Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia

Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia

Purpose. This paper discusses the release of acidity and toxic metals from acid sulfate soils in the Kelantan plains due to the oxidation of pyrite. Methods. A study was conducted in the field and laboratory using leaching column to quantify the release of acidity and metals from these acid sulfate...

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Main Authors: Enio, Mohd S.K., Shamshuddin, Jusop, Fauziah, Che I., Husni, Mohd H.A., Panhwar, Qurban A.
Format: Article
Published: Dnipro University of Technology 2020
Online Access:http://psasir.upm.edu.my/id/eprint/87381/
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author Enio, Mohd S.K.
Shamshuddin, Jusop
Fauziah, Che I.
Husni, Mohd H.A.
Panhwar, Qurban A.
author_facet Enio, Mohd S.K.
Shamshuddin, Jusop
Fauziah, Che I.
Husni, Mohd H.A.
Panhwar, Qurban A.
author_sort Enio, Mohd S.K.
building UPM Institutional Repository
collection Online Access
description Purpose. This paper discusses the release of acidity and toxic metals from acid sulfate soils in the Kelantan plains due to the oxidation of pyrite. Methods. A study was conducted in the field and laboratory using leaching column to quantify the release of acidity and metals from these acid sulfate soils. Findings. The highest pyrite content of 6.3% was recorded in the subsoil in the south region. Titrable actual acidity was significantly high (23.2 cmol H+ /kg) in soils of the southern part where jarosite occurred in the topsoil. Most of the acidity has been released at the beginning of the laboratory leaching experiment, indicating that in the real field situation, the oxidation of pyrite occurred immediately after the area was drained Originality. The depth at which pyrite layer occurs in the soils has important implication on land quality and crop production in the area. High amount of Al (0.36-0.81 cmolc/kg) and Fe (0.35-0.7 cmolc/kg) were found in the leachates. Practical implications. Opening an area of acid sulfate soils in the Kelantan Plains for agriculture had oxidized pyrite in the sediments, resulting in the release of high acidity and toxic level of Al, Fe and trace elements into the soils and waterways, which can affect crops and aquatic life. This is made worse by the release of As, B, Cu, Mn and Zn into the soil solution and waterways.
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institution Universiti Putra Malaysia
institution_category Local University
last_indexed 2025-11-15T12:45:06Z
publishDate 2020
publisher Dnipro University of Technology
recordtype eprints
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spelling upm-873812024-05-27T07:46:26Z http://psasir.upm.edu.my/id/eprint/87381/ Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia Enio, Mohd S.K. Shamshuddin, Jusop Fauziah, Che I. Husni, Mohd H.A. Panhwar, Qurban A. Purpose. This paper discusses the release of acidity and toxic metals from acid sulfate soils in the Kelantan plains due to the oxidation of pyrite. Methods. A study was conducted in the field and laboratory using leaching column to quantify the release of acidity and metals from these acid sulfate soils. Findings. The highest pyrite content of 6.3% was recorded in the subsoil in the south region. Titrable actual acidity was significantly high (23.2 cmol H+ /kg) in soils of the southern part where jarosite occurred in the topsoil. Most of the acidity has been released at the beginning of the laboratory leaching experiment, indicating that in the real field situation, the oxidation of pyrite occurred immediately after the area was drained Originality. The depth at which pyrite layer occurs in the soils has important implication on land quality and crop production in the area. High amount of Al (0.36-0.81 cmolc/kg) and Fe (0.35-0.7 cmolc/kg) were found in the leachates. Practical implications. Opening an area of acid sulfate soils in the Kelantan Plains for agriculture had oxidized pyrite in the sediments, resulting in the release of high acidity and toxic level of Al, Fe and trace elements into the soils and waterways, which can affect crops and aquatic life. This is made worse by the release of As, B, Cu, Mn and Zn into the soil solution and waterways. Dnipro University of Technology 2020 Article PeerReviewed Enio, Mohd S.K. and Shamshuddin, Jusop and Fauziah, Che I. and Husni, Mohd H.A. and Panhwar, Qurban A. (2020) Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia. Mining of Mineral Deposits, 14 (3). 50 - 60. ISSN 2415-3435; ESSN: 2415-3443 http://mining.in.ua/2020vol14_3_7.html 10.33271/mining14.03.050
spellingShingle Enio, Mohd S.K.
Shamshuddin, Jusop
Fauziah, Che I.
Husni, Mohd H.A.
Panhwar, Qurban A.
Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title_full Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title_fullStr Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title_full_unstemmed Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title_short Quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the Kelantan Plains, Malaysia
title_sort quantifying the release of acidity and metals arising from drainage of acid sulfate soils in the kelantan plains, malaysia
url http://psasir.upm.edu.my/id/eprint/87381/
http://psasir.upm.edu.my/id/eprint/87381/
http://psasir.upm.edu.my/id/eprint/87381/

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