Distribution and Redistribution of Molybdenum in Black Gram (Vigna mungo L. Hepper) in Relation to Molybdenum Supply

The effect of seven rates of molybdenum (Mo) supply on the distributionand redistribution of Mo in Vigna mungo (black gram) cv. Reguron a Mo-deficient sandy loam was examined from flower bud appearanceto pod set in one experiment and during pod filling to maturityin another. At the three lowest Mo supply rates, N deficiency symptoms typicalof Mo deficiency appeared, and shoot dry matter and shoot nitrogencontent were depressed. Increasing Mo supply increased Mo concentrationsin all plant parts but the response varied with Mo supply andwith plant part. In leaf blades and petioles, Mo concentrationsincreased slightly when the Mo supply increased from severelydeficient to deficient levels but further increases in Mo supplymarkedly increased the Mo concentrations, particularly in immatureand recently matured leaves. In petioles, Mo concentrationsgenerally exceeded those in the blades which they supportedat all levels of Mo supply. At Mo rates greater than that requiredfor maximum growth, Mo concentrations in basal stem segmentsexceeded those in petioles. Molybdenum concentrations in nodulesexceeded those in above ground plant parts except at the highestlevel of Mo supply where the concentrations in basal stem segmentsexceeded those in nodules. In Mo-adequate plants, Mo contents in the trifoliolate leavesdecreased with time suggesting that Mo was readily remobilized.By contrast, in stem segments at all levels of Mo supply, andin trifoliolate leaves in Mo-deficient plants, Mo contents remainedconstant or increased with time suggesting that Mo was not remobilizedin all plant parts or at all levels of Mo supply. Thus, theresults suggest that in black gram Mo was variably mobile, beingphloem immobile at low Mo supply, but phloem-mobile in all plantparts with the possible exception of stem segments at adequateMo supply. The relevance of these results for the developmentof plant tests for Mo deficiency diagnosis is discussed.Copyright1994, 1999 Academic Press Molybdenum, phloem-mobility, redistribution, black gram, Vigna mungo L. Hepper