Your search keyword '"Kessler W"' showing total 15 results

1. Reconstruction of Local Sea Levels at South West Pacific Islands—A Multiple Linear Regression Approach (1988–2014).

Author

Kumar, V., Melet, A., Meyssignac, B., Ganachaud, A., Kessler, W. S., Singh, A., and Aucan, J.

Abstract

Abstract: Rising sea levels are a critical concern in small island nations. The problem is especially serious in the western south Pacific, where the total sea level rise over the last 60 years has been up to 3 times the global average. In this study, we aim at reconstructing sea levels at selected sites in the region (Suva, Lautoka—Fiji, and Nouméa—New Caledonia) as a multilinear regression (MLR) of atmospheric and oceanic variables. We focus on sea level variability at interannual‐to‐interdecadal time scales, and trend over the 1988–2014 period. Local sea levels are first expressed as a sum of steric and mass changes. Then a dynamical approach is used based on wind stress curl as a proxy for the thermosteric component, as wind stress curl anomalies can modulate the thermocline depth and resultant sea levels via Rossby wave propagation. Statistically significant predictors among wind stress curl, halosteric sea level, zonal/meridional wind stress components, and sea surface temperature are used to construct a MLR model simulating local sea levels. Although we are focusing on the local scale, the global mean sea level needs to be adjusted for. Our reconstructions provide insights on key drivers of sea level variability at the selected sites, showing that while local dynamics and the global signal modulate sea level to a given extent, most of the variance is driven by regional factors. On average, the MLR model is able to reproduce 82% of the variance in island sea level, and could be used to derive local sea level projections via downscaling of climate models. [ABSTRACT FROM AUTHOR]

Published

2018

2. Complementary Use of Glider Data, Altimetry, and Model for Exploring Mesoscale Eddies in the Tropical Pacific Solomon Sea.

Author

Gourdeau, L., Verron, J., Chaigneau, A., Cravatte, S., and Kessler, W.

Abstract

Mesoscale activity is an important component of the Solomon Sea circulation that interacts with the energetic low-latitude western boundary currents of the South Tropical Pacific Ocean carrying waters of subtropical origin before joining the equatorial Pacific. Mixing associated with mesoscale activity could explain water mass transformation observed in the Solomon Sea that likely impacts El Niño Southern Oscillation dynamics. This study makes synergetic use of glider data, altimetry, and high-resolution model for exploring mesoscale eddies, especially their vertical structures, and their role on the Solomon Sea circulation. The description of individual eddies observed by altimetry and gliders provides the first elements to characterize the 3-D structure of these tropical eddies, and confirms the usefulness of the model to access a more universal view of such eddies. Mesoscale eddies appear to have a vertical extension limited to the Surface Waters (SW) and the Upper Thermocline Water (UTW), i.e., the first 140-150 m depth. Most of the eddies are nonlinear, meaning that eddies can trap and transport water properties. But they weakly interact with the deep New Guinea Coastal Undercurrent that is a key piece of the equatorial circulation. Anticyclonic eddies are particularly efficient to advect salty and warm SW coming from the intrusion of equatorial Pacific waters at Solomon Strait, and to impact the characteristics of the New Guinea Coastal Current. Cyclonic eddies are particularly efficient to transport South Pacific Tropical Water (SPTW) anomalies from the North Vanuatu Jet and to erode by diapycnal mixing the high SPTW salinity. [ABSTRACT FROM AUTHOR]

Published

2017

3. Exploring the mesoscale activity in the Solomon Sea: A complementary approach with a numerical model and altimetric data.

Author

Gourdeau, L., Verron, J., Melet, A., Kessler, W., Marin, F., and Djath, B.

Published

2014

4. Multivariate Curve Resolution - Integration von Wissen in Chemometrische Modelle.

Author

Kessler, W. and Kessler, R.

Published

2010

5. Einfluß des Lichtangebotes auf das Wachstum und die biologische Stickstoff-Fixierung von Weißklee (Trifolium repens L.).

Author

Kessler, W., Nosberger, J., and Boller, B. C.

Published

1988

6. Symbiotic Nitrogen Fixation of White Clover in a Mixed Sward is not Limited by Height of Repeated Cutting.

Author

Seresinhe, T., Hartwig, U. A., Kessler, W., and Nösberger, J.

Subjects

NITROGEN, CLOVER, LEGUMES, LOLIUM perenne, RYEGRASSES

Abstract

The aim of this study was to investigate whether symbiotic nitrogen fixation in white clover nodules limits nitrogen supply and hence clover growth by repeated defoliation at two cutting heights. Other possible factors governing symbiotic nitrogen fixation in the field were also elucidated. Using 15N, a 2-year field experiment including white clover (Trifolium repens L. cv. Ladino) and perennial ryegrass (Lolium perenne L. cv. Bastion) in monocultures and in mixtures was conducted in Eschikon, Switzerland. The effect of two cutting heights (4 cm and 10 cm above ground level) on the performance of symbiotic nitrogen fixation of white clover in the different sward-types was investigated. After each harvest, the plots were fertilized with 3 g N m-2 (equivalent to 30 kg N ha-1 cut-1 or 210 kg N ha-1 year-1). In both years, white clover grown in a mixture with grass received a significantly higher percentage of nitrogen from symbiotic fixation compared with clover grown in monoculture. This phenomenon is attributed to the strong competitiveness of ryegrass in soil nitrogen uptake. Consequently, white clover in the clover--ryegrass mixture was more dependent on symbiotic nitrogen fixation than that grown in monoculture. The cutting height did not preferentially influence symbiotic nitrogen fixation, as opposed to the uptake of mineral nitrogen from the soil. From this finding it is suggested that symbiotic nitrogen fixation did not limit the supply of nitrogen to clover and hence its growth. It is proposed that symbiotic nitrogen fixation in white clover is regulated by the demand for nitrogen rather than by the availability of carbohydrate reserves in the stolons. Symbiotic nitrogen fixation should thus be looked upon as an integrated plant growth factor and not as an isolated phenomenon. [ABSTRACT FROM AUTHOR]

