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Pioneers in Cell Physiology: The Story of Warren and Margaret Lewis (2022)

Evans, David H.

Cham :Springer International Publishing :

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Schlagwort(e): Human physiology. ; Science History. ; Cytology. ; Human Physiology. ; History of Science. ; Cell Biology.

Beschreibung / Inhaltsverzeichnis: Warren Lewis: Early Life, Educational Background, and Early Research -- Margaret Reed: Early Life, Educational Background, and Early Research -- Early Collaborative Research -- Move to Carnegie Institution -- Research and Family Life in the Early 1920s -- Research in the Late 1920s -- Warren’s Research in the 1930s -- Margaret’s Research in the 1930s -- Impact, Accolades, and a Cottage in Maine -- Research after Warren’s “Retirement” -- Final Years: The End of Research, but not Honors.

Kurzfassung: This monograph is dedicated to the lives and scientific achievements of the physiology pioneers Warren and Margaret Lewis. Their story spans the first half of the 20th century, from their respective educations through early, independent research to joint research from 1910 to 1955. Among the numerous developments they initiated, were the discovery of pinocytosis, the beginnings of video microscopy and the development of the first mammalian tissue cultures. Their research expanded the theoretical knowledge of cell structure and function. On a more practical level, they advanced many laboratory methods, like the first recipes for culture media. The text is beautifully enriched with personal anecdotes about their lives. This is the story of two scientific pioneers in the context of early 20th century biology and physiology. It is an inspiration for senior and aspiring researchers.

Materialart: Online-Ressource

Seiten: XI, 195 p. 49 illus., 25 illus. in color. , online resource.

Ausgabe: 1st ed. 2022.

ISBN: 9783031118944

Serie: Perspectives in Physiology,

URL: https://doi.org/10.1007/978-3-031-11894-4

DOI: 10.1007/978-3-031-11894-4

DDC: 612

Sprache: Englisch

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Glaciers & glaciation (2010)

Benn, Douglas, I. [VerfasserIn] ; Evans, David J. A. [VerfasserIn]

London : Hodder Education

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Signatur: AWI G7-11-0061

Beschreibung / Inhaltsverzeichnis: Glaciers & Glaciation is the classic textbook for all students of glaciation. Stimulating and accessible, it has established a reputation as a comprehensive and essential resource. In this new edition, the text, references and illustrations have been thoroughly updated to provide a state-of-the-art overview of the nature, origin and behaviour of glaciers and the geological and geomorphological evidence for their past history on earth. The first part of the book investigates the processes involved in forming glacier ice, the natureof glacier-climate relationships, the mechanisms of glacier flow and the interactions of glaciers with other natural systems such as rivers, lakes and oceans. In the second part, the emphasis moves to landforms and sediment, the interpretation of the earth's glacial legacy and the reconstruction of glacial depositional environments and palaeoglaciology.

Materialart: Monographie ausleihbar

Seiten: XIV, 802 Seiten , Illustrationen

Ausgabe: Second edition

ISBN: 9780340905791

URL: http://bvbr.bib-bvb.de:8991/exlibris/aleph/a23_1/apache_media/AFF73KFBHK8K4QV5CSI63APNUATTA6.pdf

