An Introduction to Environmental Chemistry

2.4 Using chemical equations

2.5 Describing amounts of substances: the mole

2.6 Concentration and activity

2.7 Organic molecules – structure and chemistry

2.7.1 Functional groups

2.7.2 Representing organic matter in simple equations

2.8 Radioactivity of elements

2.9 Finding more chemical tools in this book

2.10 Further reading

2.11 Internet search keywords

3 The atmosphere

3.1 Introduction

3.2 Composition of the atmosphere

3.3 Steady state or equilibrium?

3.4 Natural sources
- 3.4.1 Geochemical sources
- 3.4.2 Biological sources

3.5 Reactivity of trace substances in the atmosphere

3.6 The urban atmosphere
- 3.6.1 London smog – primary pollution
- 3.6.2 Los Angeles smog – secondary pollution
- 3.6.3 21st-century particulate pollution

3.7 Air pollution and health

3.8 Effects of air pollution

3.9 Removal processes

3.10 Chemistry of the stratosphere

3.10.1 Stratospheric ozone formation and destruction

3.10.2 Ozone destruction by halogenated species

3.10.3 Saving the ozone layer

4 The chemistry of continental solids

4.1 The terrestrial environment, crust and material cycling

4.2 The structure of silicate minerals
- 4.2.1 Coordination of ions and the radius ratio rule
- 4.2.2 The construction of silicate minerals
- 4.2.3 Structural organization in silicate minerals

4.3 Weathering processes

4.4 Mechanisms of chemical weathering
- 4.4.1 Dissolution
- 4.4.2 Oxidation
- 4.4.3 Acid hydrolysis
- 4.4.4 Weathering of complex silicate minerals

4.5 Clay minerals
- 4.5.1 One to one clay mineral structure
- 4.5.2 Two to one clay mineral structure

4.6 Formation of soils
- 4.6.1 Parent (bedrock) material (p)
- 4.6.2 Climate (cl)
- 4.6.3 Relief (r)
- 4.6.4 Vegetation (v)
- 4.6.5 Influence of organisms (o)

4.7 Wider controls on soil and clay mineral formation

4.8 Ion exchange and soil pH

4.9 Soil structure and classification
- 4.9.1 Soils with argillic horizons
- 4.9.2 Spodosols (podzols)
- 4.9.3 Soils with gley horizons

4.10 Contaminated land

4.10.1 Organic contaminants in soils

4.10.2 Degradation of organic contaminants in soils

4.10.3 Remediation of contaminated land

4.10.4 Phytoremediation

5 The chemistry of continental waters

5.1 Introduction

5.2 Element chemistry

5.3 Water chemistry and weathering regimes
- 5.3.1 Alkalinity, dissolved inorganic carbon and pH buffering

5.4 Aluminium solubility and acidity
- 5.4.1 Acidification from atmospheric inputs
- 5.4.2 Acid mine drainage
- 5.4.3 Recognizing acidification from sulphate data – ternary diagrams

5.5 Biological processes
- 5.5.1 Nutrients and eutrophication

5.6 Heavy metal contamination
- 5.6.1 Mercury contamination from gold mining

5.7 Contamination of groundwater
- 5.7.1 Anthropogenic contamination of groundwater
- 5.7.2 Natural arsenic contamination of groundwater

5.8 Further reading

- 6 The oceans

6.1 Introduction

6.2 Estuarine processes
- 6.2.1 Aggregation of colloidal material in estuaries
- 6.2.2 Mixing processes in estuaries
- 6.2.3 Halmyrolysis and ion exchange in estuaries
- 6.2.4 Microbiological activity in estuaries

6.3 Major ion chemistry of seawater

6.4 Chemical cycling of major ions
- 6.4.1 Sea-to-air fluxes
- 6.4.2 Evaporites
- 6.4.3 Cation exchange
- 6.4.4 Calcium carbonate formation
- 6.4.5 Opaline silica
- 6.4.6 Sulphides
- 6.4.7 Hydrothermal processes
- 6.4.8 The potassium problem: balancing the seawater major ion budget

6.5 Minor chemical components in seawater
- 6.5.1 Dissolved gases
- 6.5.2 Dissolved ions
- 6.5.3 Conservative behaviour
- 6.5.4 Nutrient-like behaviour
- 6.5.5 Scavenged behaviour

6.6 The role of iron as a nutrient in the oceans

6.7 Ocean circulation and its effects on trace element distribution

6.8 Anthropogenic effects on ocean chemistry
- 6.8.1 Human effects on regional seas 1: the Baltic
- 6.8.2 Human effects on regional seas 2: the Gulf of Mexico
- 6.8.3 Human effects on total ocean minor element budgets?

6.9 Further reading

7 Global change

7.1 Why study global-scale environmental chemistry?

7.2 The carbon cycle
- 7.2.1 The atmospheric record
- 7.2.2 Natural and anthropogenic sources and sinks
- 7.2.3 The global budget of natural and anthropogenic carbon dioxide
  - and other properties 7.2.4 The effects of elevated carbon dioxide levels on global temperature

7.3 The sulphur cycle
- 7.3.1 The global sulphur cycle and anthropogenic effects
- 7.3.2 The sulphur cycle and atmospheric acidity
- 7.3.3 The sulphur cycle and climate

7.4 Persistent organic pollutants
- 7.4.1 Persistent organic pollutant mobility in the atmosphere
- 7.4.2 Global persistent organic pollutant equilibrium

7.5 Further reading

- Index

1.1 Elements, atoms and isotopes Boxes

3.1 Partial pressure

3.2 Chemical equilibrium

3.3 Acids and bases

3.4 Gas solubility

3.5 The pH scale

3.6 Reactions in photochemical smog

3.7 Acidification of rain droplets

3.8 Removal of sulphur dioxide from an air parcel

4.1 Properties of water and hydrogen bonds

4.2 Electronegativity

4.3 Oxidation and reduction (redox)

4.4 Metastability, reaction kinetics, activation energy and catalysts

4.5 Dissociation

4.6 Isomorphous substitution

4.7 Van der Waals’ forces

4.8 Chemical energy

4.9 Mineral reaction kinetics and solution saturation

4.10 Biopolymers

4.11 Base cations

4.12 Solubility product, mineral solubility and saturation index

4.13 Radon gas: a natural environmental hazard

contaminants 4.14 Physical and chemical properties that dictate the fate of organic

4.15 Use of clay catalysts in clean up of environmental contamination

organic contaminants 4.16 Mechanisms of microbial degradation and transformation of

5.1 Ionic strength

5.2 Measuring alkalinity

5.3 Worked examples of pH buffering

5.4 Eh-pH diagrams

5.5 Essential and non-essential elements

6.1 Salinity

timescales 6.2 Salinity and major ion chemistry of seawater on geological

6.3 Residence times of major ions in seawater

6.4 Ion interactions, ion pairing, ligands and chelation

6.5 Abiological precipitation of calcium carbonate

6.6 Oceanic primary productivity

7.1 Simple box model for ocean carbon dioxide uptake

7.2 The delta notation for expressing stable isotope ratio values

7.3 Chiral compounds

An Introduction to Environmental Chemistry

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