| About the Editors |
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ix | |
| Contributors |
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xi | |
| Preface |
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xiii | |
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Extraradical Arbuscular Mycorrhizal Mycelia: Shadowy Figures in the Soil |
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1 | (36) |
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Nature of the Extraradical Arbuscular Mycorrhizal Mycelium |
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2 | (12) |
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Specific Associations with Specific Outcomes |
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14 | (4) |
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Influences on the Development of the Extraradical Mycelium in Cropping Systems |
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18 | (7) |
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25 | (12) |
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Soil Nutrient and Water Providers: How Arbuscular Mycorrhizal Mycelia Support Plant Performance in a Resource-Limited World |
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37 | (30) |
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38 | (5) |
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43 | (7) |
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Uptake of Other Nutrients |
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50 | (8) |
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58 | (9) |
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Effects of the Arbuscular Mycorrhizal Symbiosis on Plant Diseases and Pests |
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67 | (56) |
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Effect of AM Fungi on Root Diseases |
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68 | (12) |
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Effect of AM Fungi on Diseases Caused by Foliar or Systemic Pathogens |
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80 | (5) |
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Effect of AM Fungi on Insects and Other Invertebrates |
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85 | (2) |
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Effect of Pathogens on AM Fungi |
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87 | (2) |
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Roles and Mechanisms of AM Fungi in Biocontrol |
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89 | (12) |
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101 | (22) |
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Capturing the Benefits of Arbuscular Mycorrhizae in Horticulture |
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123 | (28) |
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Role of AM in Plant Production |
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124 | (1) |
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Potential Areas for Integrating AMF into Horticulture |
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125 | (1) |
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Use of AMF in Field-Grown Horticultural Crops |
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125 | (7) |
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Integrating AM into Greenhouse Plant Production |
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132 | (5) |
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Other Obstacles to Integrating AM into Horticulture |
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137 | (2) |
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Conclusions and Perspectives |
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139 | (12) |
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Advances in the Management of Effective Arbuscular Mycorrhizal Symbiosis in Tropical Ecosystems |
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151 | (46) |
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Specificity Between Soil and AM Fungi and Strains Selection |
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153 | (9) |
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Specificity Between Efficacious Strains and Crop Species |
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162 | (3) |
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Influence of Nutrient Availability on Mycorrhizal Effectiveness |
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165 | (8) |
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AM Fungi-Rhizobacteria Coinoculation |
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173 | (1) |
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AM Inoculation and Crop Rotation |
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174 | (4) |
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Influence of Efficacious AM on Soil Aggregation |
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178 | (1) |
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Green Manure Use and Mycorrhizal Effectiveness |
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179 | (6) |
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Use of the AM Symbiosis on a Production Scale |
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185 | (3) |
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Cropping Systems with Efficacious AM Strains |
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188 | (9) |
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Mycorrhizae in Tropical Agriculture |
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197 | (42) |
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Mycorrhizae and Sustainable Tropical Agriculture |
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200 | (3) |
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Effects of AM Fungi on Plant Growth, Phosphorus Uptake, and Increased Resistance to Disease in Tropical Agriculture |
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203 | (8) |
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AM Fungi and Rehabilitation of Degraded Soils in Tropical Areas |
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211 | (7) |
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218 | (21) |
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Mycorrhizae in Indian Agriculture |
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239 | (54) |
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Mycorrhizal Diversity and Efficacy in Indian Agriculture |
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240 | (12) |
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Inoculum Production and Application |
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252 | (1) |
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Effect of Management Practices on AM Fungi |
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253 | (5) |
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Effect of Edapho-Climatic Factors on Mycorrhizal Colonization and Plant Growth |
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258 | (3) |
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Effect of Pollution and Metal Toxicity on Mycorrhizal Colonization and Plant Growth |
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261 | (7) |
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Interaction of Mycorrhizae with Soil Microorganisms |
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268 | (5) |
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Factors Affecting Efficiency of Tripartite Systems |
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273 | (1) |
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Interaction with Plant Pathogens |
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274 | (3) |
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Adoption of Mycorrhizae by Producers |
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277 | (1) |
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278 | (15) |
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Mycorrhizae and Crop Production in a World of Rapid Climate Change: A Warning Call |
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293 | (18) |
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Global Climate Change: What Is Really Coming and Why Should We Worry? |
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295 | (2) |
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297 | (6) |
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Neglected and New Research Areas |
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303 | (4) |
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307 | (4) |
| Index |
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311 | |