Sprache: Englisch

Anmerkung: CONTENTS PREFACE PREFACE TO THE SECOND EDITION ACKNOWLEDGEMENTS PART ONE GLACIERS 1 INTRODUCTION 1.1 Glacier systems 1.1.1 Mass balance 1.1.2 Meltwater 1.1.3 Glacier motion 1.1.4 Glaciers and sea-level change 1.1.5 Erosion and debris transport 1.1.6 Glacial sediments, landforms and landscapes 1.2 Glacier morphology 1.2.1 Ice sheets and ice caps 1.2.2 Glaciers constrained by topography 1.2.3 Ice shelves 1.3 Present distribution of glaciers 1.3.1 Influence of latitude and altitude 1.3.2 Influence of aspect, relief and distance from a moisture source 1.4 Past distribution of glaciers 1.4.1 'Icehouse' and 'greenhouse' worlds 1.4.2 Cenozoic glaciation 2 SNOW, ICE AND CLIMATE 2.1 Introduction 2.2 Surface energy balance 2.2.1 Changes of state and temperature 2.2.2 Shortwave radiation 2.2.3 Longwave radiation 2.2.4 Sensible and latent heat: turbulent fluxes 2.2.5 Energy supplied by rain 2.2.6 Why is glacier ice blue? 2.3 Ice temperature 2.3.1 The melting point of ice 2.3.2 Controls on ice temperature 2.3.3 Thermal structure of glaciers and ice sheets 2.4 Processes of accumulation and ablation 2.4.1 Snow and ice accumulation 2.4.2 Transformation of snow to ice 2.4.3 Melting of snow and ice 2.4.4 Sublimation and evaporation 2.4.5 The influence of debris cover 2.5 Mass balance 2.5.1 Definitions 2.5.2 Measurement of mass balance 2.5.3 Annual mass balance cycles 2.5.4 Mass balance gradients 2.5.5 The equilibrium line 2.5.6 Glaciation levels or glaciation thresholds 2.5.7 Glacier sensitivity to climate change 2.6 Glacier-climate interactions 2.6.1 Effects of glaciers and ice sheets on the atmosphere 2.7 Ice cores 2.7.1 Ice coring programmes 2.7.2 Stable isotopes 2.7.3 Ancient atmospheres: the gas content of glacier ice 2.7.4 Solutes and particulates 3 GLACIER HYDROLOGY 3.1 Introduction 3.2 Basic concepts 3.2.1 Water sources and routing 3.2.2 Hydraulic potential 3.2.3 Resistance to flow 3.2.4 Channel wall processes: melting, freezing and ice deformation 3.3 Supraglacial and englacial drainage 3.3.1 Supraglacial water storage and drainage 3.3.2 Englacial drainage 3.4 Subglacial drainage 3.4.1 Subglacial channels 3.4.2 Water films 3.4.3 Linked cavity systems 3.4.4 Groundwater flow 3.4.5 Water at the ice-sediment interface 3.5 Glacial hydrological systems 3.5.1 Temperate glaciers 3.5.2 Polythermal glaciers 3.5.3 Modelling glacial hydrological systems 3.6 Proglacial runoff 3.6.1 Seasonal and shorter-term cycles 3.6.2 Runoff and climate change 3.7 Glacial lakes and outburst floods 3.7.1 Introduction 3.7.2 Moraine-dammed lakes 3.7.3 Ice-dammed lakes 3.7.4 Icelandic subglacial lakes 3.7.5 Estimating GLOF magnitudes 3.8 Life in glaciers 3.8.1 Supraglacial ecosystems 3.8.2 Subglacial ecosystems 3.9 Glacier hydrochemistry 3.9.1 Overview 3.9.2 Snow chemistry 3.9.3 Chemical weathering processes 3.9.4 Subglacial chemical weathering 3.9.5 Proglacial environments 3.9.6 Rates of chemical erosion 4 PROCESSES OF GLACIER MOTION 4.1 Introduction 4.2 Stress and strain 4.2.1 Stress 4.2.2 Strain 4.2.3 Rheology: stress-strain relationships 4.2.4 Force balance in glaciers 4.3 Deformation of ice 4.3.1 Glen's Flow Law 4.3.2 Crystal fabric, impurities and water content 4.3.3 Ice creep velocities 4.4 Sliding 4.4.1 Frozen beds 4.4.2 Sliding of wet-based ice 4.4.3 Glacier-bed friction 4.4.4 The role of water 4.5 Deformable beds 4.5.1 The Boulton-Hindmarsh model 4.5.2 Laboratory testing of subglacial tills 4.5.3 Direct observations of deformable glacier beds 4.5.4 Rheology of subglacial till 4.6 Rates of basal motion 4.6.1 'Sliding laws' 4.6.2 Local and non-local controls on ice velocity 4.7 Crevasses and other structures: strain made visible 4.7.1 Crevasses 4.7.2 Crevasse patterns 4.7.3 Layering, foliation and related structures 5 GLACIER DYNAMICS 5.1 Introduction 5.2 Understanding glacier dynamics 5.2.1 Balance velocities 5.2.2 Deviations from the balance velocity 5.2.3 Changes in ice thickness: continuity 5.2.4 