Integrated assessment of phytotoxicity, stress responses, and bioaccumulative mechanisms of the arsenic-contaminated agricultural runoff using a soilless cultivation system
The present study has been oriented to the integrated assessment of physical, chemical, and physicochemical characteristics of the agricultural runoff (AR). The physical growth vigor, physiological and morphological changes, oxidative stress biomarkers, enzymatic and non-enzymatic antioxidative resp...
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| Veröffentlicht in: | Process safety and environmental protection 2022-03, Vol.159, p.266-280 |
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| description | The present study has been oriented to the integrated assessment of physical, chemical, and physicochemical characteristics of the agricultural runoff (AR). The physical growth vigor, physiological and morphological changes, oxidative stress biomarkers, enzymatic and non-enzymatic antioxidative responses, elemental profiles, and bioaccumulative pathway of okra plant in relation to the changing concentrations of AR-induced irrigation were evaluated using a soilless cultivation system. Lindane, endosulfan, heptachlor epoxide, methoxychlor, hexachlorobenzene, chlordane, aldrin, heptachlor, dichlorodiphenyl-trichloroethane, and dieldrin were predominantly detected within the concentration range of 0.0025–0.069 µg/L, while arsenic, boron, copper, iron, manganese, and zinc were found at 0.63–25.50 µg/L. Concentration-dependent alterations of macroscopic symptoms, chlorophylls, morphological structures, reactive oxygen species, lipid peroxidation, protein oxidation, antioxidant enzymes, total phenolic content, and radical scavenging potential were recorded in the AR-irrigated groups. The accumulation of heavy metals were found in a descending order of: root>shoot>leaf>fruit. Specifically, arsenic was identified as the critical polluting species, as evidenced by the drastic interference in the uptake and metabolism of phosphate, calcium, potassium, and magnesium. The tolerable threshold concentration of 60% AR could be applied as a renewable source of irrigation water, verified by the negligible phytotoxic implications in the plant model.
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| doi_str_mv | 10.1016/j.psep.2021.12.057 |
| format | Article |
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[Display omitted]</description><identifier>ISSN: 0957-5820</identifier><identifier>EISSN: 1744-3598</identifier><identifier>DOI: 10.1016/j.psep.2021.12.057</identifier><language>eng</language><publisher>Rugby: Elsevier Ltd</publisher><subject>Agricultural runoff ; Aldrin ; Antioxidants ; Arsenic ; Bioaccumulation ; Biomarkers ; Boron ; Calcium metabolism ; Calcium phosphates ; Chlordane ; Chlorophyll ; Cultivation ; Dieldrin ; Endosulfan ; Heavy metals ; Heptachlor ; Heptachlor epoxide ; Hexachlorobenzene ; Insecticides ; Irrigation ; Irrigation water ; Lindane ; Lipid peroxidation ; Lipids ; Magnesium ; Manganese ; Methoxychlor ; Morphology ; Okra ; Oxidation ; Oxidative stress ; Peroxidation ; Phenolic compounds ; Phenols ; Phytotoxicity ; Reactive oxygen species ; Runoff ; Scavenging ; Soilless cultivation ; Soilless farming ; Trichloroethane ; Wastewater irrigation</subject><ispartof>Process safety and environmental protection, 2022-03, Vol.159, p.266-280</ispartof><rights>2021 Institution of Chemical Engineers</rights><rights>Copyright Elsevier Science Ltd. Mar 2022</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c328t-1e74046116e0322cd24961ab7237470aeaf5e7384327477729e4251440a5737f3</citedby><cites>FETCH-LOGICAL-c328t-1e74046116e0322cd24961ab7237470aeaf5e7384327477729e4251440a5737f3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://www.sciencedirect.com/science/article/pii/S0957582021007308$$EHTML$$P50$$Gelsevier$$H</linktohtml><link.rule.ids>314,776,780,3537,27901,27902,65306</link.rule.ids></links><search><creatorcontrib>Chow, Yuh Nien</creatorcontrib><creatorcontrib>Foo, Keng Yuen</creatorcontrib><title>Integrated assessment of phytotoxicity, stress responses, and bioaccumulative mechanisms of the arsenic-contaminated agricultural runoff using a soilless cultivation system</title><title>Process safety and environmental protection</title><description>The present study has been oriented to the integrated assessment of physical, chemical, and physicochemical characteristics of the agricultural runoff (AR). The physical growth vigor, physiological and morphological changes, oxidative stress biomarkers, enzymatic and non-enzymatic antioxidative responses, elemental profiles, and bioaccumulative pathway of okra plant in relation to the changing concentrations of AR-induced irrigation were evaluated using a soilless cultivation system. Lindane, endosulfan, heptachlor epoxide, methoxychlor, hexachlorobenzene, chlordane, aldrin, heptachlor, dichlorodiphenyl-trichloroethane, and dieldrin were predominantly detected within the concentration range of 0.0025–0.069 µg/L, while arsenic, boron, copper, iron, manganese, and zinc were found at 0.63–25.50 µg/L. Concentration-dependent alterations of macroscopic symptoms, chlorophylls, morphological structures, reactive oxygen species, lipid peroxidation, protein oxidation, antioxidant enzymes, total phenolic content, and radical scavenging potential were recorded in the AR-irrigated groups. The accumulation of heavy metals were found in a descending order of: root>shoot>leaf>fruit. Specifically, arsenic was identified as the critical polluting species, as evidenced by the drastic interference in the uptake and metabolism of phosphate, calcium, potassium, and magnesium. The tolerable threshold concentration of 60% AR could be applied as a renewable source of irrigation water, verified by the negligible phytotoxic implications in the plant model.
