Record ID No. |
422 |
Author(s) |
Cheng X.M., Baumgartner K. , 2006 |
Affiliation |
University of California, Davis, Department of Plant Pathology USDA ARS, 1 Shields Ave, Davis, CA 95616 |
Title |
Effects of mycorrhizal roots and extraradical hyphae on N-15 uptake from vineyard cover crop litter and the soil microbial community |
Source. Vol.(no):Page |
Soil Biology & Biochemistry. 38(9): 2665-2675p. |
Categories |
Arbuscular Mycorrhiza |
Subjects |
Soil plant relations |
Sub-subjects |
Mycorrhizal efficiency |
Host |
Medicago polymorpha, Grapevines, Vitis vinifera |
Organism |
n.a. |
Country |
U.S.A., North America |
Abstracts |
The objectives of this study were to evaluate the contribution of arbuscular mycorrhizal (AM) fungal hyphae to N-15 uptake from vineyard cover crop litter (Medicago polymorpha), and to examine the soil microbial community under the influence of mycorrhizal roots and extraradical hyphae. Mycorrhizal grapevines (Vitis vinifera) were grown in specially designed containers, within which a polyvinyl chloride (PVC) mesh core was inserted. Different sizes of mesh allowed mycorrhizal roots (mycorrhizosphere treatment) or extraradical hyphae (hyphosphere treatment) to access dual labeled N-15 and C-13 cover crop litter that was placed inside the cores after 4 months of grapevine growth. Mesh cores in the bulk soil treatment, which served as a negative control, had the same mesh size as the hyphosphere treatment, but frequent rotation prevented extraradical hyphae from accessing the litter. Grapevines and soils were harvested 0, 7, 14, and 28 days after addition of the cover crop litter and examined for the presence of N-15. Soil microbial biomass and the soil microbial community inside the mesh cores were examined using phospholipid fatty acid analysis. N-15 concentrations in grapevines in the hyphosphere treatment were twice that of grapevines in the bulk soil treatment, suggesting that extraradical hyphae extending from mycorrhizal grapevine roots may have a role in nutrient utilization from decomposing vineyard cover crops in the field. Nonetheless, grapevines in the mycorrhizosphere treatment had the highest N-15 concentrations, thus highlighting the importance of a healthy grapevine root system in nutrient uptake. We detected similar peaks in soil microbial biomass in the mycorrhizosphere and hyphosphere treatments after addition of the litter, despite significantly lower microbial biomass in the hyphosphere treatment initially. Our results suggest that although grapevine roots play a dominant role in the uptake of nutrients from a decomposing cover crop, AM hyphae may have a more important role in maintaining soil microbial communities associated with nutrient cycling. |