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Author:   Nancy Collins Johnson (Regents’ Professor, School of Earth Sciences and Environmental Sustainability, Department of Biological Sciences, Northern Arizona University, AZ, USA) ,  Catherine Gehring (Professor, Department of Biological Sciences, and Merriam-Powell Center for Environmental Research, Northern Arizona University, AZ, USA) ,  Jan Jansa (Senior researcher, Institute of Microbiology, Academy of Sciences of the Czech Republic, Prague, Czech Republic)
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Elsevier Science Publishing Co Inc
Dimensions:   Width: 19.10cm , Height: 2.50cm , Length: 23.50cm
Weight:   1.040kg
ISBN:  

9780128043127

ISBN 10:   0128043121
Pages:   526
Publication Date:   25 November 2016
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   In stock  
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Table of Contents

1. Mycorrhizas: At the Interface of Biological, Soil, and Earth Sciences Section I. Mycorrhizal Mediation of Soil Development 2. Mycorrhizal Symbioses and Pedogenesis Throughout Earth’s History 3. Role of Mycorrhizal Symbiosis in Mineral Weathering and Nutrient Mining from Soil Parent Material 4. Mycorrhizal Interactions With Climate, Soil Parent Material, and Topography 5. Mycorrhizas Across Successional Gradients Section II. Mycorrhizal Mediation of Soil Fertility 6. Introduction: Perspectives on Mycorrhizas and Soil Fertility 7. Fungal and Plant Tools for the Uptake of Nutrients in Arbuscular Mycorrhizas: A Molecular View 8. Accessibility of Inorganic and Organic Nutrients for Mycorrhizas 9. Mycorrhizas as Nutrient and Energy Pumps of Soil Food Webs: Multitrophic Interactions and Feedbacks 10. Implications of Past, Current, and Future Agricultural Practices for Mycorrhiza-Mediated Nutrient Flux 11. Integrating Ectomycorrhizas Into Sustainable Management of Temperate Forests 12. Mycorrhizal Mediation of Soil Fertility Amidst Nitrogen Eutrophication and Climate Change Section III. Mycorrhizal Mediation of Soil Structure And Soil-Plant Water Relations 13. Introduction: Mycorrhizas and Soil Structure, Moisture, and Salinity 14. Mycorrhizas and Soil Aggregation 15. Arbuscular Mycorrhizal Fungi and Soil Salinity 16. Mycorrhizas, Drought, and Host-Plant Mortality 17. Soil Water Retention and Availability as Influenced by Mycorrhizal Symbiosis: Consequences for Individual Plants, Communities, and Ecosystems 18. Mycorrhizal Networks and Forest Resilience to Drought Section IV. Mycorrhizal Mediation of Ecosystem Carbon Fluxes and Soil Carbon Storage 19. Introduction: Mycorrhizas and the Carbon Cycle 20. Carbon and Energy Sources of Mycorrhizal Fungi: Obligate Symbionts or Latent Saprotrophs? 21. Magnitude, Dynamics, and Control of the Carbon Flow to Mycorrhizas 22. Trading Carbon Between Arbuscular Mycorrhizal Fungi and Their Hyphae-Associated Microbes 23. Immobilization of Carbon in Mycorrhizal Mycelial Biomass and Secretions 24. Mycorrhizal Interactions With Saprotrophs and Impact on Soil Carbon Storage 25. Biochar—Arbuscular Mycorrhiza Interaction in Temperate Soils 26. Integrating Mycorrhizas Into Global Scale Models: A Journey Toward Relevance in the Earth’s Climate System

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Nancy Collins Johnson has been a professor of soil ecology at Northern Arizona University since 1997. She earned a PhD in Ecology and Plant Pathology from the University of Minnesota (with David Tilman) and a MS degree in Botany from the University of Wisconsin. Johnson and her students study interactions among communities of plants and soil organisms in natural and human managed ecosystems throughout the world. They have discovered that mycorrhizas and soil communities are sensitive to global change factors and they are seeking first principles to understand these responses. These studies are important because mycorrhizal symbioses influence plant community composition, soil stability, and belowground carbon storage. Professor Catherine Gehring works in the department of Biological Sciences and Merriam-Powell Center for Environmental Research at Northern Arizona University The Gehring Lab conducts research to understand the functioning of fungi in natural and managed systems. Of particular interest is how abiotic and biotic factors interact to affect the abundance and community composition of plant-associated fungi and how changes in these parameters then feedback to affect the performance of host plants. Current projects explore the influence of host plant genetics on fungal abundance and diversity; the impact of climate change on interactions among host plants, fungi, and insects; and the belowground mechanisms by which invasive plants may harm native plants. Jan Jansa studied biology at Charles University in Prague and agricultural sciences at ETH Zurich, where he also obtained PhD in 2002. He also worked at ETH Zurich and the University of Adelaide (with Sally E. Smith). Jansa currently leads the Laboratory of Fungal Biology at the Institute of Microbiology in Prague. His aim is the quantification of the involvement of mycorrhizal symbiosis in the turnover of soil organic matter, fluxes of mineral nutrients such as phosphorus and nitrogen from the soil to plants and carbon from the plants to the soil. Together with his team, he studies the exchange of mineral nutrients for carbon between the symbiotic partners under spatially and temporarily variable conditions, including light deprivation, using a suite of isotopic and molecular techniques

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