Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study

Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study

Rice productivity in acid sulfate soils are frequently limited due primarily to strong acidity, low phosphorus (P) availability and metal toxicity. A recent study has documented that the use of sodium bentonite (NaB), non-hazardous material uses in natural gas pipeline construction, could be a promi...

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Main Authors: Wongleecharoen Chalermchart, Wisawapipat Worachart, Ketrot Daojarus, Chittamart Natthapol, Aramrak Surachet, Chittanukul Kittipon, Sattapun Rachit, Tawornpruek Saowanuch
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/27/e3sconf_icesd2020_02003.pdf
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spelling doaj-d13088db5a2b40d299a0e3babea4a3562021-04-02T12:45:53ZengEDP SciencesE3S Web of Conferences2267-12422020-01-011670200310.1051/e3sconf/202016702003e3sconf_icesd2020_02003Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field studyWongleecharoen Chalermchart0Wisawapipat Worachart1Ketrot Daojarus2Chittamart Natthapol3Aramrak Surachet4Chittanukul Kittipon5Sattapun Rachit6Tawornpruek Saowanuch7Department of Soil Science, Faculty of Agriculture, Kasetsart UniversityDepartment of Soil Science, Faculty of Agriculture, Kasetsart UniversityDepartment of Soil Science, Faculty of Agriculture, Kasetsart UniversityDepartment of Soil Science, Faculty of Agriculture, Kasetsart UniversityDepartment of Soil Science, Faculty of Agriculture, Kasetsart UniversityProject Environmental Management Department, PTT Public Company LimitedProject Environmental Management Department, PTT Public Company LimitedDepartment of Soil Science, Faculty of Agriculture, Kasetsart UniversityRice productivity in acid sulfate soils are frequently limited due primarily to strong acidity, low phosphorus (P) availability and metal toxicity. A recent study has documented that the use of sodium bentonite (NaB), non-hazardous material uses in natural gas pipeline construction, could be a promising soil amendment for mitigating major concerns experiencing in acid sulfate soils. Here we examined the effects of NaB and dolomite (DL) on dynamics in dissolved contents of both nutrient and associated elements in an acid sulfate soil and rice yield from paddy field in natural gas pipeline Rights-of-Way. The results demonstrated that the NaB and DL utilization significantly alleviated soil acidity and metal (Al, Fe, and Mn) toxicity (α = 0.05). Both soil amendments also significantly improved readily available P. Nonetheless, the soil NaB incorporation did elevate soluble sodium and did plummet soluble K, Ca, and Mg. Therefore, appropriate ratios and amounts of the K, Ca, and Mg along with N fertilizers are indisputable needed to maintain the nutrient balance when applying NaB as a soil amendment. Our finding implies that combined use of NaB and DL are suggested to soil amendment and could alleviate nutrient imbalance as compared to the sole NaB utilization.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/27/e3sconf_icesd2020_02003.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Wongleecharoen Chalermchart
Wisawapipat Worachart
Ketrot Daojarus
Chittamart Natthapol
Aramrak Surachet
Chittanukul Kittipon
Sattapun Rachit
Tawornpruek Saowanuch
spellingShingle Wongleecharoen Chalermchart
Wisawapipat Worachart
Ketrot Daojarus
Chittamart Natthapol
Aramrak Surachet
Chittanukul Kittipon
Sattapun Rachit
Tawornpruek Saowanuch
Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
E3S Web of Conferences
author_facet Wongleecharoen Chalermchart
Wisawapipat Worachart
Ketrot Daojarus
Chittamart Natthapol
Aramrak Surachet
Chittanukul Kittipon
Sattapun Rachit
Tawornpruek Saowanuch
author_sort Wongleecharoen Chalermchart
title Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
title_short Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
title_full Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
title_fullStr Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
title_full_unstemmed Elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
title_sort elemental dynamics in porewater of an acid sulfate paddy soil as affected by sodium bentonite and dolomite amendments: insights from field study
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description Rice productivity in acid sulfate soils are frequently limited due primarily to strong acidity, low phosphorus (P) availability and metal toxicity. A recent study has documented that the use of sodium bentonite (NaB), non-hazardous material uses in natural gas pipeline construction, could be a promising soil amendment for mitigating major concerns experiencing in acid sulfate soils. Here we examined the effects of NaB and dolomite (DL) on dynamics in dissolved contents of both nutrient and associated elements in an acid sulfate soil and rice yield from paddy field in natural gas pipeline Rights-of-Way. The results demonstrated that the NaB and DL utilization significantly alleviated soil acidity and metal (Al, Fe, and Mn) toxicity (α = 0.05). Both soil amendments also significantly improved readily available P. Nonetheless, the soil NaB incorporation did elevate soluble sodium and did plummet soluble K, Ca, and Mg. Therefore, appropriate ratios and amounts of the K, Ca, and Mg along with N fertilizers are indisputable needed to maintain the nutrient balance when applying NaB as a soil amendment. Our finding implies that combined use of NaB and DL are suggested to soil amendment and could alleviate nutrient imbalance as compared to the sole NaB utilization.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/27/e3sconf_icesd2020_02003.pdf
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AT wisawapipatworachart elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT ketrotdaojarus elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT chittamartnatthapol elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT aramraksurachet elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT chittanukulkittipon elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT sattapunrachit elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
AT tawornprueksaowanuch elementaldynamicsinporewaterofanacidsulfatepaddysoilasaffectedbysodiumbentoniteanddolomiteamendmentsinsightsfromfieldstudy
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