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SOIL QUALITY & FERTILITY

Soil Properties and Crop Yields in Response to Mixed Paper Mill Sludges, Dairy Cattle Manure, and Inorganic Fertilizer Application

Research and Development Institute for the Agri-Environment (IRDA), 2700 Einstein, Complexe Scientifique, D.1.110, Québec, QC, Canada, G1P 3W8

^* Corresponding author (adrien.ndaye{at}irda.qc.ca).

The contribution of organic wastes to crop yields and soil fertility may be influenced by their composition and the soil type. This 6-yr study (2001–2006) evaluated the effects of repeated additions of mineral fertilizers (MF), mixed paper mill sludges (PMS) (18, 36, and 54 Mg ha^–1), dairy cattle manure (DCM) (36 Mg ha^–1) alone or with reduced mineral fertilizer (60% NPK) (RMF) and a control, on soil properties and corn (Zea mays L.), barley (Hordeum vulgaris L.), and soybean (Glycine max L. Merr.) yields in a clay loam and sandy loam. The applications of PMS and DCM increased mostly N mineralization and crop yields in the sandy loam than in the clay loam. However, increases of soil C contents, water-stable aggregates and MWD following their application were higher in the clay loam than in the sandy loam. The DCM effects on the soil property changes were of less magnitude than those of PMS. Except in the first year, the PMS applications at rates of 36 and 54 Mg ha^–1 without NPK, and PMS applied at a rate of 18 Mg ha^–1 with 60% NPK, produced highest crop yields in both soils and were comparable to those obtained with MF. The increase in yield following DCM additions (36 Mg ha^–1) was lower than that obtained with PMS. Annual MF applications increased crop yields in both soil without significant changes on soil properties. The benefits of PMS and DCM on soil properties and crop yields varied depending on organic wastes and soil type.

Abbreviations: DCM, dairy cattle manure • MBC, microbial biomass carbon • MF, complete mineral fertilizer rate • MWD, mean weight diameter of water-stable aggregates • PMS, paper mill sludges • RMF, reduced mineral fertilizer rate (60% NPK)

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Received for publication November 7, 2008.