Institution
University of Kiel
Education•Kiel, Germany•
About: University of Kiel is a education organization based out in Kiel, Germany. It is known for research contribution in the topics: Population & Crystal structure. The organization has 27816 authors who have published 57114 publications receiving 2061802 citations. The organization is also known as: Christian Albrechts University & Christian-Albrechts-Universität zu Kiel.
Topics: Population, Crystal structure, Transplantation, Gene, Receptor
Papers published on a yearly basis
Papers
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University of Helsinki1, University of Eastern Finland2, Finnish Meteorological Institute3, University of Antwerp4, Weizmann Institute of Science5, University of Bayreuth6, Seconda Università degli Studi di Napoli7, Woods Hole Research Center8, University of Kiel9, Max Planck Society10, Lund University11
TL;DR: In this article, the effect of soil moisture on chamber measurements was tested by wetting the fine quartz sand to about 25% volumetric water content, and the results showed that the chamber headspace concentration also affects the flux by altering the concentration gradient between the soil and the chamber.
489 citations
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TL;DR: The structure of temperature-sensitive poly(N-isopropylacrylamide) microgels in dilute suspension was investigated by means of small-angle neutron scattering and clearly showed that the segment density in the swollen state is not homogeneous, but gradually decays at the surface.
Abstract: The structure of temperature-sensitive poly(N-isopropylacrylamide) microgels in dilute suspension was investigated by means of small-angle neutron scattering. A direct modeling expression for the scattering intensity distribution was derived which describes very well the experimental data at all temperatures over an extensive q range. The overall particle form as well as the internal structure of the microgel network is described by the model. The influence of temperature, cross-linking density, and particle size on the structure was revealed by radial density profiles and clearly showed that the segment density in the swollen state is not homogeneous, but gradually decays at the surface. The density profile reveals a box profile only when the particles are collapsed at elevated temperatures. An increase of the cross-linking density resulted in both an increase of the polymer volume fraction in the inner region of the particle and a reduction of the smearing of the surface. The polymer volume fraction inside the colloid decreased with increasing particle size. The structural changes are in good agreement with the kinetics of the emulsion copolymerization used to prepare the microgel colloids.
488 citations
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TL;DR: The OpenGeoSys (OGS) project as discussed by the authors is a scientific open-source initiative for numerical simulation of thermo-hydro-mechanical chemical processes in porous media.
Abstract: In this paper we describe the OpenGeoSys (OGS) project, which is a scientific open-source initiative for numerical simulation of thermo-hydro-mechanical-chemical processes in porous media. The basic concept is to provide a flexible numerical framework (using primarily the Finite Element Method (FEM)) for solving multifield problems in porous and fractured media for applications in geoscience and hydrology. To this purpose OGS is based on an object-oriented FEM concept including a broad spectrum of interfaces for pre- and postprocessing. The OGS idea has been in development since the mid-eighties. We provide a short historical note about the continuous process of concept and software development having evolved through Fortran, C, and C++ implementations. The idea behind OGS is to provide an open platform to the community, outfitted with professional software-engineering tools such as platform-independent compiling and automated benchmarking. A comprehensive benchmarking book has been prepared for publication. Benchmarking has been proven to be a valuable tool for cooperation between different developer teams, for example, for code comparison and validation purposes (DEVOVALEX and CO2 BENCH projects). On one hand, object-orientation (OO) provides a suitable framework for distributed code development; however, the parallelization of OO codes still lacks efficiency. High-performance-computing efficiency of OO codes is subject to future research.
488 citations
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TL;DR: There is an overview of available evidence for optimal use of Erwinia asparaginase in the treatment of ALL and debate on the optimal formulation and dosage of these agents continues.
