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Iron Cycle in Oceans.

By: Contributor(s): Material type: TextTextPublisher: Newark : John Wiley & Sons, Incorporated, 2016Copyright date: ©2017Edition: 1st edDescription: 1 online resource (137 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781119136866
Subject(s): Genre/Form: Additional physical formats: Print version:: Iron Cycle in OceansDDC classification:
  • 577.14
LOC classification:
  • QH344.B535 2016
Online resources:
Contents:
Cover -- Title Page -- Copyright -- Contents -- Preface -- 1. Iron Speciation in Seawater -- 1.1. The chemical element -- 1.2. Iron speciation -- 1.2.1. Inorganic speciation -- 1.2.2. Organic speciation -- 1.2.3. Redox speciation -- 1.2.4. Operational definitions of iron speciation -- 1.3. Applying speciation -- 1.3.1. Solubility -- 1.3.2. Photochemistry -- 1.3.3. Cultures in artificial seawater with well-defined iron speciation -- 1.3.4. Iron bioavailability: the chemical perspective -- 1.3.5. Iron speciation on geological timescales -- 2. Analytical Methods -- 2.1. Trace-metal clean sampling techniques -- 2.2. Processing of the sample before measurement of concentrations -- 2.3. Particle collection -- 2.4. Iron determination -- 2.4.1. Historical perspective -- 2.4.2. Flow injection analysis -- 2.4.3. Electrochemistry -- 2.4.4. Mass spectrometry -- 2.4.5. Iron reference samples -- 2.4.6. Probing iron bioavailability -- 3. Modeling Methods -- 3.1. Overview -- 3.2. Modeling frameworks -- 3.3. Modeling iron cycle processes -- 3.3.1. Modeling iron supply -- 3.3.2. Modeling iron speciation -- 3.3.3. Modeling biological uptake of iron -- 3.3.4. Modeling iron regeneration -- 3.4. Synthesis -- 4. Iron Sources -- 4.1. Overview -- 4.2. Dust deposition -- 4.3. River supply -- 4.4. Continental margins -- 4.5. Hydrothermalism -- 4.6. Glaciers, icebergs and sea ice -- 4.7. Submarine groundwater discharge -- 4.8. Synthesis -- 5. Iron Cycling in the Ocean -- 5.1. The biological iron demand -- 5.1.1. Phytoplankton iron requirement -- 5.1.2. Iron requirements of heterotrophic organisms -- 5.2. Iron cycling in the surface ocean -- 5.3. Iron export and its cycling below the mixed layer -- 6. Dissolved Iron Distributions in the Ocean -- 6.1. Overview -- 6.2. Temporal evolution in the number of observations.
6.3. The contemporary view of the distribution of iron in the ocean -- 6.4. The vertical profile of iron -- 6.5. Synthesis -- 7. The Iron Hypothesis -- 7.1. Introduction -- 7.2. From bottle incubations to mesoscale experiments -- 7.3. Natural iron fertilization -- 7.4. Paleo iron hypothesis -- 7.5. Large-scale iron fertilization: climate engineering -- Bibliography -- Index -- Other titles from iSTE in Earth Systems - Environmental Engineering -- EULA.
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Cover -- Title Page -- Copyright -- Contents -- Preface -- 1. Iron Speciation in Seawater -- 1.1. The chemical element -- 1.2. Iron speciation -- 1.2.1. Inorganic speciation -- 1.2.2. Organic speciation -- 1.2.3. Redox speciation -- 1.2.4. Operational definitions of iron speciation -- 1.3. Applying speciation -- 1.3.1. Solubility -- 1.3.2. Photochemistry -- 1.3.3. Cultures in artificial seawater with well-defined iron speciation -- 1.3.4. Iron bioavailability: the chemical perspective -- 1.3.5. Iron speciation on geological timescales -- 2. Analytical Methods -- 2.1. Trace-metal clean sampling techniques -- 2.2. Processing of the sample before measurement of concentrations -- 2.3. Particle collection -- 2.4. Iron determination -- 2.4.1. Historical perspective -- 2.4.2. Flow injection analysis -- 2.4.3. Electrochemistry -- 2.4.4. Mass spectrometry -- 2.4.5. Iron reference samples -- 2.4.6. Probing iron bioavailability -- 3. Modeling Methods -- 3.1. Overview -- 3.2. Modeling frameworks -- 3.3. Modeling iron cycle processes -- 3.3.1. Modeling iron supply -- 3.3.2. Modeling iron speciation -- 3.3.3. Modeling biological uptake of iron -- 3.3.4. Modeling iron regeneration -- 3.4. Synthesis -- 4. Iron Sources -- 4.1. Overview -- 4.2. Dust deposition -- 4.3. River supply -- 4.4. Continental margins -- 4.5. Hydrothermalism -- 4.6. Glaciers, icebergs and sea ice -- 4.7. Submarine groundwater discharge -- 4.8. Synthesis -- 5. Iron Cycling in the Ocean -- 5.1. The biological iron demand -- 5.1.1. Phytoplankton iron requirement -- 5.1.2. Iron requirements of heterotrophic organisms -- 5.2. Iron cycling in the surface ocean -- 5.3. Iron export and its cycling below the mixed layer -- 6. Dissolved Iron Distributions in the Ocean -- 6.1. Overview -- 6.2. Temporal evolution in the number of observations.

6.3. The contemporary view of the distribution of iron in the ocean -- 6.4. The vertical profile of iron -- 6.5. Synthesis -- 7. The Iron Hypothesis -- 7.1. Introduction -- 7.2. From bottle incubations to mesoscale experiments -- 7.3. Natural iron fertilization -- 7.4. Paleo iron hypothesis -- 7.5. Large-scale iron fertilization: climate engineering -- Bibliography -- Index -- Other titles from iSTE in Earth Systems - Environmental Engineering -- EULA.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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