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Correction of Limed-Biosolid Induced Manganese Deficiency on a Long-Term Field Experiment

Environmental Chemistry Lab, USDA-ARS BARC West, Beltsville, MD;
Department of Agronomy, University of Maryland, College Park, MD.

^* Corresponding author (sbrown{at}asrr.arsusda.gov).

ABSTRACT

Land application of lime-stabilized biosolids has been reported to cause Mn deficiency in wheat (Triticum aestivum L.) and soybean [Glycine max (L.) Merr.]. Deficiencies were observed on a long-term biosolid research experiment in Beltsville, MD, that had been established on a Galestown sand (sandy, siliceous, mesic Psammentic Hapludult) in 1976 with lime-stabilized biosolids applied at 224 and 448 Mg ha^–1. For the present study, a randomized complete block experiment was set up in plot areas of the original study. Soil amendments included MnO at 50, 100, and 200 kg ha^–1, and MnSO₄ at 200 kg ha^–1. Plots were split with random half plots receiving a foliar application of MnSO₄ at 0.5 kg ha^–1 Mn. Soybean and wheat were double cropped for two seasons (1993–1995). Measured indexes of deficiency included youngest emerged blade (YEB) and grain Mn, plant chlorophyll, and yield. Wheat exhibited severe Mn deficiency for both seasons in the 224 Mg ha^–1 biosolid plots. Only plants grown in the MnSO₄-amended soils were not deficient in Mn. Foliar Mn spray also alleviated Mn deficiency. Although soybean plants were not Mn deficient, plants in the MnSO₄-treated plots had higher YEB Mn concentrations. Soil extractions to reflect phytoavailable Mn, including Mehlich 1 (M1), Mehlich 3 (M3), and DTPA were conducted on moist soils. Results from M3 and DTPA extractions mirrored plant response. The M1 extraction did not predict plant response indicating that this extraction is not appropriate for predicting Mn deficiency in coarse-textured high pH soils.

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