How does rising atmospheric CO2 affect marine organisms?

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Fungi (In Association with Woody Plants)

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

Fungi (In Association with Woody Plants)
Growth Response to CO2 (Fungi: In Association with Woody Plants)


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 Impact of Elevated CO2 on a Widespread Ectomycorrhizal Fungi

* -- Atmospheric CO2 Enrichment: Working Wonders in the Plant Root Zone

* -- More Mushrooms to Munch, Courtesy of Climate Change

* -- B. nana Plants Are Expanding Their Presence in the Arctic Tundra!

* -- Soluble Exudates Produced by Ectomycorrhizal Roots of Scots Pine Trees

* -- Battling for Fungal Sporocarps in Earth's Forests: CO2 vs. O3

* -- Effects of Elevated CO2 on Fine-Root Ectomycorrhizas of Forest Trees

* -- The Respiratory Response of Ectomycorrhizal Fungi to Warming

* -- Atmospheric CO2 Enrichment and Ectomycorrhizal Infection of Red Pine Trees

* -- Fungal-Mediated Plant Coexistence

* -- Carbon Costs of Symbiosis in Citrus Seedlings "More Than Covered" by Increase in Air's CO2 Content

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

Long-Term Effects of Elevated Atmospheric CO2 on Soil Fungi

Elevated CO2 Increases Douglas Fir Root-Tip Colonization by Ectomycorrhizas

Effects of Elevated CO2 on Plant-Fungal-Soil Relationships in Birch

Effects of Elevated CO2 on Growth and Fungal Colonization of Three Tree Species

Effects of CO2 on Temperate Forest Regeneration

Effects of CO2 on Fungi and Pine

Effects of Elevated CO2, Soil Nitrogen and Phosphorus on Growth and Fungal Colonization of Pine Trees

Interactive Effects of CO2 and Fungi on Sagebrush

Effects of Elevated CO2 on Fungi

Effects of Elevated CO2 on Carbon Allocation of Fungi