Thermodynamics 5.3 Glacier models 5.3.1 Overview 5.3.2 Equilibrium glacier profiles 5.3.3 Time-evolving glacier models 5.4 Dynamics of valley glaciers 5.4.1 Intra-annual velocity variations 5.4.2 Multi-annual variations 5.5 Calving glaciers 5.5.1 Flow of calving glaciers 5.5.2 Calving processes 5.5.3 'Calving laws' 5.5.4 Advance and retreat of calving glaciers 5.6 Ice shelves 5.6.1 Mass balance of k e shelves 5.6.2 Flow of ice shelves 5.6.3 Ice shelf break-up 5.7 Glacier surges 5.7.1 Overview 5.7.2 Distribution of surging glaciers 5.7.3 Temperate glacier surges 5.7.4 Polythermal surging glaciers 5.7.5 Surge mechanisms 6 THE GREENLAND AND ANTARCTIC ICE SHEETS 6.1 Introduction 6.2 The Greenland Ice Sheet 6.2.1 Overview 6.2.2 Climate and surface mass balance 6.2.3 Ice sheet flow 6.2.4 Ice streams and outlet glaciers 6.3 The Antarctic Ice Sheet 6.3.1 Overview 6.3.2 Climate and mass balance 6.3.3 Flow of inland ice 6.3.4 Ice streams 6.3.5 Hydrology and subglacial lakes 6.3.6 Ice stream stagnation and reactivation 6.3.7 Stability of the West Antarctic Ice Sheet 7 GLACIERS AND SEA LEVEL CHANGE 7.1 Introduction 7.2 Causes of sea-level change 7.2.1 Overview 7.2.2 Glacio-eustasy and global ice volume 7.2.3 Glacio-isostasy and ice sheet loading 7.3 Sea-level change over glacial-interglacial cycles 7.3.1 Ice sheet fluctuations and eustatic sea-level change 7.3.2 Sea-level histories in glaciated regions 7.4 Glaciers and recent sea-level change 7.4.1 Recorded sea-level change 7.4.2 Global glacier mass balance 7.5 Future sea-level change 7.5.1 IPCC climate and sea-level projections 7.5.2 Predicting the glacial contribution to sea-level change PART TWO GLACIATION 8 EROSIONAL PROCESSES, FORMS AND LANDSCAPES 8.1 Introduction 8.2 Subglacial erosion 8.2.1 Rock fracture: general principles 8.2.2 Abrasion 8.2,3 Quarrying 8.2.4 Erosion beneath cold ice 8.2.5 Erosion of soft beds 8.3 Small-scale erosional forms 8.3.1 Striae and polished surfaces 8.3.2 Rat tails 8.3.3 Chattermarks, gouges and fractures 8.3.4 P-forms 8.4 Intermediate-scale erosional forms 8.4.1 Roches moutonnees 8.4.2 Whalebacks and rock drumlins 8.4.3 Crag and tails 8.4.4 Channels 8.5 Large-scale erosional landforms 8.5.1 Rock basins and overdeepenings 8.5.2 Basins and overdeepenings in soft sediments 8.5.3 Troughs and fjords 8.5.4 Cirques 8.5.5 Strandflats 8.6 Landscapes of glacial erosion 8.6.1 Areal scouring 8.6.2 Selective linear erosion 8.6.3 Landscapes of little or no glacial erosion 8.6.4 Alpine landscapes 8.6.5 Cirque landscapes 8.6.6 Continent-scale patterns of erosion 9 DEBRIS ENTRAPMENT AND TRANSPORT 9.1 Introduction 9.2 Approaches to the study of glacial sediments 9.2.1 The glacial debris cascade 9.2.2 Spatial hierarchies of sediments and landforms 9.3 Glacial debris entrainment 9.3.1 Supraglacial debris entrainment 9.3.2 Incorporation of debris into basal ice 9.4 Debris transport and release 9.4.1 Subglacial transport 9.4.2 High-level debris transport 9.4.3 Glacifluvial transport 9.5 Effects of transport on debris 9.5.1 Granulometry 9.5.2 Clast morphology 9.5.3 Particle micromorphology 10 GLACIGENIC SEDIMENTS AND DEPOSITIONAL PROCESSES 10.1 Introduction 10.2 Sediment description and classification 10.2.1 Sediment description 10.2.2 Deformation structures 10.2.3 Primary and secondary deposits 10.3 Primary glacigenic deposits (till) 10.3.1 Overview 10.3.2 Processes of subglacial till formation 10.3.3 Glacitectonite 10.3.4 Subglacial traction till 10.4 Glacifluvial deposits 10.4.1 Terminology and classification of glacifluvial sediments 10.4.2 Plane bed deposits 10.4.3 Ripple cross-laminated facies 10.4.4 Dunes 10.4.5 Antidunes 10.4.6 Scour and minor channel fills 10.4.7 Gravel sheets 10.4.8 Silt and mud drapes 10.4.9 Hyperconcentrated flow deposits 10.5 Gravitational mass movement deposits and syn-sedimentary deformation structures 10.5.1 Overview 10.5.2 Fall deposits 10.5.3 Slide and slump deposits 10.5.4 Debris (sediment-gravity) flow deposits 10.5.5

