Short-term effects of organic amendments on properties of a Vertisol

Author:

Ghosh Subhadip1,Lockwood Peter2,Daniel Heiko2,King Kathleen2,Hulugalle Nilantha3,Kristiansen Paul2

Affiliation:

1. Agronomy and Soil Science, University of New England, Armidale, New South Wales, Australia,

2. Agronomy and Soil Science, University of New England, Armidale, New South Wales, Australia

3. Australian Cotton Research Institute, NSW Department of Primary Industries and Cotton Catchment Communities CRC, Narrabri, New South Wales, Australia

Abstract

Application of organic waste products as amendments has been proposed as a management option whereby soil quality of Vertisols could be improved. An incubation experiment was, therefore, conducted for 4 weeks under controlled temperature conditions (30°C) to identify those potential organic amendments that might improve the quality of a Vertisol. Twelve organic amendments were investigated: cotton gin trash from three sources, cattle manure from two sources, green waste compost, chicken manure from three sources including a commercial product, biosolids and two commercial liquefied vermicomposts. Except for the biosolids, no other organic amendments had any effect on soil microbial biomass and respiration. Compared with NO3-N levels in the control, there was a 50% decrease in soil amended with 10 t ha—1 green waste compost (65 µg g—1). The three different types of chicken manures increased the NO3-N concentration from 75% (228 µg g—1) to 226% (424 µg g— 1) over the control. Approximate recovery of P added by the amendment as resin-extractable soil P was 53% for cattle manure and 39% for chicken manure. Application of cattle manure resulted in a 22% increase in soil-exchangeable K over levels found in control. Organic amendments application also resulted in a significant increase in exchangeable Na concentration. Some of the organic wastes, viz. cotton gin trash (10 t ha— 1), cattle manure (10 t ha—1), biosolids (10 t ha—1) and composted chicken manure (3 t ha—1) have value as a source of nutrients to soil and hence showed potential to improve Vertisol properties.

Publisher

SAGE Publications

Subject

Pollution,Environmental Engineering

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