Combined compost and clay amendments improve water and nutrient retention in sandy soil

Karthika Pradeep; Richard Bell

doi:10.1071/SR25143

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Combined compost and clay amendments improve water and nutrient retention in sandy soil

Journal article

Open access

Peer reviewed

Combined compost and clay amendments improve water and nutrient retention in sandy soil

Karthika Pradeep and Richard Bell

Soil research (Collingwood, Vic.), Vol.63(8), SR25143

2025

DOI: https://doi.org/10.1071/SR25143

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Published (Version of Record)CC BY-NC-ND V4.0, Open Access

Abstract

ammonium

leaching

minerals-processing clay

municipal compost

nitrate

phosphate

potassium

sandy soils

Context Low organic matter and clay content in sands result in poor water and nutrient retention, which limit the crop and pasture productivity on such soils throughout the world. Compost amendments to sands can increase the reactive surface area and improve nutrient and water holding capacity. However, the added nutrients in composts can be leached rapidly in sandy soils especially when they decompose quickly. Aims It is hypothesised that clay addition with compost could increase nutrient retention and reduce the nutrients leached in sands. Methods A leaching experiment was conducted in columns to investigate the effect of compost and clay amendments on water and nutrient retention under two different irrigation/rainfall regimes at two fertiliser rates. Results Compost addition at both 10 and 30 t/ha had positive effects on initial water retention in sand. Clay added at 6% under high irrigation conditions also significantly increased initial water retention compared to unamended sand. The clay and compost combinations reduced ammonium and phosphorus leaching by 30% and 30–50%, respectively, compared to unamended sands. The addition of clay at 6% with compost 30 t/ha reduced potassium leaching by 25% compared to compost only. Conclusions Compost at 30 t/ha ± clay retained significantly higher levels of phosphorus, potassium, sulfur, calcium, magnesium, zinc, boron and manganese than unamended sand and clay-only treatments in final soils under both irrigation and fertiliser rates. Implications Combined compost and clay amendments, compared to single applications of either compost or clay-only, improved water retention which could potentially support plant growth in sands during dry periods, and retention of nutrients that otherwise are prone to leaching on sands.

Details

Title: Combined compost and clay amendments improve water and nutrient retention in sandy soil
Authors/Creators: Karthika Pradeep - Murdoch University
Richard Bell - Murdoch University
Publication Details: Soil research (Collingwood, Vic.), Vol.63(8), SR25143
Publisher: CSIRO Publishing
Number of pages: 17
Grant note: Commonwealth Scientific and Industrial Research Organisation; Commonwealth Scientific & Industrial Research Organisation (CSIRO)
Identifiers: 991005847348507891
Murdoch Affiliation: School of Agricultural Sciences; Centre for Sustainable Farming Systems
Language: English
Resource Type: Journal article

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Citation topics: 3 Agriculture, Environment & Ecology; 3.45 Soil Science; 3.45.112 Soil Carbon Dynamics
Web Of Science research areas: Soil Science
ESI research areas: Agricultural Sciences