Impacts of Acid Rain on Base Cations, Aluminum, and Acidity Development in Highly Weathered Soils of Thailand

The impacts of simulated acid rain on leachability of major plant nutrients, toxic element [aluminum (Al)], and acidity development in highly weathered tropical soils of Thailand were studied. Leaching experiments were conducted on soil columns with acidic solutions of pH 5.0, 4.0, 3.0, 2.0, and wit...

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Published in:Communications in Soil Science and Plant Analysis 2012-05, Vol.43 (10), p.1382-1400
Main Authors: Nawaz, Rab, Parkpian, Preeda, Garivait, Hathairatana, Anurakpongsatorn, Patana, DeLaune, R. D, Jugsujinda, A
Format: Article
Language:English
Subjects:
acid deposition
Acid rain
Acidic deposition
acidity
Agronomy. Soil science and plant productions
Aluminum
aluminum leaching
aluminum mobilization
base cation leaching
Biological and medical sciences
calcium
cation exchange capacity
cations
Fundamental and applied biological sciences. Psychology
leaching
magnesium
phytotoxicity
potassium
rhizosphere
soil acidity
soil productivity
soil texture
Soils
southeastern Asia
tropical soils
weathered soils
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Summary:The impacts of simulated acid rain on leachability of major plant nutrients, toxic element [aluminum (Al)], and acidity development in highly weathered tropical soils of Thailand were studied. Leaching experiments were conducted on soil columns with acidic solutions of pH 5.0, 4.0, 3.0, 2.0, and with water of pH 7.0 as a control treatment. Leaching losses of base cations from all soils increased with the decrease in pH associated with simulated acid rain (SAR) additions, and were found to be quite high under SAR with pH 2.0. The leaching removal of these cations was lesser at pH 3.0, 4.0, and 5.0 but greater than that in pH 7.0. The leaching of base cation from the soils depended not only on acid rain pH but also on soil properties, especially cation exchange capacity, soil texture, and initial base content. The significant losses of major plant nutrients [such as potassium (K⁺), calcium (Ca²⁺), and magnesium (Mg²⁺)] from the plant root zone over extended periods could cause nutrient imbalance and lower soil productivity.
ISSN:1532-2416
0010-3624
1532-2416
1532-4133
DOI:10.1080/00103624.2012.670347