How does rising atmospheric CO2 affect marine organisms?

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Roots (Trees: Deciduous)

Material in this section originates from the following categories in our Subject Index:

Roots (Trees: Deciduous)
Trees (Roots: Deciduous)


Material preceded by an asterisk (*) was posted after this subject summary was written and therefore is not included in the summary.  This material will be integrated into the summary at a later date.

Summary


* -- The Growth Response of Aspen Trees to Soil CO2 Enrichment

* -- Atmospheric CO2 Helps Oak Trees Recover from Natural Disasters

* -- Growth Responses of Tree Roots to Atmospheric CO2 Enrichment

* -- The Unseen Benefits of Atmospheric CO2 Enrichment

* -- Soil Carbon and Nitrogen in a CO2-Enriched Sweetgum Plantation

* -- Young Forest Stands Exposed to Elevated CO2 and Ozone: The Importance of Long-Term Studies

* -- Fine Roots of Sweetgum Trees Growing in CO2-Enriched Air

* -- Trees and Their Roots in a Changing World

* -- Effects of Elevated CO2 on Mature Sweetgum Trees: Much More Than Meets the Eye

* -- Fine-Root Responses to Elevated CO2 in Loblolly Pine and Sweetgum Forests

Effects of Elevated CO2 on Fine Roots in an Oak-Palmetto Scrub Ecosystem

* -- Effects of Elevated CO2 and Nitrogen on Symbiotic Fungi in Forest Species

Effects of Elevated CO2 and O3 on Belowground Carbon Cycling in Aspen and Birch Stands

Temperature Effects on Aspen Tree Inputs of Carbon and Nutrients to Soil

Effects of Elevated CO2, Temperature, and Soil Nitrogen Content on Growth and Root Exudation of Black Locust

Fine Root Responses of Aspen to Elevated CO2 and Soil Nitrogen

Elevated CO2 Reduces Maintenance Respiration in Roots

Effects of Elevated CO2 and Soil Nitrogen on Growth of Aspen

Effects of CO2 on Temperate Forest Regeneration

Elevated CO2 and Plant Defense