Comparison of soil analytical methods for estimating plant-available potassium in highly weathered soils

Miaomiao Cheng; Richard Bell; Jordan Brown; Qifu Ma; Craig Scanlan

doi:10.1071/SR22270

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Comparison of soil analytical methods for estimating plant-available potassium in highly weathered soils

Journal article

Open access

Peer reviewed

Comparison of soil analytical methods for estimating plant-available potassium in highly weathered soils

Miaomiao Cheng, Richard Bell, Jordan Brown, Qifu Ma and Craig Scanlan

Soil research (Collingwood, Vic.), Vol.61(7), pp.717-733

2023

DOI: https://doi.org/10.1071/SR22270

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Abstract

Colwell K

NH4OAc K

nutrient uptake

potassium

soil analysis

soil fertility

soil–plant interaction

Context The NaHCO3-extractable soil K test (Colwell K) is the most frequently used method for soil K across Australia, but there is still uncertainty about the suitability of K testing guidelines for heavy-textured soils. Aims To determine whether Colwell K is suitable for predicting plant-available K on loam- and clay-textured soil types developed from highly weathered soil parent materials in Western Australia (WA). Methods Nine soil K testing methods were used to determine plant-available K on 21 soil types with a wide range of properties collected from three depths on the northern, central and southern farmlands in WA. Key results Quartz and K-feldspars were the dominant minerals in all soils, while limited white mica (1–2%) was identified in less than 10% of samples. The amount of K extracted by silver thiourea was only about 70% of the amounts extracted by NaHCO3 (Colwell K) and NH4OAc. Soil non-exchangeable K extracted by nitric acid and sodium tetraphenyl borate were from similar K pools, while aqua regia K was 1–6 times higher than these values. Conclusion There was no systemic difference or proportional bias between NH4OAc K and Colwell K, and both had good model performance (R2 > 0.86) for total K uptake by wheat in a single growing season in a wide range of soils. Implication In this diverse range of soils formed from weathered parent materials, the reliance on exchangeable K for plant K uptake suggests that plant-available K will be vulnerable to rundown due to negative K balances.

Details

Title: Comparison of soil analytical methods for estimating plant-available potassium in highly weathered soils
Authors/Creators: Miaomiao Cheng - Murdoch University, Centre for Sustainable Farming Systems
Richard Bell - Murdoch University, Centre for Sustainable Farming Systems
Jordan Brown - Curtin University
Qifu Ma - Murdoch University
Craig Scanlan - Murdoch University, Centre for Sustainable Farming Systems
Publication Details: Soil research (Collingwood, Vic.), Vol.61(7), pp.717-733
Publisher: CSIRO Publishing
Identifiers: 991005593756407891
Murdoch Affiliation: SoilsWest; Centre for Sustainable Farming Systems
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.45 Soil Science; 3.45.473 Soil Phosphorus Dynamics
Web Of Science research areas: Soil Science
ESI research areas: Agricultural Sciences