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Effect of Calcium Supply on Aluminium-Induced Callose Formation, its Distribution and Persistence in Roots of Soybean (Glycine max (L.) Merr.)

1995; Elsevier BV; Volume: 145; Issue: 4 Linguagem: Inglês

10.1016/s0176-1617(11)81773-6

1618-1328

Alexander H. Wissemeier, Walter J. Horst,

Silicon Effects in Agriculture

Inhibition of root elongation and induction of callose formation are sensitive responses of soybean (Glycine max (L.) Merr.) roots to aluminium (Al). As early as 30 min after supply of 50 μM Al in solution culture, callose increased in the very root tip. There was a decrease in callose along the root axis from the apex to the base when roots were exposed to Al for up to 8 h. Short-term exposure of roots to Al revealed that the callose concentration in root tips remained constant for several hours after transfer to Alfree nutrient solution. A substantial decomposition of callose became apparent only after 22 h. New growth of formerly Al-treated roots showed no elevated callose levels. Increasing the Ca (CaSO4) supply from 20 to 1500 μM enhanced root elongation, especially in the presence, but also in the absence of 25 μM Al at pH 4.5. Al-induced callose formation first increased and then decreased with increasing Ca supply. There was a close quadratic relationship between Al-induced inhibition of root elongation and callose formation for Ca supplies between 50 and 1500 μM. Maximum inhibition of root growth and enhancement of callose formation by Al occurred between 50–100 μM Ca. However, the lowest Ca supply of 20 μM did not fit into this pattern: Al-induced callose was much lower than predicted, indicating a Ca requirement for callose formation. Root growth but not the callose concentration in root tips could be related to Al3+ or Ca2+ activities of the nutrient solution.