Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin

Mixtures of imazapyr and imazapic herbicides are used to control weedy rice problem in Malaysian rice cultivation area. These two herbicides share the same characteristics which are high mobility, phyto-toxicity and persistency in soil, thus could pose problems to the environment and human health. S...

Full description

Saved in:
Bibliographic Details
Main Author: Mohamad Shaifuddin, Siti Norashikin
Format: Book Section
Language:English
Published: Institute of Graduate Studies, UiTM 2018
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/21933/1/ABS_SITI%20NORASHIKIN%20MOHAMAD%20SHAIFUDDIN%20TDRA%20VOL%2014%20IGS%2018.pdf
http://ir.uitm.edu.my/id/eprint/21933/
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Universiti Teknologi Mara
Language: English
id my.uitm.ir.21933
record_format eprints
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Soils. Soil science. Including soil surveys, soil chemistry, soil structure, soil-plant relationships
Soil conservation and protection
spellingShingle Soils. Soil science. Including soil surveys, soil chemistry, soil structure, soil-plant relationships
Soil conservation and protection
Mohamad Shaifuddin, Siti Norashikin
Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
description Mixtures of imazapyr and imazapic herbicides are used to control weedy rice problem in Malaysian rice cultivation area. These two herbicides share the same characteristics which are high mobility, phyto-toxicity and persistency in soil, thus could pose problems to the environment and human health. Since there is limited information regarding the concentration and behaviour of imazapyr and imazapic herbicides in Malaysian paddy soil and water, this study was conducted: (i) to develop and optimize the extraction and detection method of imazapyr and imazapic in water, soil and fish tissue samples using HPLC-UV; (ii) to determine the concentration and distribution pattern of these herbicides for 120 days in paddy soil and water, and estimate their leaching potential capacity using GUS index; (iii) to evaluate their adsorption and desorption capability in soils; (iv) to evaluate their abiotic degradation in water and soil; and (v) to examine their level in Anabas testudineus, and estimate their potential health risk amongst farmers. Several extraction techniques including SPE, SLE and LLE were tested to extract imazapyr and imazapic in spiked water, soil and fish tissue samples. The extracts were then quantified using the optimized HPLC-UV. Collections of samples were carried out at Sawah Sempadan, Tanjung Karang, Selangor. Surface water and soil were sampled for 120 days, whereas A. testudineus were sampled just after rice harvesting period together with public survey. Adsorption-desorption and abiotic degradation of imazapyr and imazapic were investigated under controlled laboratory conditions using the standard protocols by USEPA. Results showed that SPE technique was able to successfully extract imazapyr and imazapic from spiked water and fish tissue, whereas SLE technique was suitable for fortified soil samples with the recoveries ranging from 80% to 130%. These methods were then used to extract and determine the level of imazapyr and imazapic in the subsequent studies. Analysis of water samples showed that there were no traces of imazapyr and imazapic residues after 120 days from their single application. However, their leftovers were still detected at three different soil depths with half-lives between 24 to 186 days. The GUS index showed that imazapyr and imazapic are leacher herbicides (>2.8), with capability to be mobile and leach further into deep soil. Adsorption-desorption study proved that imazapyr and imazapic were strongly adsorbed into soil containing higher clay, CEC and organic content (p<0.05). However, these two herbicides were also shown to have reversible sorption thus promoting abiotic degradation processes. Degradation studies of imazapyr and imazapic in aqueous solutions and soil found that hydrolytic activity for both herbicides was low, while photolytic results showed that these herbicides degraded faster in solutions compared to soil (>90%). For the potential health studies, hazard index (HI) and hazard quotient (HQ) was less than 1, indicating that ingestion of imidazolinone-contaminated A. testudineus in six months period poses a low potential health risk. In conclusion, sorption and photodegradation of imazapyr and imazapic were greatly affecting the behaviour of these herbicides in water and soil. Hence, the results from this study can provide a fundamental scientific evidence and information regarding the concentration and behaviour of imazapyr and imazapic herbicides in Malaysian paddy soil and water. The optimized extraction and detection methods obtained in this study can be used by other researchers and regulatory agencies for routine monitoring of these herbicides in the environment.
format Book Section
author Mohamad Shaifuddin, Siti Norashikin
author_facet Mohamad Shaifuddin, Siti Norashikin
author_sort Mohamad Shaifuddin, Siti Norashikin
title Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
