Biological Weathering and the Environment of the Earth: Ecological Research Monographs
Autor Tasuku Akagien Limba Engleză Hardback – 23 sep 2024
Readers of this book will gain a comprehensive understanding of weathering as a reaction catalyzed by both plants and plankton, occurring not only on land but also ubiquitously in the earth’s environment, including the ocean’s interior. This new and novel perspective has significant implications for various scientific fields, including biology, marine chemistry, environmental, and paleoenvironmental sciences. The author underscores the immediate relevance of these findings to pressing issues surrounding atmospheric CO2. The book concludes with a proposal for an efficient and safe method to sequester CO2 in the atmosphere into the ocean interior, offering a practical solution to a global challenge. The target audience for this book includes students and researchers in ecology, evolutionary biology, geochemistry, environment and plant sciences, atmospheric sciences, and Geo-industries.
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Specificații
ISBN-13: 9789819744251
ISBN-10: 9819744253
Pagini: 180
Ilustrații: Approx. 180 p. 35 illus.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer Nature Singapore
Colecția Springer
Seria Ecological Research Monographs
Locul publicării:Singapore, Singapore
ISBN-10: 9819744253
Pagini: 180
Ilustrații: Approx. 180 p. 35 illus.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer Nature Singapore
Colecția Springer
Seria Ecological Research Monographs
Locul publicării:Singapore, Singapore
Cuprins
Part 1 Biological weathering
Chapter 1: Weathering and feedback system.- Chapter 2: Plant-induced weathering.- Chapter 3: Weathering as physiological strategy.-
Part 2 Diatom contribution
Chapter 4: Diatoms.- Chapter 5: Thickly veiled frustules.- Chapter 6: Extra nerdy proof of dirty frustules.- Chapter 7: Diatoms eat rock.- Chapter 8: Transparent exopolymer particles (TEP).- Chapter 9: Diatoms and marine chemistry.-
Part 3. Weathering in the ocean
Chapter 10: Coupling of carbon and silica in the oceans.-Chapter 11: Weathering in the oceans.- Chapter 12: How to store (or release) carbon in (or from) deep ocean
Part 4. Ocean weathering and the glacial cycles
Chapter 13: Glacial cycles and unresolved questions.- Chapter 14: Ocean weathering as a key to glacial problem.-
Part 5. Ocean weathering may save us
Chapter 15: Contemporary CO2 problem.- Chapter 16: Ocean weathering as a key to the contemporary CO2 problem.- Chapter 17: An urgent proposal.
Chapter 1: Weathering and feedback system.- Chapter 2: Plant-induced weathering.- Chapter 3: Weathering as physiological strategy.-
Part 2 Diatom contribution
Chapter 4: Diatoms.- Chapter 5: Thickly veiled frustules.- Chapter 6: Extra nerdy proof of dirty frustules.- Chapter 7: Diatoms eat rock.- Chapter 8: Transparent exopolymer particles (TEP).- Chapter 9: Diatoms and marine chemistry.-
Part 3. Weathering in the ocean
Chapter 10: Coupling of carbon and silica in the oceans.-Chapter 11: Weathering in the oceans.- Chapter 12: How to store (or release) carbon in (or from) deep ocean
Part 4. Ocean weathering and the glacial cycles
Chapter 13: Glacial cycles and unresolved questions.- Chapter 14: Ocean weathering as a key to glacial problem.-
Part 5. Ocean weathering may save us
Chapter 15: Contemporary CO2 problem.- Chapter 16: Ocean weathering as a key to the contemporary CO2 problem.- Chapter 17: An urgent proposal.
Notă biografică
Tasuku Akagi is a geochemist. He studied chemistry at Tokyo University, where he continued his research in analytical chemistry, ocean chemistry, and geochemistry. He was an assistant researcher at Tokyo University and a professor at Tokyo University of Agriculture and Technology and Kyushu University. He was the editor-in-chief of the geochemical journals issued by the Geochemical Society of Japan, and he is now a professor emeritus at Kyushu University. His research fields stretch from the deep mantle to cosmic space, from soft microplankton to hard diamonds. The author’s broad interests are reflected in this book. His primary interest lies in the relationship between organisms and the earth’s environment. He was awarded the Geochemical Society of Japan Award and the Oze Prize for his geochemical studies in the biosphere.
Textul de pe ultima copertă
This book introduces the concept of 'biological weathering.' Weathering, especially chemical weathering, has been recognized as one of the most important processes on Earth because it influences the circulation of elements, including carbon. Weathering has almost always been considered an abiotic process. The book describes the author’s experiments, proving that plant involvement in weathering is a strategy for plants to ingest nutrients from rocks. It is also shown through cultivation experiments and observation of natural diatoms that diatoms and silica obligate plankton dissolve silicate minerals and incorporate silicon and other elements into their frustules. The weathering reaction has also been successfully applied to the previously unexplained relationship between carbon and silica in the ocean’s interior.
Readers of this book will gain a comprehensive understanding of weathering as a reaction catalyzed by both plants and plankton, occurring not only on land but also ubiquitously in the earth’s environment, including the ocean’s interior. This new and novel perspective has significant implications for various scientific fields, including biology, marine chemistry, environmental, and paleoenvironmental sciences. The author underscores the immediate relevance of these findings to pressing issues surrounding atmospheric CO2. The book concludes with a proposal for an efficient and safe method to sequester CO2 in the atmosphere into the ocean interior, offering a practical solution to a global challenge. The target audience for this book includes students and researchers in ecology, evolutionary biology, geochemistry, environment and plant sciences, atmospheric sciences, and Geo-industries.
Readers of this book will gain a comprehensive understanding of weathering as a reaction catalyzed by both plants and plankton, occurring not only on land but also ubiquitously in the earth’s environment, including the ocean’s interior. This new and novel perspective has significant implications for various scientific fields, including biology, marine chemistry, environmental, and paleoenvironmental sciences. The author underscores the immediate relevance of these findings to pressing issues surrounding atmospheric CO2. The book concludes with a proposal for an efficient and safe method to sequester CO2 in the atmosphere into the ocean interior, offering a practical solution to a global challenge. The target audience for this book includes students and researchers in ecology, evolutionary biology, geochemistry, environment and plant sciences, atmospheric sciences, and Geo-industries.
Caracteristici
The first book to systematically describe biological weathering Explains the role of diatoms in weathering and, therefore, the circulation of terrigenous elements Demonstrates the ramifications of weathering in the oceans regarding carbon cycling’s impact on atmospheric CO2