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The Dark Matter Problem : A Historical Perspective. (2010)

Sanders, Robert H.

Cambridge :Cambridge University Press,

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Keywords: Dark matter (Astronomy) -- History. ; Interstellar matter. ; Electronic books.

Description / Table of Contents: Describing the development of dark matter theory, this book shows why it is now a central feature of extragalactic astronomy and cosmology. This fascinating overview will interest cosmologists, astronomers and particle physicists. Mathematics is kept to a minimum, so the book can be understood by non-specialists.

Type of Medium: Online Resource

Pages: 1 online resource (215 pages)

Edition: 1st ed.

ISBN: 9780511773570

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=542890

DDC: 523.1/126

Language: English

Note: Cover -- Half-title -- Title -- Copyright -- Contents -- Acknowledgements -- 1 Introduction -- 2 Early history of the dark matter hypothesis -- 2.1 Prehistory -- 2.2 Zwicky and the modern concept of dark matter -- 2.3 Dark matter on galaxy scales -- 2.4 Radio astronomy: a new tool for galactic astronomy -- 2.5 Finzi sums it up -- 3 The stability of disk galaxies: the dark-halo solution -- 3.1 Building disk galaxies: too hot to be real -- 3.2 Dark halos to the rescue -- 3.3 Larger implications -- 4 Direct evidence: extended rotation curves of spiral galaxies -- 4.1 Radio telescopes: single-dish and interferometers -- 4.2 Early results of single-dish neutral hydrogen observations -- 4.3 Early observations of spiral galaxies with radio interferometers -- 4.4 Flat rotation curves: perception approaches reality -- 5 The maximum-disk: light traces mass -- 5.1 Reaction follows revolution -- 5.2 The anomaly exists beyond the visible disk -- 5.3 Low-surface-brightness galaxies and sub-maximal disks -- 5.4 Reflections on observations of rotation curves -- 6 Cosmology and the birth of astroparticle physics -- 6.1 A brief history of modern cosmological models -- 6.2 Structure formation: dark matter again to the rescue -- 6.3 Some like it hot, most like it cold, all like it in the pot 10 billion years old -- 6.4 What is the matter? -- 6.5 A new paradigm: standard CDM -- 7 Clusters revisited: missing mass found -- 7.1 The reality of the cluster discrepancy -- 7.2 Hot gas in clusters of galaxies -- 7.3 Gravitational lensing: a new method for probing cluster mass distribution -- 7.4 The Bullet -- 8 CDM confronts galaxy rotation curves -- 8.1 What do rotation curves require of dark matter? -- 8.2 Global scaling relations -- 8.3 Structure formation in a CDM universe -- 8.4 The mass distribution in CDM dark halos -- 8.5 Substructure in CDM halos. , 8.6 The Tully-Fisher law -- 8.7 Can CDM be falsified by galaxy phenomenology? -- 9 The new cosmology: introducing dark energy -- 9.1 The accelerated expansion of the Universe -- 9.2 COBE finds the primordial fluctuations -- 9.3 What do we see in the CMB? -- 9.4 Boomerang to WMAP: the age of precision cosmology -- 9.5 Reflections -- 10 An alternative to dark matter: modified Newtonian dynamics -- 10.1 Naive modifications of Newtonian attraction -- 10.2 MOND -- 10.3 MOND and hot galaxies -- 10.4 MOND and rotation curves -- 10.5 The problem of clusters -- 10.6 Relativistic MOND: TeVeS -- 10.7 Summing up: MOND vs. dark matter -- 11 Seeing dark matter: the theory and practice of detection -- 11.1 Non-gravitational detection of dark matter -- 11.2 The practice of direct detection -- 11.3 Indirect detection of dark matter -- 11.4 Light on dark matter: the story so far -- 12 Reflections: a personal point of view -- Appendix Astronomy made simple -- A1 Electromagnetic radiation -- A2 Distance in astronomy -- A3 Galaxies -- A4 Weighing galaxies and clusters -- A5 Cosmology -- A6 Radiation and the thermal history of the Universe -- A7 Non-baryonic matter and dark energy -- A8 Gravitational instability and the growth of structure -- References -- Index.

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Linking bacterivory and phyletic diversity of protists with a marker gene survey and experimental feeding with BrdU-labeled bacteria (2014)

Fay, Scott A. ; Gast, Rebecca J. ; Sanders, Robert W.

Inter-Research

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Publication Date: 2022-05-25

Description: Author Posting. © Inter-Research, 2013. This article is posted here by permission of Inter-Research for personal use, not for redistribution. The definitive version was published in Aquatic Microbial Ecology 71 (2013):141-153, doi:10.3354/ame01674.

Description: Over the last few decades, molecular methods have vastly improved our ability to study the diversity of microbial communities. In molecular diversity surveys, the function of protists is often inferred from phylogeny. Yet these surveys are unable to distinguish between different trophic modes among closely related taxa. Here we present results from a culture-independent study linking bacterivory to the diversity of pelagic protists from 3 depths of a stratified mesotrophic lake. Bacteria were labeled with bromodeoxyuridine (BrdU) and added to lakewater samples; after incubation, total DNA was extracted from filtered samples. Part of the DNA extract was subjected to immunoprecipitation with anti-BrdU antibodies, and then both whole DNA and BrdU-labeled samples were analyzed using 454-pyrosequencing of the v9 region of 18S small subunit rRNA gene amplicons. The results show that a different community of protists exists at each depth, with limited overlap of taxonomic composition between depths. The community of BrdU-labeled protists, deemed putative bacterivores, is largely a subset of the community found in the whole DNA samples. Many of these BrdU-labeled taxa are poorly represented in GenBank and thus are probably rarely isolated and/or uncultured species. Several of the taxa identified as bacterivores are also phototrophs, highlighting the important role of mixotrophy among eukaryotic microbes. Definitive identity of functional traits among taxa requires careful experimentation, yet this method allows a first-pass assay of the trophic role of microbial eukaryotes from environmental samples.

Description: This work was funded in part by NSF grants OPP-0838847 and OPP-0838955.

Keywords: Molecular methods ; Microbial community ; Mixotrophy ; Bromodeoxyuridine ; Culture-independent ; Eukaryotic microbes ; Pyrosequencing ; Lake microbes

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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