Mycorrhizal mediation of soil : fertility, structure, and carbon storage /

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-deri...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Johnson, Nancy Collins (Editor ), Gehring, Catherine (Editor ), Jansa, Jan (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Boston : Elsevier, [2017]
Temas:
Mycorrhizas.
Soil microbiology.
Soils.
Mycorhizes.
Sols > Microbiologie.
Sols.
TECHNOLOGY & ENGINEERING > Agriculture > General.
Mycorrhizas
Soil microbiology
Soils
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; MYCORRHIZAL MEDIATION OF SOIL; MYCORRHIZAL MEDIATION OF SOIL: FERTILITY, STRUCTURE, AND CARBON STORAGE; Copyright; Contents; List of Contributors; Preface; COVER PHOTOS; LIST OF SCIENTIFIC REVIEWERS; 1
  • Mycorrhizas: At the Interface of Biological, Soil, and Earth Sciences; 1.1 SUCCESSFUL COEXISTENCE OF PLANTS AND FUNGI; 1.2 MYCORRHIZAL RESEARCH: PAST, PRESENT, AND FUTURE; 1.3 GOALS AND OBJECTIVES; References; I
  • MYCORRHIZAL MEDIATION OF SOIL DEVELOPMENT; 2
  • Mycorrhizal Symbioses and Pedogenesis Throughout Earth's History.
  • 2.1 THE IMPORTANCE OF RECIPROCAL EFFECTS OF PLANT-MYCORRHIZA-SOIL INTERACTIONS IN THE EVOLUTION AND ASSEMBLY OF TERRESTRIAL ECOSYSTEMS2.2 PLANTS AND MYCORRHIZAS AS AGENTS OF PEDOGENESIS: COUPLING PLANT PHOTOSYNTHATE ENERGY TO THE ACTIONS OF FUNGAL MYCELIAL NETWORKS; 2.3 EVOLUTIONARY ORIGINS OF PLANTS AND MYCORRHIZAS; 2.4 COEVOLUTION OF PLANTS, MYCORRHIZAS, AND PHOTOSYNTHATE-DRIVEN WEATHERING AND PEDOGENESIS; 2.5 FEEDBACK BETWEEN PLANT-DRIVEN PEDOGENESIS, GLOBAL BIOGEOCHEMICAL CYCLES, AND THE EVOLUTION OF PLANTS AND MYCORRHIZAL FUNCTIONING; 2.6 CONCLUSIONS; Acknowledgments; References.
  • 3
  • Role of Mycorrhizal Symbiosis in Mineral Weathering and Nutrient Mining from Soil Parent Material3.1 INTRODUCTION; 3.2 MECHANISMS OF MINERAL WEATHERING; 3.3 FUNGAL WEATHERING IN THE LABORATORY; 3.4 FROM LABORATORY TO FIELD; 3.4.1 Historical Weathering Markers; 3.4.2 Isotope Tracers; 3.4.3 Mineral Incubations; 3.4.4 Modeling; 3.5 CONCLUSIONS AND FUTURE RESEARCH DIRECTIONS; References; 4
  • Mycorrhizal Interactions With Climate, Soil Parent Material, and Topography; 4.1 INTRODUCTION; 4.2 MYCORRHIZAL INTERACTIONS WITH CLIMATE; 4.2.1 Environmental Predictors of Mycorrhizas.
  • 4.2.2 Distribution of Soil Orders and Mycorrhizas Corresponds to Climate4.2.3 Climatic and Mycorrhizal Mediation of Decomposition; 4.3 MYCORRHIZAL INTERACTIONS WITH PARENT MATERIAL; 4.3.1 Soil Phosphorus Dynamics; 4.3.2 Physicochemical Properties of Soil Parent Material; 4.3.3 Mycorrhizas as a Weathering Agent; 4.4 MYCORRHIZAL INTERACTIONS WITH TOPOGRAPHY; 4.4.1 Topography Influences on Physical Conditions and Processes; 4.4.2 Topography Influences Disturbance Regimes; 4.4.3 Mycorrhizas Mediate Geomorphology; 4.5 CONCLUSIONS; References; 5
  • Mycorrhizas Across Successional Gradients.
  • 5.1 SUCCESSION5.2 SUCCESSION IN MYCORRHIZAL FUNGAL COMMUNITIES; 5.3 HABITAT DRIVERS; 5.3.1 The Changing Soil Abiotic Environment during Primary Succession; 5.3.2 The Changing Soil Abiotic Environment during Secondary Succession; 5.3.2.1 Key Soil Abiotic Factors that Regulate Mycorrhizal Community Composition; 5.3.2.1.1 SOIL NUTRIENTS: NITROGEN AND PHOSPHORUS; 5.3.2.1.2 MOISTURE; 5.3.2.1.3 PH; 5.4 PLANT DRIVERS; 5.4.1 Plant Community Assembly; 5.4.2 Do Changing Plant Communities Drive Fungal Communities?; 5.4.3 Plant Host Specificity As a Driver of Changes in Fungal Communities.

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