Standort: AWI Lesesaal

Zweigbibliothek: AWI Bibliothek

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Seawater carbonate chemistry and calcification, respiration, and photosynthesis of the widespread diatom‐bearing LBF Operculina ammonoides (2020)

Oron, Shai ; Evans, David ; Abramovich, Sigal ; [weitere]

PANGAEA

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Publikationsdatum: 2024-03-15

Beschreibung: Larger benthic foraminifera (LBF) are unicellular eukaryotic calcifying organisms and an important component of tropical and subtropical modern and ancient oceanic ecosystems. They are major calcium carbonate producers and important contributors to primary production due to the photosynthetic activity of their symbiotic algae. Studies investigating the response of LBF to seawater carbonate chemistry changes are therefore essential for understanding the impact of climate changes and ocean acidification (OA) on shallow marine ecosystems. In this study, calcification, respiration, and photosynthesis of the widespread diatom‐bearing LBF Operculina ammonoides were measured in laboratory experiments that included manipulation of carbonate chemistry parameters. pH was altered while keeping dissolved inorganic carbon (DIC) constant, and DIC was altered while keeping pH constant. The results show clear vulnerability of O. ammonoides to low pH and CO32− under constant DIC conditions, and no increased photosynthesis or calcification under high DIC concentrations. Our results call into question previous hypotheses, suggesting that mechanisms such as the degree of cellular control on calcification site pH/DIC and/or enhanced symbiont photosynthesis in response to OA may render the hyaline (perforate and calcitic‐radial) LBF to be less responsive to OA than porcelaneous LBF. In addition, manipulating DIC did not affect calcification when pH was close to present seawater levels in a model encompassing the total population size range. In contrast, larger individuals (〉1,200 μm, 〉1 mg) were sensitive to changes in DIC, a phenomenon we attribute to their physiological requirement to concentrate large quantities of DIC for their calcification process.

