Search Results - (Author, Cooperation:J. Veizer)
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1Latest Papers from Table of Contents or Articles in PressJ. F. Hughes ; H. Skaletsky ; L. G. Brown ; T. Pyntikova ; T. Graves ; R. S. Fulton ; S. Dugan ; Y. Ding ; C. J. Buhay ; C. Kremitzki ; Q. Wang ; H. Shen ; M. Holder ; D. Villasana ; L. V. Nazareth ; A. Cree ; L. Courtney ; J. Veizer ; H. Kotkiewicz ; T. J. Cho ; N. Koutseva ; S. Rozen ; D. M. Muzny ; W. C. Warren ; R. A. Gibbs ; R. K. Wilson ; D. C. Page
Nature Publishing Group (NPG)
Published 2012Staff ViewPublication Date: 2012-03-01Publisher: Nature Publishing Group (NPG)Print ISSN: 0028-0836Electronic ISSN: 1476-4687Topics: BiologyChemistry and PharmacologyMedicineNatural Sciences in GeneralPhysicsKeywords: Animals ; Chromosomes, Human, Y/*genetics ; Conserved Sequence/*genetics ; Crossing Over, Genetic/genetics ; *Evolution, Molecular ; Gene Amplification/genetics ; *Gene Deletion ; Humans ; In Situ Hybridization, Fluorescence ; Macaca mulatta/*genetics ; Male ; Models, Genetic ; Molecular Sequence Data ; Pan troglodytes/genetics ; Radiation Hybrid Mapping ; Selection, Genetic/genetics ; Time Factors ; Y Chromosome/*geneticsPublished by: -
2Articles: DFG German National LicensesStaff View
ISSN: 0012-821XSource: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002Topics: GeosciencesPhysicsType of Medium: Electronic ResourceURL: -
3Articles: DFG German National LicensesBuhl, D. ; Neuser, R. D. ; Richter, D. K. ; Riedel, D. ; Roberts, B. ; Strauss, H. ; Veizer, J.
Springer
Published 1991Staff ViewISSN: 1432-1904Source: Springer Online Journal Archives 1860-2000Topics: BiologyChemistry and PharmacologyNatural Sciences in GeneralNotes: Abstract The total dissolved load of the Rhine river increases downstream due to the combined impact of natural and pollution loads. The natural background, controlled by geology, is soon swamped by pollution, particularly from salt and coal mining activities in Alsace and the Ruhr area. The Rhine is also a net source of CO2 from oxidation of excess organic productivity that is fuelled by nutrient pollution, a problem even more serious for some of its tributaries.Type of Medium: Electronic ResourceURL: -
4Articles: DFG German National LicensesMeijer, J. ; Stephan, A. ; Adamczewski, J. ; Bukow, H.H. ; Rolfs, C. ; Pickart, T. ; Bruhn, F. ; Veizer, J.
Amsterdam : ElsevierStaff ViewISSN: 0168-583XSource: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002Topics: PhysicsType of Medium: Electronic ResourceURL: -
5Articles: DFG German National LicensesFriese, K. ; Wendt-Potthoff, K. ; Zachmann, D.W. ; Fauville, A. ; Mayer, B. ; Veizer, J.
Springer
Published 1998Staff ViewISSN: 1573-2932Keywords: bacterial sulfate reduction ; iron reduction ; sediment ; pore-water chemistry ; acidic mining lake ; stable sulfur isotopesSource: Springer Online Journal Archives 1860-2000Topics: Energy, Environment Protection, Nuclear Power EngineeringNotes: Abstract Chemical, microbiological and stable isotope analyses of sediments from an acidic mining lake were used to evaluate whether biogeochemical processes, such as iron and sulfate reduction, are extant, because such processes can potentially generate alkalinity. Sediment cores were sliced in cm intervals to achieve a high resolution for spatial distribution of organic and inorganic components. Iron, sulfur, carbon, nitrogen and phosphorus as well as the most probable number (MPN) of iron reducing bacteria, the amount of lipid phosphate and the stable isotope compositions of various sedimentary sulfur compounds were measured. Accumulation of degradable organic material, reduced mass fractions of iron, enhanced concentrations of lipid phosphate, high concentrations of DOC and ferrous iron in the pore water and a drastic change of sulfur isotope ratios in the upper 3 cm of the sediment all indicated a highly reactive zone of biogeochemical transformations. The data provide clear evidence for iron and sulfate reducing processes in the sediments that result in an increase of pH with depth.Type of Medium: Electronic ResourceURL: