Belowground Responses to Rising Atmospheric CO2: Implications for Plants, Soil Biota, and Ecosystem Processes

1. Belowground responses to rising atmospheric CO2: Implications for plants, soil biota and ecosystem processes. Executive summary.- Root Biology.- 2. Issues and perspectives for investigating root responses to elevated atmospheric carbon dioxide.- 3. Root response to Co2 enrichment and nitrogen supply in loblolly pine.- 4. Free-air CO2 enrichment of cotton: Vertical and lateral root distribution patterns.- 5. Above- and belowground response of Populus grandidentata to elevated atmospheric CO2 and soil N availability.- Soil Biota.- 6. Responses of soil biota to elevated atmospheric carbon dioxide.- 7. Soil microbial response in tallgrass prairie to elevated CO2.- 8. The response of mycorrhizal colonization to elevated CO2 and climate change in Pascopyrum smithii and Bouteloua gracilis.- 9. Effect of elevated CO2 on mycorrhizal colonization of loblolly pine (Pinus taeda L.) seedlings.- 10. Evaluation of the use of a model rhizodeposition technique to separate root and microbial respiration in soil.- Ecosystem Processes.- 11. Biomass production in a nitrogen-fertilized, tallgrass prairie ecosystem exposed to ambient and elevated levels of CO2.- 12. Effects of elevated CO2 and nitrogen fertilization pretreatments on decomposition on tallgrass prairie leaf litter.- 13. Soil pCO2, soil respiration, and root activity in CO2-fumigated and nitrogen-fertilized ponderosa pine.- 14. Enhanced root system C-sink activity, water relations and aspects of nutrient acquisition in mycotrophic Bouteloua gracilis subjected to CO2 enrichment.- Modelling.- 15. Modelling the belowground response of plants and soil biota to edaphic and climatic change — What can we expect to gain?.- 16. Carbon cost of root systems: An architectural approach.