Mycorrhizal Mediation of Soil: Fertility, Structure, and Carbon Storage offers a better understanding of mycorrhizal mediation that will help inform earth system models and subsequently improve the accuracy of global carbon model predictions. Mycorrhizas transport tremendous quantities of plant-derived carbon below ground and are increasingly recognized for their importance in the creation, structure, and function of soils. Different global carbon models vary widely in their predictions of the dynamics of the terrestrial carbon pool, ranging from a large sink to a large source. This edited…mehr
Mycorrhizal Mediation of Soil: Fertility, Structure, and Carbon Storage offers a better understanding of mycorrhizal mediation that will help inform earth system models and subsequently improve the accuracy of global carbon model predictions. Mycorrhizas transport tremendous quantities of plant-derived carbon below ground and are increasingly recognized for their importance in the creation, structure, and function of soils. Different global carbon models vary widely in their predictions of the dynamics of the terrestrial carbon pool, ranging from a large sink to a large source.
This edited book presents a unique synthesis of the influence of environmental change on mycorrhizas across a wide range of ecosystems, as well as a clear examination of new discoveries and challenges for the future, to inform land management practices that preserve or increase below ground carbon storage.
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Autorenporträt
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.
Inhaltsangabe
1. Mycorrhizas: At the Interface of Biological, Soil, and Earth Sciences
Section I. Mycorrhizal Mediation of Soil Development2. Mycorrhizal Symbioses and Pedogenesis Throughout Earth's History3. Role of Mycorrhizal Symbiosis in Mineral Weathering and Nutrient Mining from Soil Parent Material4. Mycorrhizal Interactions With Climate, Soil Parent Material, and Topography5. Mycorrhizas Across Successional Gradients
Section II. Mycorrhizal Mediation of Soil Fertility6. Introduction: Perspectives on Mycorrhizas and Soil Fertility7. Fungal and Plant Tools for the Uptake of Nutrients in Arbuscular Mycorrhizas: A Molecular View8. Accessibility of Inorganic and Organic Nutrients for Mycorrhizas9. Mycorrhizas as Nutrient and Energy Pumps of Soil Food Webs: Multitrophic Interactions and Feedbacks10. Implications of Past, Current, and Future Agricultural Practices for Mycorrhiza-Mediated Nutrient Flux11. Integrating Ectomycorrhizas Into Sustainable Management of Temperate Forests12. Mycorrhizal Mediation of Soil Fertility Amidst Nitrogen Eutrophication and Climate Change
Section III. Mycorrhizal Mediation of Soil Structure And Soil-Plant Water Relations13. Introduction: Mycorrhizas and Soil Structure, Moisture, and Salinity14. Mycorrhizas and Soil Aggregation15. Arbuscular Mycorrhizal Fungi and Soil Salinity16. Mycorrhizas, Drought, and Host-Plant Mortality17. Soil Water Retention and Availability as Influenced by Mycorrhizal Symbiosis: Consequences for Individual Plants, Communities, and Ecosystems18. Mycorrhizal Networks and Forest Resilience to Drought
Section IV. Mycorrhizal Mediation of Ecosystem Carbon Fluxes and Soil Carbon Storage19. Introduction: Mycorrhizas and the Carbon Cycle20. Carbon and Energy Sources of Mycorrhizal Fungi: Obligate Symbionts or Latent Saprotrophs?21. Magnitude, Dynamics, and Control of the Carbon Flow to Mycorrhizas22. Trading Carbon Between Arbuscular Mycorrhizal Fungi and Their Hyphae-Associated Microbes23. Immobilization of Carbon in Mycorrhizal Mycelial Biomass and Secretions24. Mycorrhizal Interactions With Saprotrophs and Impact on Soil Carbon Storage25. Biochar-Arbuscular Mycorrhiza Interaction in Temperate Soils26. Integrating Mycorrhizas Into Global Scale Models: A Journey Toward Relevance in the Earth's Climate System
1. Mycorrhizas: At the Interface of Biological, Soil, and Earth Sciences
Section I. Mycorrhizal Mediation of Soil Development2. Mycorrhizal Symbioses and Pedogenesis Throughout Earth's History3. Role of Mycorrhizal Symbiosis in Mineral Weathering and Nutrient Mining from Soil Parent Material4. Mycorrhizal Interactions With Climate, Soil Parent Material, and Topography5. Mycorrhizas Across Successional Gradients
Section II. Mycorrhizal Mediation of Soil Fertility6. Introduction: Perspectives on Mycorrhizas and Soil Fertility7. Fungal and Plant Tools for the Uptake of Nutrients in Arbuscular Mycorrhizas: A Molecular View8. Accessibility of Inorganic and Organic Nutrients for Mycorrhizas9. Mycorrhizas as Nutrient and Energy Pumps of Soil Food Webs: Multitrophic Interactions and Feedbacks10. Implications of Past, Current, and Future Agricultural Practices for Mycorrhiza-Mediated Nutrient Flux11. Integrating Ectomycorrhizas Into Sustainable Management of Temperate Forests12. Mycorrhizal Mediation of Soil Fertility Amidst Nitrogen Eutrophication and Climate Change
Section III. Mycorrhizal Mediation of Soil Structure And Soil-Plant Water Relations13. Introduction: Mycorrhizas and Soil Structure, Moisture, and Salinity14. Mycorrhizas and Soil Aggregation15. Arbuscular Mycorrhizal Fungi and Soil Salinity16. Mycorrhizas, Drought, and Host-Plant Mortality17. Soil Water Retention and Availability as Influenced by Mycorrhizal Symbiosis: Consequences for Individual Plants, Communities, and Ecosystems18. Mycorrhizal Networks and Forest Resilience to Drought
Section IV. Mycorrhizal Mediation of Ecosystem Carbon Fluxes and Soil Carbon Storage19. Introduction: Mycorrhizas and the Carbon Cycle20. Carbon and Energy Sources of Mycorrhizal Fungi: Obligate Symbionts or Latent Saprotrophs?21. Magnitude, Dynamics, and Control of the Carbon Flow to Mycorrhizas22. Trading Carbon Between Arbuscular Mycorrhizal Fungi and Their Hyphae-Associated Microbes23. Immobilization of Carbon in Mycorrhizal Mycelial Biomass and Secretions24. Mycorrhizal Interactions With Saprotrophs and Impact on Soil Carbon Storage25. Biochar-Arbuscular Mycorrhiza Interaction in Temperate Soils26. Integrating Mycorrhizas Into Global Scale Models: A Journey Toward Relevance in the Earth's Climate System
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