Mycorrhizal Colonization of Wheat by Intact Extraradical Mycelium of Mn-Tolerant Native Plants Induces Different Biochemical Mechanisms of Protection
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Abstract
Soil with excess Mn induces toxicity and impairs crop growth. However, with the develop-
ment in the soil of an intact extraradical mycelia (ERM) from arbuscular mycorrhizal fungi (AMF)
symbiotic to native Mn-tolerant plants, wheat growth is promoted due to a stronger AMF colonization
and subsequent increased protection against Mn toxicity. To determine the biochemical mechanisms
of protection induced by this native ERM under Mn toxicity, wheat grown in soil from previously de-
veloped Lolium rigidum (LOL) or Ornithopus compressus (ORN), both strongly mycotrophic plants, was
compared to wheat grown in soil from previously developed Silene gallica (SIL), a non-mycotrophic
plant. Wheat grown after LOL or ORN had 60% higher dry weight, ca. two-fold lower Mn levels and
almost double P contents. Mn in the shoots was preferentially translocated to the apoplast along with
Mg and P. The activity of catalase increased; however, guaiacol peroxidase (GPX) and superoxide
dismutase (SOD) showed lower activities. Wheat grown after ORN differed from that grown after
LOL by displaying slightly higher Mn levels, higher root Mg and Ca levels and higher GPX and
Mn-SOD activities. The AMF consortia established from these native plants can promote distinct
biochemical mechanisms for protecting wheat against Mn toxicity.
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Citation
Faria, J.M.S.; Barrulas, P.; Pinto, A.P.; Brito, I.; Teixeira, D.M. Mycorrhizal Colonization of Wheat by Intact Extraradical Mycelium of Mn-Tolerant Native Plants Induces Different Biochemical Mechanisms of Protection. Plants 2023, 12 (11), 2091.