altiplano underwent important changes in effective moisture at both orbital (20,000-year) and millennial timescales. Long-duration wet periods, such as the Last Glacial Maximum—marked in the drill core by continuous deposition of lacustrine sediments—appear to have occurred in phase with summer insolation maxima produced by the Earth's precessional cycle. Short-duration, millennial events correlate well with North Atlantic cold events, including Heinrich events 1 and 2, as well as the Younger Dryas episode. At both millennial and orbital timescales, cold sea surface temperatures in the high-latitude North Atlantic were coeval with wet conditions in tropical South America, suggesting a common forcing.

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Master recyclers: features and functions of bacteria associated with phytoplankton blooms (2014)

Buchan, Alison ; LeCleir, Gary R. ; Gulvik, Christopher A. ; [et al.]

Nature Publishing Group

In: Nature Reviews Microbiology, 12 (10). pp. 686-698.

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Publication Date: 2020-06-23

Description: Marine phytoplankton blooms are annual spring events that sustain active and diverse bloom-associated bacterial populations. Blooms vary considerably in terms of eukaryotic species composition and environmental conditions, but a limited number of heterotrophic bacterial lineages — primarily members of the Flavobacteriia, Alphaproteobacteria and Gammaproteobacteria — dominate these communities. In this Review, we discuss the central role that these bacteria have in transforming phytoplankton-derived organic matter and thus in biogeochemical nutrient cycling. On the basis of selected field and laboratory-based studies of flavobacteria and roseobacters, distinct metabolic strategies are emerging for these archetypal phytoplankton-associated taxa, which provide insights into the underlying mechanisms that dictate their behaviours during blooms.

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Imprint of Southern Ocean eddies on winds, clouds and rainfall (2013)

Frenger, Ivy ; Gruber, N. ; Knutti, R. ; [et al.]

Nature Publishing Group

In: Nature Geoscience, 6 (8). pp. 608-612.

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Publication Date: 2017-10-24

Description: Owing to the turbulent nature of the ocean, mesoscale eddies are omnipresent. The impact of these transitory and approximately circular sea surface temperature fronts on the overlying atmosphere is not well known. Stationary fronts such as the Gulf Stream have been reported to lead to pronounced atmospheric changes1, 2. However, the impact of transient ocean eddies on the atmosphere has not been determined systematically, except on winds and to some extent clouds3, 4, 5, 6. Here, we examine the atmospheric conditions associated with over 600,000 individual eddies in the Southern Ocean, using satellite data. We show that ocean eddies locally affect near-surface wind, cloud properties and rainfall. The observed pattern of atmospheric change is consistent with a mechanism in which sea surface temperature anomalies associated with the oceanic eddies modify turbulence in the atmospheric boundary layer. In the case of cyclonic eddies, this modification triggers a slackening of near-surface winds, a decline in cloud fraction and water content, and a reduction in rainfall. We conclude that transient mesoscale ocean structures can significantly affect much larger atmospheric low-pressure systems that swiftly pass by at the latitudes investigated.

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Mit einem Auge unter dem Eis - was eine Videokamera da alles sehen kann (1996)

Lindemann, Frank ; Werner, Iris

Institut für Polarökologie Kiel

In: Mitteilungen zur Kieler Polarforschung, 12 . pp. 23-24.

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Publication Date: 2017-03-17

Type: Article , NonPeerReviewed

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Epibenthische Besiedlungsmuster am nordostgrönländischen Kontinentalhang (1996)

Mayer, Michaela

Institut für Polarökologie Kiel

In: Mitteilungen zur Kieler Polarforschung, 12 . pp. 25-27.

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Publication Date: 2017-03-17

Type: Article , NonPeerReviewed

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Der Einfluss der dreidimensionalen Eisstruktur auf die Zusammensetzung und Aktivität arktischer Meereis-Biozönosen (1996)

Krembs, Christopher

Institut für Polarökologie Kiel

In: Mitteilungen zur Kieler Polarforschung, 12 . pp. 15-22.

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Publication Date: 2017-03-17

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Unusual marine unicellular symbiosis with the nitrogen-fixing cyanobacterium UCYN-A (2016)

Zehr, Jonathan P. ; Shilova, Irina N. ; Farnelid, Hanna M. ; [et al.]

Springer Nature

In: Nature Microbiology, 2 (16214).

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Publication Date: 2020-06-24

Description: Nitrogen fixation — the reduction of dinitrogen (N2) gas to biologically available nitrogen (N) — is an important source of N for terrestrial and aquatic ecosystems. In terrestrial environments, N2-fixing symbioses involve multicellular plants, but in the marine environment these symbioses occur with unicellular planktonic algae. An unusual symbiosis between an uncultivated unicellular cyanobacterium (UCYN-A) and a haptophyte picoplankton alga was recently discovered in oligotrophic oceans. UCYN-A has a highly reduced genome, and exchanges fixed N for fixed carbon with its host. This symbiosis bears some resemblance to symbioses found in freshwater ecosystems. UCYN-A shares many core genes with the 'spheroid bodies' of Epithemia turgida and the endosymbionts of the amoeba Paulinella chromatophora. UCYN-A is widely distributed, and has diversified into a number of sublineages that could be ecotypes. Many questions remain regarding the physical and genetic mechanisms of the association, but UCYN-A is an intriguing model for contemplating the evolution of N2-fixing organelles.

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Solar forcing of winter climate variability in the Northern Hemisphere (2011)

Ineson, Sarah ; Scaife, Adam A. ; Knight, Jeff R. ; [et al.]

Nature Publishing Group

In: Nature Geoscience, 4 (11). pp. 753-757.

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Publication Date: 2017-03-27

Description: An influence of solar irradiance variations on Earth’s surface climate has been repeatedly suggested, based on correlations between solar variability and meteorological variables1. Specifically, weaker westerly winds have been observed in winters with a less active sun, for example at the minimum phase of the 11-year sunspot cycle2, 3, 4. With some possible exceptions5, 6, it has proved difficult for climate models to consistently reproduce this signal7, 8. Spectral Irradiance Monitor satellite measurements indicate that variations in solar ultraviolet irradiance may be larger than previously thought9. Here we drive an ocean–atmosphere climate model with ultraviolet irradiance variations based on these observations. We find that the model responds to the solar minimum with patterns in surface pressure and temperature that resemble the negative phase of the North Atlantic or Arctic Oscillation, of similar magnitude to observations. In our model, the anomalies descend through the depth of the extratropical winter atmosphere. If the updated measurements of solar ultraviolet irradiance are correct, low solar activity, as observed during recent years, drives cold winters in northern Europe and the United States, and mild winters over southern Europe and Canada, with little direct change in globally averaged temperature. Given the quasiregularity of the 11-year solar cycle, our findings may help improve decadal climate predictions for highly populated extratropical regions

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