Manganese uptake to wheat shoot meristems is differentially influenced by arbuscular mycorrhiza fungal communities adapted to acidic soils
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MDPI / Soil Systems
Abstract
Soil acidity is a strong promoter of the bioavailability of Al, Fe, and Mn, whose concentrations
can sometimes reach toxic levels for plants. In agricultural soils, the use of arbuscular
mycorrhizal fungi (AMF) has shown a protective influence on wheat growth under Mn toxicity.
The intact extraradical mycelium (ERM) promotes faster AMF colonization, leading to a higher wheat
shoot weight, lower Mn uptake, and changes in antioxidant enzyme activity. Its effect on the uptake
and distribution of plant nutrients according to the developmental stage of shoot organs has seldomly
been analyzed. In the present study, Mn, Mg, Ca, and K were quantified by ICP–MS in leaves and
apical meristems of wheat grown in soil with two different ERM consortia, developed from the
native plants Lolium rigidum (LOL) and Ornithopus compressus (ORN). The ORN treatment induced
the highest wheat shoot weights and the lowest Mn levels. In the leaves, no significant differences
were detected for Mg, Ca, or K, but in the apical meristems, the ORN treatment slightly lowered
the Ca concentration. The AMF associated with ORN was seen to enhance wheat weight partly by
protecting the zones of active growth against high Mn levels in Mn toxic soils. The use of ORN in
acidic soils with Mn toxicity provides a sustainable alternative and an efficient complement to current
farming practices to lower the negative impacts of farming on the environment.
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Citation
Faria, J.M.S.; Teixeira, D.M.;Ferreira, D.; Faria, J.M.S.; Teixeira, D.M.;Ferreira, D.; Barrulas, P.; Brito, I.; Pinto, A.P.; Carvalho, M. Manganese Uptake to Wheat Shoot Meristems Is Differentially Influenced by Arbuscular Mycorrhiza Fungal Communities Adapted to Acidic Soil.
Soil Syst. 2022, 6, 50.https://
doi.org/10.3390/soilsystems6020050
Adapted to Acidic Soil.
Soil Syst. 2022, 6, 50.https://
doi.org/10.3390/soilsystems6020050