Schlagwort(e): Alkalinity, total; Aragonite saturation state; Benthos; Bicarbonate ion; Bottles or small containers/Aquaria (〈20 L); Calcification/Dissolution; Calcification rate of calcium carbonate; Calcite saturation state; Calcium carbonate, mass; Calculated using CO2SYS; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chromista; Coast and continental shelf; Experiment; Experiment duration; Foraminifera; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Heterotrophic prokaryotes; Hydroxide ion; Identification; Individuals; Laboratory experiment; Mass; OA-ICC; Ocean Acidification International Coordination Centre; Operculina ammonoides; Oxygen evolution; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); pH; Photosynthesis rate; Primary production/Photosynthesis; Ratio; Red Sea; Registration number of species; Respiration; Salinity; Single species; Size; Species; Temperate; Temperature, water; Time in hours; Treatment; Type; Uniform resource locator/link to reference

Materialart: Dataset

Format: text/tab-separated-values, 3889 data points

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Mg/Ca, Sr/Ca and Na/Ca measured by LA-ICP-MS on the deepwater bivalve Acesta excavata from Norway (2021)

Schleinkofer, Nicolai ; Raddatz, Jacek ; Evans, David ; [weitere]

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Publikationsdatum: 2024-04-20

Beschreibung: We have measured Mg/Ca, Sr/Ca and Na/Ca in carbonate shells of the deepwater bivalve Acesta excavata. The samples were collected in the Sula reef and the Leksa reef on the Norwegian margin in summer 2014. Measurements were conducted using LA-ICP-MS.Laser ablation was performed using a Resolution M50 193 nm ArF Excimer Laser system (Resonetics), with a 72 μm beam diameter, a pulse rate of 10 Hz and 10 μm/s scan speed. Total sweep time was 0.65 s. Prior to the measurement a fast precleaning pass was conducted at 0.2 mm/s, 10Hz, and 104 μm laser spot size. Elemental ratio analysis was performed with a Thermo-Scientific ELEMENT XR sector field ICP-MS. In total, eight specimens were measured. In three specimens we measuerd perpendicular to the shell to investigate all shell layers. Additionally, we measured all eight samples in the fibrous and microgranular shell section (calcite). The measurements were taken from the ontogenetic oldest part of the bivalve (ventral side), spanning a length of 20 mm.

Schlagwort(e): Aecsta excavata; Binary Object; BIOACID; Bivalve; Dive #18; Dive #4; File content; JAGO; Mg/Ca; Na/Ca; POS473; POS473_892-1; POS473_911-1; Poseidon; Sr/Ca; Submersible JAGO

Materialart: Dataset

Format: text/tab-separated-values, 6 data points

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Sodium incorporation in foraminiferal calcite: an evaluation of the Na/Ca salinity proxy and evidence for multiple Na-bearing phases (2023)

Gray, William Robert ; Evans, David ; Henehan, Michael J ; [weitere]

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Publikationsdatum: 2024-04-25

Beschreibung: New and compiled Na/Ca measurements of the planktonic foraminifera Globigerinoides ruber. The dataset contains data from foraminiferal samples 1) collected from plankton tows and sediment traps which span a wide salinity range (32.5 - 40.7 salinity units) across the Bay-of-Bengal, Arabian Sea, and Red Sea, 2) cultured in the laboratory under varying carbonate chemistry, and 3) a globally-distributed suite of core-top samples. Na/Ca was measured using both solution and laser ablation ICP-MS. The foraminiferal Na/Ca data are provided alongside environmental parameters for each sample (e.g. temperature, salinity, pH, bottom water Omega calcite), in order to assess the environmental controls on Na/Ca in foraminifera. The data accompany the following manuscript: Gray et al. (2023, doi:10.1016/j.gca.2023.03.011).

