Microbes

The Unseen Agents of Climate Change

We sell our titles through other companies
Disclaimer :You will be redirected to a third party website.The sole responsibility of supplies, condition of the product, availability of stock, date of delivery, mode of payment will be as promised by the said third party only. Prices and specifications may vary from the OUP India site.

ISBN:

9780197688564

Publication date:

19/09/2024

Hardback

240 pages

We sell our titles through other companies
Disclaimer :You will be redirected to a third party website.The sole responsibility of supplies, condition of the product, availability of stock, date of delivery, mode of payment will be as promised by the said third party only. Prices and specifications may vary from the OUP India site.

ISBN:

9780197688564

Publication date:

19/09/2024

Hardback

240 pages

David L. Kirchman

In this book, David L. Kirchman introduces a unique and timely contribution to the climate change conversation and the part microbes play in our past, present, and future. He takes readers into the unseen world behind the most important environmental problem facing society today and encourages us to embrace microbial solutions that are essential to mitigating climate change.

Rights:  World Rights

David L. Kirchman

Description

For billions of years, microbes have produced and consumed greenhouse gases that regulate global temperature and in turn other aspects of our climate. The balance of these gases maintains Earth's habitability. Methane, a greenhouse gas produced only by microbes, may have kept Earth out of a deep freeze billions of years ago. Likewise, variations in carbon dioxide, another greenhouse gas released by microbes and other organisms, help to explain the comings and goings of ice ages over the last million years.

Now we face a human-made climate crisis with drastic consequences. The complete story behind greenhouse gases, however, involves microbes and their role in natural ecosystems. Microscopic organisms are also part of the solution, producing biofuels and other forms of green energy which keep fossil fuels in the ground. Other microbes can be harnessed to reduce the release of methane and nitrous oxide from agriculture, and geoengineering solutions that depend on microbes could pull carbon dioxide out of the atmosphere.

In this book, David L. Kirchman introduces a unique and timely contribution to the climate change conversation and the part microbes play in our past, present, and future. He takes readers into the unseen world behind the most important environmental problem facing society today and encourages us to embrace microbial solutions that are essential to mitigating climate change.

About the author:

David L. Kirchman was the Maxwell P. and Mildred H. Harrington Professor of Marine Studies at the University of Delaware until he retired in 2020 and was elected as a fellow of the American Academy of Microbiology, the American Association for the Advancement of Science, and the Association for the Sciences of Limnology and Oceanography. Author of over 175 papers and two books, and editor of the "bible" of microbial oceanography (Microbial Ecology of the Oceans), Kirchman worked on the marine carbon cycle in regions around the world, from the Arctic to Antarctica. His findings were instrumental in showing the importance of bacteria and the rest of the microbial loop in the marine carbon cycle. He received a B.A. from Lawrence University and the Ph.D. from Harvard University.

David L. Kirchman

Table of contents

Chapter 1: Introduction
Chapter 2: The natural carbon cycle and fossil fuels
Chapter 3: Carbon sinks and sources on land
Chapter 4: Carbon pumps in the oceans
Chapter 5: Clouds, CLAW, and a Greek goddess
Chapter 6: Slow carbon and deep time
Chapter 7: Natural gas
Chapter 8: Laughing gas
Chapter 9: Microbial solutions
Acknowledgements
Notes
Selected Bibliography
Glossary

David L. Kirchman

David L. Kirchman

David L. Kirchman

Description

For billions of years, microbes have produced and consumed greenhouse gases that regulate global temperature and in turn other aspects of our climate. The balance of these gases maintains Earth's habitability. Methane, a greenhouse gas produced only by microbes, may have kept Earth out of a deep freeze billions of years ago. Likewise, variations in carbon dioxide, another greenhouse gas released by microbes and other organisms, help to explain the comings and goings of ice ages over the last million years.

Now we face a human-made climate crisis with drastic consequences. The complete story behind greenhouse gases, however, involves microbes and their role in natural ecosystems. Microscopic organisms are also part of the solution, producing biofuels and other forms of green energy which keep fossil fuels in the ground. Other microbes can be harnessed to reduce the release of methane and nitrous oxide from agriculture, and geoengineering solutions that depend on microbes could pull carbon dioxide out of the atmosphere.

In this book, David L. Kirchman introduces a unique and timely contribution to the climate change conversation and the part microbes play in our past, present, and future. He takes readers into the unseen world behind the most important environmental problem facing society today and encourages us to embrace microbial solutions that are essential to mitigating climate change.

About the author:

David L. Kirchman was the Maxwell P. and Mildred H. Harrington Professor of Marine Studies at the University of Delaware until he retired in 2020 and was elected as a fellow of the American Academy of Microbiology, the American Association for the Advancement of Science, and the Association for the Sciences of Limnology and Oceanography. Author of over 175 papers and two books, and editor of the "bible" of microbial oceanography (Microbial Ecology of the Oceans), Kirchman worked on the marine carbon cycle in regions around the world, from the Arctic to Antarctica. His findings were instrumental in showing the importance of bacteria and the rest of the microbial loop in the marine carbon cycle. He received a B.A. from Lawrence University and the Ph.D. from Harvard University.

Read More

Table of contents

Chapter 1: Introduction
Chapter 2: The natural carbon cycle and fossil fuels
Chapter 3: Carbon sinks and sources on land
Chapter 4: Carbon pumps in the oceans
Chapter 5: Clouds, CLAW, and a Greek goddess
Chapter 6: Slow carbon and deep time
Chapter 7: Natural gas
Chapter 8: Laughing gas
Chapter 9: Microbial solutions
Acknowledgements
Notes
Selected Bibliography
Glossary

Read More