Record ID No. |
1951 |
Author(s) |
HA Violi, AF BarrientosPriego, SF Wright, E EscamillaPrado, JB Morton, JA Menge, CJ Lovatt , 2008 |
Affiliation |
USDA ARS, Subtrop Hort Res Stn, 13601 Old Cutler Rd, Miami,FL 33158 USA |
Title |
Disturbance changes arbuscular mycorrhizal fungal phenology and soil glomalin concentrations but not fungal spore composition in montane rainforests in Veracruz and Chiapas, Mexico |
Source. Vol.(no):Page |
Forest Ecology and Management.254(2):276-290p. |
Categories |
Mycorrhiza General |
Subjects |
Biochemistry |
Sub-subjects |
Miscellaneous |
Organism |
n.a. |
Country |
United States |
Abstracts |
Mexican montane rainforests and adjacent disturbed areas were studied for
disturbance-related spatio-temporal changes to the arbuscular mycorrhizal fungal (AMF) community
and soil glomalin concentration. The AMF community functions to both improve plant growth and
soil conditions and is thus an important component to the restoration of this forest type to
disturbed areas. The study areas included mature rainforests that were converted to pine forests,
milpas, pastures and shrub/herbaceous plant communities via burning and logging. Seasonal
patterns in AMF spore species richness and sporulation significantly differed across disturbance
types at two of the three sites surveyed. Contrasting patterns of sporulation among AMF families
across different disturbance types helped to explain how species richness and composition were
maintained despite dramatic changes to the host plant community. Meaning, in most cases,
disturbance induced changes in when different AMF taxa sporulated but not what taxa sporulated.
Only conversion from mature pine-oak-Liquidambar-Persea forests to pine-dominated stands severely
reduced AMF spore richness and total sporulation. Surprisingly, in pine-dominant stands no
concomitant negative impacts on soil glomalin (MAb32B11 immunoreactive soil protein)
concentrations were detected. However, soils of mature forests containing no pines had the
highest concentration of glomalin. Conversion to pasture and milpa (diverse cornfield) had a
strong negative impact on the concentration of soil glomalin concentrations. In sharp contrast,
the same disturbance types improved AMF sporulation and AMF spore richness. It appears that
disturbance type, and not AMF community measures used herein, best predicts changes in soil
glomalin concentration. (c) 2007 Elsevier B.V. All rights reserved. |