Schlagwort(e): Analytical method; as_m5_1; as_m5_10; as_m5_11; as_m5_12; as_m5_13; as_m5_14; as_m5_15; as_m5_16; as_m5_17; as_m5_18; as_m5_19; as_m5_2; as_m5_20; as_m5_21; as_m5_3; as_m5_4; as_m5_5; as_m5_6; as_m5_7; as_m5_8; as_m5_9; as_m5_LA; Calcite saturation state; Calculated according to Henehan et al. (2015); CAR22Z_RUBER_SS_250-300; CAR22Z_RUBER_SS_300-355; Carbonate ion; cbbt_LA; cbbt06_C10; cbbt06_C11; cbbt06_C12; cbbt06_C2; cbbt06_C3; cbbt06_C4; cbbt06_C6; cbbt06_C7; cbbt06_C8; cbbt06_C9; Core; CORE; DEPTH, water; Eilat_RUBER_SL_250-300; Eilat_RUBER_SS_250-300; Eilat_Tow_DE; Eilat_Tow1; Eilat_Tow2; Eilat_Tow3; Event label; Foraminifera; Foraminiferal geochemistry; G4_RUBER_SL_300-355; G4_RUBER_SL_355-400; G4_RUBER_SS_300-355; GGC48_RUBER_MIXED_250-300; GGC48_RUBER_MIXED_300-355; GGC48_RUBER_SS_250-300; GGC48_RUBER_SS_300-355; Globigerinoides ruber white; Globigerinoides ruber white, size; Globigerinoides ruber white, Sodium/Calcium ratio; Globigerinoides ruber white, Sodium/Calcium ratio, standard deviation; LATITUDE; LONGITUDE; MC120_RUBER_SL_250-300; MC120_RUBER_SL_300-355; MC120_RUBER_SS_250-300; MC120_RUBER_SS_300-355; MC120_RUBER_SS_355-400; MC29__RUBER_SL_250-355; MC394_RUBER_MIXED_300-355; MC40_RUBER_SL_300-355; MC420_RUBER_SL_250-300; MC420_RUBER_SL_300-355; MC420_RUBER_SL_355-400; MC420_RUBER_SS_250-300; MC420_RUBER_SS_300-355; MC420_RUBER_SS_355-400; MC436_RUBER_SL_300-355; MC497_RUBER_SL_300-355; MC497_RUBER_SS_300-355; MC497_RUBER_SS_355-400; MC497_RUBER_SS_400-455; MC655_RUBER_PINK; MC655_RUBER_SL_250-300; MC655_RUBER_SL_300-355; mezger2016_pp1; mezger2016_pp2; mezger2016_pp4; mezger2016_pp5; mezger2016_pp7; mezger2016_pp9; Microscopy; Na/Ca; nbbt09_N1; nbbt09_N10_11; nbbt09_N13; nbbt09_N3; nbbt09_N4; nbbt09_N5; nbbt09_N6; nbbt09_N7; nbbt09_N8; OC476-SR223_RUBER_SL_250-300; OC476-SR223_RUBER_SL_300-355; OC476-SR223_RUBER_SS_250-355; ODP_664_RUBER_SL_300-355; ODP_664_RUBER_SS_300-355; pH; planktic foraminifera; Plankton Tow; Q699_RUBER_SL_250-355; Reference/source; Salinity; Sample ID; Sample type; sbbt_LA; sbbt09_S1; sbbt09_S10; sbbt09_S11; sbbt09_S12; sbbt09_S2; sbbt09_S3; sbbt09_S4; sbbt09_S5; sbbt09_S6; sbbt09_S8; sbbt09_S9; Sediment trap; See description in dataset comment; Site; T329_RUBER_SL_250-300; T329_RUBER_SL_300-355; T329_RUBER_SL_355-400; T329_RUBER_SS_250-300; T329_RUBER_SS_300-355; T329_RUBER_SS_355-400; Temperature, water; TOWN; Tow net; U226_RUBER_SL_250-355

Materialart: Dataset

Format: text/tab-separated-values, 1907 data points

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Quantifying Sub\xe2\x80\x90Seasonal Growth Rate Changes in Fossil Giant Clams Using Wavelet Transformation of Daily Mg/Ca Cycles (2023)

Arndt, Iris ; Coenen, Douglas ; Evans, David ; [weitere]

American Geophysical Union (AGU)

In: Geochemistry, Geophysics, Geosystems vol. 24 no. 10

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Publikationsdatum: 2024-02-08