Abstract: Asparaginases are a cornerstone of treatment protocols for acute lymphoblastic leukemia (ALL) and are used for remission induction and intensification treatment in all pediatric regimens and in the majority of adult treatment protocols. Extensive clinical data have shown that intensive asparaginase treatment improves clinical outcomes in childhood ALL. Three asparaginase preparations are available: the native asparaginase derived from Escherichia coli (E. coli asparaginase), a pegylated form of this enzyme (PEG-asparaginase), and a product isolated from Erwinia chrysanthemi, ie, Erwinia asparaginase. Clinical hypersensitivity reactions and silent inactivation due to antibodies against E. coli asparaginase, lead to inactivation of E. coli asparaginase in up to 60% of cases. Current treatment protocols include E. coli asparaginase or PEG-asparaginase for first-line treatment of ALL. Typically, patients exhibiting sensitivity to one formulation of asparaginase are switched to another to ensure they receive the most efficacious treatment regimen possible. Erwinia asparaginase is used as a second- or third-line treatment in European and US protocols. Despite the universal inclusion of asparaginase in such treatment protocols, debate on the optimal formulation and dosage of these agents continues. This article provides an overview of available evidence for optimal use of Erwinia asparaginase in the treatment of ALL.
486 citations
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University of Bern1, Technische Universität München2, University of Jena3, Smithsonian Conservation Biology Institute4, University of Natural Resources and Life Sciences, Vienna5, University of Tübingen6, University of Cologne7, Leibniz Association8, University of Freiburg9, Lund University10, Technische Universität Darmstadt11, University of Göttingen12, Helmholtz Centre for Environmental Research - UFZ13, University of Kiel14, University of Potsdam15, University of Münster16, University of Ulm17, University of Würzburg18, Max Planck Society19, Xavier University20, Free University of Berlin21, University of Salzburg22, Smithsonian Tropical Research Institute23, Karlsruhe Institute of Technology24, University of Giessen25
TL;DR: It is demonstrated that primary producers, herbivorous insects and microbial decomposers seem to be particularly important drivers of ecosystem functioning, as shown by the strong and frequent positive associations of their richness or abundance with multiple ecosystem services.
Abstract: Many experiments have shown that loss of biodiversity reduces the capacity of ecosystems to provide the multiple services on which humans depend. However, experiments necessarily simplify the complexity of natural ecosystems and will normally control for other important drivers of ecosystem functioning, such as the environment or land use. In addition, existing studies typically focus on the diversity of single trophic groups, neglecting the fact that biodiversity loss occurs across many taxa and that the functional effects of any trophic group may depend on the abundance and diversity of others. Here we report analysis of the relationships between the species richness and abundance of nine trophic groups, including 4,600 above- and below-ground taxa, and 14 ecosystem services and functions and with their simultaneous provision (or multifunctionality) in 150 grasslands. We show that high species richness in multiple trophic groups (multitrophic richness) had stronger positive effects on ecosystem services than richness in any individual trophic group; this includes plant species richness, the most widely used measure of biodiversity. On average, three trophic groups influenced each ecosystem service, with each trophic group influencing at least one service. Multitrophic richness was particularly beneficial for 'regulating' and 'cultural' services, and for multifunctionality, whereas a change in the total abundance of species or biomass in multiple trophic groups (the multitrophic abundance) positively affected supporting services. Multitrophic richness and abundance drove ecosystem functioning as strongly as abiotic conditions and land-use intensity, extending previous experimental results to real-world ecosystems. Primary producers, herbivorous insects and microbial decomposers seem to be particularly important drivers of ecosystem functioning, as shown by the strong and frequent positive associations of their richness or abundance with multiple ecosystem services. Our results show that multitrophic richness and abundance support ecosystem functioning, and demonstrate that a focus on single groups has led to researchers to greatly underestimate the functional importance of biodiversity.
486 citations
Authors
Showing all 28103 results
Name | H-index | Papers | Citations |
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Stefan Schreiber | 178 | 1233 | 138528 |
Jun Wang | 166 | 1093 | 141621 |
William J. Sandborn | 162 | 1317 | 108564 |
Jens Nielsen | 149 | 1752 | 104005 |
Tak W. Mak | 148 | 807 | 94871 |
Annette Peters | 138 | 1114 | 101640 |
Severine Vermeire | 134 | 1086 | 76352 |
Peter M. Rothwell | 134 | 779 | 67382 |
Dusan Bruncko | 132 | 1042 | 84709 |
Gideon Bella | 129 | 1301 | 87905 |
Dirk Schadendorf | 127 | 1017 | 105777 |
Neal L. Benowitz | 126 | 792 | 60658 |
Thomas Schwarz | 123 | 701 | 54560 |
Meletios A. Dimopoulos | 122 | 1371 | 71871 |
Christian Weber | 122 | 776 | 53842 |