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Microbial Ecology in Sustainable Agroecosystems
Microbial Ecology in Sustainable Agroecosystems

Microbial Ecology in Sustainable Agroecosystems

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Microbial Ecology in Sustainable Agroecosystems

Tanya E. Cheeke, David C. Coleman, Diana H. Wall

July 17, 2012 by CRC Press 
Reference - 308 Pages - 44 B/W Illustrations 
ISBN 9781439852965 - CAT# K12440

Features

 

  • Takes a holistic approach, considering all of the biota as well as the biogeochemical impacts of their interactions to address long-term concerns such as carbon sequestration and global greenhouse gas sources and sinks
  • Integrates comparative and interdisciplinary research from ecology, microbiology, and soil science
  • Focuses on four key areas of research: agriculture, biodiversity, ecosystem services, and integrated soil ecology
  • Presents the reader a clear way forward in the use of molecular tools to advance our understanding of microbial ecology in sustainable agroecosystem function

Summary

While soil ecologists continue to be on the forefront of research on biodiversity and ecosystem function, there are few interdisciplinary studies that incorporate ecological knowledge into sustainable land management practices. Conventional, high fossil-fuel input-based agricultural systems can reduce soil biodiversity, alter soil community structure and nutrient cycling, and lead to greater dependence on energy-intensive practices.

Microbial Ecology in Sustainable Agroecosystems brings together soil ecologists, microbial ecologists, and agroecologists working globally to demonstrate how research in soil ecology can contribute to the long-term sustainability of agricultural systems. The book identifies five key areas of research that can be combined to support and direct sustainable land management practices: agriculture, biodiversity, ecosystem services, integrated soil ecology research, and policy.

 

Topics include:

 

 

 

  • A broad range of soil microbial processes in terms of the importance of microbial heterogeneity
  • Inputs by soil microorganisms into wheat-farming systems
  • The importance of arbuscular mycorrhizal fungi in making nutrients more available to crops
  • The benefits and environmental problems associated with the use of crops genetically modified with Bacillus thuringiensis
  • The incorporation of soil ecological or microbial ecological theory into agricultural practice to improve agricultural productivity and sustainability
  • Challenges in sustainable agricultural research and the need for coalescing new avenues of research in agriculture and soil ecology

 

 

The contributors range from long-time ecological researchers to graduate students and early career scientists, representing a wide spectrum of experience, ages, diversity, and research interests in this area. They cover the diversity and complexity of microbial activity and interactions in soil systems and the many ways in which microorganisms may be manipulated and managed to improve the functions of crop rhizospheres and thereby maximize crop yields and overall productivity. These recommendations can be used to direct and influence agricultural and environmental policy and guide future research in sustainable agricultural systems management.

Part Number: Microbial Ecology in Sustainable Agroecosystems
Availability: 2 In Stock.

Microbial Ecology in Sustainable Agroecosystems

Tanya E. Cheeke, David C. Coleman, Diana H. Wall

July 17, 2012 by CRC Press 
Reference - 308 Pages - 44 B/W Illustrations 
ISBN 9781439852965 - CAT# K12440

Features

 

  • Takes a holistic approach, considering all of the biota as well as the biogeochemical impacts of their interactions to address long-term concerns such as carbon sequestration and global greenhouse gas sources and sinks
  • Integrates comparative and interdisciplinary research from ecology, microbiology, and soil science
  • Focuses on four key areas of research: agriculture, biodiversity, ecosystem services, and integrated soil ecology
  • Presents the reader a clear way forward in the use of molecular tools to advance our understanding of microbial ecology in sustainable agroecosystem function

Summary

While soil ecologists continue to be on the forefront of research on biodiversity and ecosystem function, there are few interdisciplinary studies that incorporate ecological knowledge into sustainable land management practices. Conventional, high fossil-fuel input-based agricultural systems can reduce soil biodiversity, alter soil community structure and nutrient cycling, and lead to greater dependence on energy-intensive practices.

Microbial Ecology in Sustainable Agroecosystems brings together soil ecologists, microbial ecologists, and agroecologists working globally to demonstrate how research in soil ecology can contribute to the long-term sustainability of agricultural systems. The book identifies five key areas of research that can be combined to support and direct sustainable land management practices: agriculture, biodiversity, ecosystem services, integrated soil ecology research, and policy.

 

Topics include:

 

 

 

  • A broad range of soil microbial processes in terms of the importance of microbial heterogeneity
  • Inputs by soil microorganisms into wheat-farming systems
  • The importance of arbuscular mycorrhizal fungi in making nutrients more available to crops
  • The benefits and environmental problems associated with the use of crops genetically modified with Bacillus thuringiensis
  • The incorporation of soil ecological or microbial ecological theory into agricultural practice to improve agricultural productivity and sustainability
  • Challenges in sustainable agricultural research and the need for coalescing new avenues of research in agriculture and soil ecology

 

 

The contributors range from long-time ecological researchers to graduate students and early career scientists, representing a wide spectrum of experience, ages, diversity, and research interests in this area. They cover the diversity and complexity of microbial activity and interactions in soil systems and the many ways in which microorganisms may be manipulated and managed to improve the functions of crop rhizospheres and thereby maximize crop yields and overall productivity. These recommendations can be used to direct and influence agricultural and environmental policy and guide future research in sustainable agricultural systems management.

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