Beschreibung: Shells of the giant clam Tridacna can provide decade-long records of past environmental conditions via their geochemical composition and structurally through growth banding. Counting the daily bands can give an accurate internal age model with high temporal resolution, but daily banding is not always visually retrievable, especially in fossil specimens. We show that daily geochemical cycles (e.g., Mg/Ca) are resolvable via highly spatially resolved laser-ablation inductively coupled plasma mass spectrometry (LA-ICPMS; 3 \xc3\x97 33 \xce\xbcm laser slit) in our Miocene (\xe2\x88\xbc10 Ma) specimen, even in areas where daily banding is not visually discernible. By applying wavelet transformation on the measured daily geochemical cycles, we quantify varying daily growth rates throughout the shell. These growth rates are thus used to build an internal age model independent of optical daily band countability. Such an age model can be used to convert the measured elemental ratios from a function of distance to a function of time, which helps evaluate paleoenvironmental proxy data, for example, regarding the timing of sub-seasonal events. Furthermore, the quantification of daily growth rates across the shell facilitates the evaluation of (co)dependencies between growth rates and corresponding elemental compositions.

Schlagwort(e): Tridacna

Repository-Name: National Museum of Natural History, Netherlands

Materialart: info:eu-repo/semantics/article

Format: application/pdf

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Invisible Engines (2022)

Evans, David S. ; Hagiu, Andrei ; Schmalensee, Richard

The MIT Press | The MIT Press

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Publikationsdatum: 2022-02-21

Beschreibung: Harnessing the power of software platforms: what executives and entrepreneurs must know about how to use this technology to transform industries and how to develop the strategies that will create value and drive profits. Software platforms are the invisible engines that have created, touched, or transformed nearly every major industry for the past quarter century. They power everything from mobile phones and automobile navigation systems to search engines and web portals. They have been the source of enormous value to consumers and helped some entrepreneurs build great fortunes. And they are likely to drive change that will dwarf the business and technology revolution we have seen to this point. Invisible Engines examines the business dynamics and strategies used by firms that recognize the transformative power unleashed by this new revolution—a revolution that will change both new and old industries. The authors argue that in order to understand the successes of software platforms, we must first understand their role as a technological meeting ground where application developers and end users converge. Apple, Microsoft, and Google, for example, charge developers little or nothing for using their platforms and make most of their money from end users; Sony PlayStation and other game consoles, by contrast, subsidize users and make more money from developers, who pay royalties for access to the code they need to write games. More applications attract more users, and more users attract more applications. And more applications and more users lead to more profits. Invisible Engines explores this story through the lens of the companies that have mastered this platform-balancing act. It offers detailed studies of the personal computer, video game console, personal digital assistant, smart mobile phone, and digital media software platform industries, focusing on the business decisions made by industry players to drive profits and stay a step ahead of the competition. Shorter discussions of Internet-based software platforms provide an important glimpse into a future in which the way we buy, pay, watch, listen, learn, and communicate will change forever. An electronic version of this book is available under a Creative Commons license.

Schlagwort(e): Knowledge management ; Information technology: general topics ; bic Book Industry Communication::K Economics, finance, business & management::KJ Business & management::KJM Management & management techniques::KJMV Management of specific areas::KJMV3 Knowledge management ; bic Book Industry Communication::U Computing & information technology::UB Information technology: general issues

Sprache: Englisch

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Brain Korea 21 Phase II (2023)

Seong, Somi ; Popper, Steven W. ; Goldman, Charles A. ; [weitere]

RAND Corporation

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Publikationsdatum: 2023-10-05

Beschreibung: The Brain Korea 21 Program (BK21), which seeks to make Korean research universities globally competitive and to produce more high-quality researchers in Korea, provides funding to graduate students and professors who belong to research groups at top universities. The authors develop quantitative and qualitative models to evaluate how well BK21 is fulfilling its goals and make suggestions for further stimulating Korean university research.

Schlagwort(e): Education ; Management & Organizational Behavior ; bic Book Industry Communication::K Economics, finance, business & management::KJ Business & management::KJW Office & workplace::KJWX Working patterns & practices ; bic Book Industry Communication::J Society & social sciences::JN Education::JNF Educational strategies & policy

Sprache: Englisch

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