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Effects of increasing soil pH to near-neutral using lime on phosphorus saturation index and water-extractable phosphorus

Sylvia Nyamaizi, Aimé J. Messiga, Jean‐Thomas Cornelis, Sean Smukler

2022Canadian Journal of Soil Science17 citationsDOIOpen Access PDF

Abstract

We studied the effects of liming to increase soil pH from acidic to near-neutral on the degree of phosphorus saturation (DPS), the P saturation index (PSI), Mehlich-3 P ( P M3 ), and water-extractable P ( P w ). Soils collected from a long-term highbush blueberry experiment were incubated at 22.5 °C for 93 days after CaCO 3 amendment to increase pH values from 4.1, 4.8, and 5.5 to 6 and from 5.8 to 6.5. Liming decreased P M3 by 8%, 6%, 10%, and 11% with increasing initial soil pH. The P M3 concentrations of all the studied soils belonged to the very high class with critical DPS > 25%, which are associated with increased environmental risk of P loss with runoff. For soils with initial pH values of 5.8, P w was 3.65 mg kg –1 , in line with critical DPS > 25%, but decreased to 2.74 mg kg –1 with CaCO 3 addition. In contrast, soils with initial pH < 5.5 had lower P w concentrations and CaCO 3 did not significantly decrease P w at the end of the incubation averaging 1.02, 1.11, and 1.43 mg kg –1 for initial pH 4.1, 4.8, and 5.5, respectively. The low P w concentrations of soils with initial pH < 5.5 were in line with low PSI (5.2%–6.1%), but did not reflect DPS values > 25%. It is possible that high exchangeable aluminum (Al) (Al M3 > 2500 mg kg –1 ) enhanced the fixation of phosphate ions from the soil solution, thus reducing P w . Our results suggest that using P M3 as a sole indicator of environmental risk likely underestimates potential P losses compared with P w .

Topics & Concepts

Soil waterChemistrySaturation (graph theory)LimeAnimal sciencePhosphorusSoil pHIncubationEnvironmental chemistrySoil scienceBiochemistryGeologyBiologyMathematicsPaleontologyOrganic chemistryCombinatoricsSoil and Water Nutrient DynamicsSoil Carbon and Nitrogen DynamicsMine drainage and remediation techniques
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