Published

1994

7. Zur Synthese von Aminocaprolactam.

Author

Kessler, W. and Brenner, M.

Published

1969

8. Selektive Spaltung substituierter Phenylsulfenyl-Schutzgruppen bei Peptidsynthesen.

Author

Kessler, W. and Iselin, B.

Published

1966

9. The ratio of nerve fibers to nerve cells in the geniculate ganglion.

Author

Foley, James O., Pepper, H. R., and Kessler, W. H.

Published

1946

10. BODY COMPOSITION OF CALVES AND PIGS MEASURED BY LARGE VOLUME LIQUID SCINTILLATION COUNTING AND CONVENTIONAL CHEMICAL ANALYSES*.

Author

Martin, T. G., Kessler, W. V., Stant, E. G., Christian, J. E., and Andrews, F. N.

Published

1964

11. THE INFLUENCE OF RATION ON BODY COMPOSITION OF GROWING FARM ANIMALS*†.

Author

Martin, T. G., Garwood, V. A., Kessler, W. V., Christian, J. E., and Andrews, F. N.

Published

1964

12. ChemInform Abstract: Nitroxides (Aminyl Oxides). Part 43. The Effect of Structural Features Upon the Dimerization of Vinyl Nitroxides Substituted in β-Position by Cyclic Acyl Groups.

Author

AURICH, H. G., FRANZKE, M., KESSELHEIM, H.-P., KESSLER, W., MASSA, W., and WOCADLO, S.

Published

1990

13. ChemInform Abstract: Nitroxides (Aminyl Oxides). Part 42. The Isolation of the First OC-Bonded Dimer of a Vinyl Nitroxide.

Author

AURICH, H. G. and KESSLER, W.

Published

1990

14. ChemInform Abstract: Nitroxides (Aminyl Oxides). Part 39. Formation of Polycyclic Dimers from Vinyl Nitroxides and Their Dissociation and Isomerization.

Author

AURICH, H. G., BUBENHEIM, O., KESSLER, W., and MOGENDORF, K.-D.

Published

1989

15. Comparison of a production process in a membrane-aerated stirred tank and up to 1000-L airlift bioreactors using BHK-21 cells and chemically defined protein-free medium.

Author

Hesse F, Ebel M, Konisch N, Sterlinski R, Kessler W, and Wagner R

Subjects

Animals, Cell Line, Cell Survival physiology, Cricetinae, Culture Media, Serum-Free metabolism, Drug Industry instrumentation, Drug Industry methods, Interleukin-2 genetics, Kidney cytology, Pilot Projects, Recombinant Proteins biosynthesis, Rheology instrumentation, Rheology methods, Bioreactors, Cell Culture Techniques instrumentation, Cell Culture Techniques methods, Glucose metabolism, Glutamine metabolism, Interleukin-2 biosynthesis, Kidney metabolism, Membranes, Artificial

Abstract

The applicability of a protein-free medium for the production of recombinant human interleukin-2 with baby hamster kidney cells in airlift bioreactors was investigated. For this purpose, a BHK-21 cell line, adapted to grow and produce in protein-free SMIF7 medium without forming spheroids in membrane-aerated bubble-free bioreactors, was used as the producer cell line. First, cultivation of the cells was established at a 20-L scale using an internal loop airlift bioreactor system. During the culturing process the medium formulation was optimized according to the specific requirements associated with cultivation of mammalian cells under protein-free conditions in a bubble-aerated system. The effects of the addition of an antifoam agent on growth, viability, productivity, metabolic rates, and release of lactate dehydrogenase were investigated. Although it was possible to establish cultivation and production at a 20-L scale without the use of antifoaming substances, the addition of 0.002% silicon-oil-based antifoaming reagent improved the cultivation system by completely preventing foam formation. This reduced the release of lactate dehydrogenase activity to the level found in bubble-free aerated stirred tank membrane bioreactors and led to a reduction in generation doubling times by about 5 h (17%). Using the optimized medium formulation, cells were cultivated at a 1000-L scale, resulting in a culture performance comparable to the 20-L airlift bioreactor. For comparison, cultivations with protein-containing SMIF7 medium were carried out at 20- and 1000-L scales. The application of protein supplements did not lead to a significant improvement in the cultivation conditions. The results were also compared with experiments performed in a bubble-free aerated stirred tank membrane bioreactor to evaluate the influence of bubbles on the investigated culture parameters. The data implied a higher metabolic activity of the cells in airlift bioreactors with a 150% higher glucose consumption rate. The results of this study clearly demonstrate the applicability of a protein-free chemically defined medium for the production of recombinant proteins with BHK cells in airlift bioreactors.

Published

2003