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Mycorrhizosphere Responsiveness to Atmospheric Ozone and Inoculation with Phytophthora citricola in a Phytotron Experiment with Spruce/Beech Mixed Cultures
Author(s) -
Pritsch K.,
Luedemann G.,
Matyssek R.,
Hartmann A.,
Schloter M.,
Scherb H.,
Grams T. E. E.
Publication year - 2005
Publication title -
plant biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.871
H-Index - 87
eISSN - 1438-8677
pISSN - 1435-8603
DOI - 10.1055/s-2005-872972
Subject(s) - beech , fagus sylvatica , phytotron , biology , rhizosphere , chitinase , horticulture , botany , phytophthora cinnamomi , picea abies , biomass (ecology) , inoculation , agronomy , phytophthora , enzyme , biochemistry , genetics , bacteria
Abstract: The aim was to analyze functional changes in the mycorrhizosphere (MR) of juvenile spruce and beech grown in a mixture under ambient and twice ambient ozone and inoculated with the root pathogen Phytophthora citricola. The phytotron experiment was performed over two vegetation periods, adding the pathogen at the end of the first growing season. Root biomass data suggest that the combined treatment affected spruce more than beech and that the negative influence of ozone on stress tolerance against the root pathogen P. citricola was greater for spruce than for beech. In contrast, beech was more affected when the pathogen was the sole stressor. The functional soil parameter chosen for studies of MR soil samples was activity of extracellular enzymes. After the first year of ozone exposure, MR soil samples of both species showed increased activity of almost all measured enzymes (acid phosphatase, chitinase, β‐glucosidase, cellobiohydrolase) in the O 3 treatment. Species‐specific differences were observed, with a stronger effect of P. citricola on beech MR and a stronger ozone effect on spruce MR. In the second year, the effects of the combined treatment (ozone and P. citricola ) were a significant increase in the activity of most enzymes (except cellobiohydrolase) for both tree species. The results indicated that responsiveness of MR soils towards ozone and P. citricola was related to the severity of infection of the plants and the reduction of belowground biomass, suggesting a strong, direct influence of plant stress on MR soil enzyme activity. Additional research is needed using different species and combined stresses to determine the broader ecological relevance of shifts in rhizosphere enzymes.