title_short Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
title_full Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
title_fullStr Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
title_full_unstemmed Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin
title_sort environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / siti norashikin mohamad shaifuddin
publisher Institute of Graduate Studies, UiTM
publishDate 2018
url http://ir.uitm.edu.my/id/eprint/21933/1/ABS_SITI%20NORASHIKIN%20MOHAMAD%20SHAIFUDDIN%20TDRA%20VOL%2014%20IGS%2018.pdf
http://ir.uitm.edu.my/id/eprint/21933/
_version_ 1685649535779471360
spelling my.uitm.ir.219332019-01-11T07:10:38Z http://ir.uitm.edu.my/id/eprint/21933/ Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin Mohamad Shaifuddin, Siti Norashikin Soils. Soil science. Including soil surveys, soil chemistry, soil structure, soil-plant relationships Soil conservation and protection Mixtures of imazapyr and imazapic herbicides are used to control weedy rice problem in Malaysian rice cultivation area. These two herbicides share the same characteristics which are high mobility, phyto-toxicity and persistency in soil, thus could pose problems to the environment and human health. Since there is limited information regarding the concentration and behaviour of imazapyr and imazapic herbicides in Malaysian paddy soil and water, this study was conducted: (i) to develop and optimize the extraction and detection method of imazapyr and imazapic in water, soil and fish tissue samples using HPLC-UV; (ii) to determine the concentration and distribution pattern of these herbicides for 120 days in paddy soil and water, and estimate their leaching potential capacity using GUS index; (iii) to evaluate their adsorption and desorption capability in soils; (iv) to evaluate their abiotic degradation in water and soil; and (v) to examine their level in Anabas testudineus, and estimate their potential health risk amongst farmers. Several extraction techniques including SPE, SLE and LLE were tested to extract imazapyr and imazapic in spiked water, soil and fish tissue samples. The extracts were then quantified using the optimized HPLC-UV. Collections of samples were carried out at Sawah Sempadan, Tanjung Karang, Selangor. Surface water and soil were sampled for 120 days, whereas A. testudineus were sampled just after rice harvesting period together with public survey. Adsorption-desorption and abiotic degradation of imazapyr and imazapic were investigated under controlled laboratory conditions using the standard protocols by USEPA. Results showed that SPE technique was able to successfully extract imazapyr and imazapic from spiked water and fish tissue, whereas SLE technique was suitable for fortified soil samples with the recoveries ranging from 80% to 130%. These methods were then used to extract and determine the level of imazapyr and imazapic in the subsequent studies. Analysis of water samples showed that there were no traces of imazapyr and imazapic residues after 120 days from their single application. However, their leftovers were still detected at three different soil depths with half-lives between 24 to 186 days. The GUS index showed that imazapyr and imazapic are leacher herbicides (>2.8), with capability to be mobile and leach further into deep soil. Adsorption-desorption study proved that imazapyr and imazapic were strongly adsorbed into soil containing higher clay, CEC and organic content (p<0.05). However, these two herbicides were also shown to have reversible sorption thus promoting abiotic degradation processes. Degradation studies of imazapyr and imazapic in aqueous solutions and soil found that hydrolytic activity for both herbicides was low, while photolytic results showed that these herbicides degraded faster in solutions compared to soil (>90%). For the potential health studies, hazard index (HI) and hazard quotient (HQ) was less than 1, indicating that ingestion of imidazolinone-contaminated A. testudineus in six months period poses a low potential health risk. In conclusion, sorption and photodegradation of imazapyr and imazapic were greatly affecting the behaviour of these herbicides in water and soil. Hence, the results from this study can provide a fundamental scientific evidence and information regarding the concentration and behaviour of imazapyr and imazapic herbicides in Malaysian paddy soil and water. The optimized extraction and detection methods obtained in this study can be used by other researchers and regulatory agencies for routine monitoring of these herbicides in the environment. Institute of Graduate Studies, UiTM 2018 Book Section PeerReviewed text en http://ir.uitm.edu.my/id/eprint/21933/1/ABS_SITI%20NORASHIKIN%20MOHAMAD%20SHAIFUDDIN%20TDRA%20VOL%2014%20IGS%2018.pdf Mohamad Shaifuddin, Siti Norashikin (2018) Environmental fate of imazapyr and imazapic herbicides in paddy soil and water and its potential health risk via anabas testudineus consumption / Siti Norashikin Mohamad Shaifuddin. In: The Doctoral Research Abstracts. IPSis Biannual Publication, 14 (14). Institute of Graduate Studies, UiTM, Shah Alam.