Effects of Anoxia on Wheat Seedlings: II. INFLUENCE OF O2 SUPPLY PRIOR TO ANOXIA ON TOLERANCE TO ANOXIA, ALCOHOLIC FERMENTATION, AND SUGAR LEVELS

Prior exposure of roots of intact wheat seedlings for 15–30h to hypoxia (0016-006 mol m 02) greatly increased their toleranceto subsequent anoxia, as assessed by the ability of the rootsto elongate upon return to air. Such hypoxically pretreatedroots had 2–4-fold higher activities of pyruvate decarboxylase(PDC) and 35–l7-fold higher activities of alcohol dehydrogenase(ADH) in their 0–1 mm apices and 0–5 mm root tipsthan in apices and tips of roots pretreated in air (026–031mol m3 02). The ADH/ PDC ratio increased I 3–5-fold duringhypoxic pretreatment. Furthermore, the rate of alcoholic fermentationby 0–5 mm tips of the hypoxically pretreated roots was14-4-fold faster than in tips from aerobically pretreated roots.No consistent difference between 02 pretreatment was found foralcoholic fermentation by tissues taken between 10 and 20 mmfrom the root tip. The observed activities of PDC and rates of alcoholic fermentationindicate that alcoholic fermentation is usually rate-limitedby PDC in 0–1 mm apices and 0–5 mm tips of wheatroots. Comparisons with data in the literature indicate thatwheat has at most a small Pasteur effect, which may explainwhy wheat is more intolerant to anoxia than rice. Exogenous glucose delayed the loss of elongation potential inboth aerobically and hypoxically pretreated roots. In the absenceof glucose, more than 85% of aerobically pretreated roots hadlost their elongation potential after 9 h anoxia, compared with30% in the presence of glucose. After 21 h anoxia nearly allaerobically pretreated roots had lost their elongation potential,compared with 10% and 0% of hypoxically pretreated roots inthe absence and presence, of glucose, respectively. The protective effect of glucose was presumably not due to anendogenous sugar deficiency; at the start of anoxia, 0–1mm apices of aerobically pretreated roots contained sufficientsugar for 23 h of their measured rate of ethanol synthesis yet,85% of these apices had lost their elongation potential afteronly 9 h of anoxia. It is suggested that in wheat roots, lowrates of synthesis of ethanol and hence of ATP, lead to injuryof cells, in turn generating a requirement for exogenous glucose,despite high endogenous sugar concentrations. Key words: Wheat seedlings, anoxia, glucose, O₂ pretreatment, alcoholic fermentation