[Display omitted]</description><subject>Agricultural runoff</subject><subject>Aldrin</subject><subject>Antioxidants</subject><subject>Arsenic</subject><subject>Bioaccumulation</subject><subject>Biomarkers</subject><subject>Boron</subject><subject>Calcium metabolism</subject><subject>Calcium phosphates</subject><subject>Chlordane</subject><subject>Chlorophyll</subject><subject>Cultivation</subject><subject>Dieldrin</subject><subject>Endosulfan</subject><subject>Heavy metals</subject><subject>Heptachlor</subject><subject>Heptachlor epoxide</subject><subject>Hexachlorobenzene</subject><subject>Insecticides</subject><subject>Irrigation</subject><subject>Irrigation water</subject><subject>Lindane</subject><subject>Lipid peroxidation</subject><subject>Lipids</subject><subject>Magnesium</subject><subject>Manganese</subject><subject>Methoxychlor</subject><subject>Morphology</subject><subject>Okra</subject><subject>Oxidation</subject><subject>Oxidative stress</subject><subject>Peroxidation</subject><subject>Phenolic compounds</subject><subject>Phenols</subject><subject>Phytotoxicity</subject><subject>Reactive oxygen species</subject><subject>Runoff</subject><subject>Scavenging</subject><subject>Soilless cultivation</subject><subject>Soilless farming</subject><subject>Trichloroethane</subject><subject>Wastewater irrigation</subject><issn>0957-5820</issn><issn>1744-3598</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><recordid>eNp9kc-L1DAUx4MoOK7-A54CXrc1eU2bDniRxdWFhb2s55BNX2cytEnNSwfnf_KPNGU8e3nhke-PBx_GPkpRSyG7z6d6IVxqECBrCbVo9Su2k1qpqmn3_Wu2E_tWV20P4i17R3QSQkjQcsf-PISMh2QzDtwSIdGMIfM48uV4yTHH3975fLnllFP55GUsMRTdLbdh4C8-WufWeZ1s9mfkM7qjDZ5m2iLyEblNhMG7ysWQ7ezDtemQvFunvCY78bSGOI58JR8O3HKKfpq2qk3gzyU3Bk4Xyji_Z29GOxF--PfesJ_3357vflSPT98f7r4-Vq6BPlcStRKqk7JD0QC4AdS-k_ZFQ6OVFhbt2KJuetVA2bWGPSpopVLCtrrRY3PDPl1zlxR_rUjZnOKaQqk00KkeupIDRQVXlUuRKOFoluRnmy5GCrNRMSezUTEbFSPBFCrF9OVqwnL_2WMy5DwGh4NP6LIZov-f_S94LJpi</recordid><startdate>202203</startdate><enddate>202203</enddate><creator>Chow, Yuh Nien</creator><creator>Foo, Keng Yuen</creator><general>Elsevier Ltd</general><general>Elsevier Science Ltd</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7ST</scope><scope>7TB</scope><scope>7U7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>KR7</scope><scope>SOI</scope></search><sort><creationdate>202203</creationdate><title>Integrated assessment of phytotoxicity, stress responses, and bioaccumulative mechanisms of the arsenic-contaminated agricultural runoff using a soilless cultivation system</title><author>Chow, Yuh Nien ; Foo, Keng Yuen</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c328t-1e74046116e0322cd24961ab7237470aeaf5e7384327477729e4251440a5737f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Agricultural runoff</topic><topic>Aldrin</topic><topic>Antioxidants</topic><topic>Arsenic</topic><topic>Bioaccumulation</topic><topic>Biomarkers</topic><topic>Boron</topic><topic>Calcium metabolism</topic><topic>Calcium phosphates</topic><topic>Chlordane</topic><topic>Chlorophyll</topic><topic>Cultivation</topic><topic>Dieldrin</topic><topic>Endosulfan</topic><topic>Heavy metals</topic><topic>Heptachlor</topic><topic>Heptachlor epoxide</topic><topic>Hexachlorobenzene</topic><topic>Insecticides</topic><topic>Irrigation</topic><topic>Irrigation water</topic><topic>Lindane</topic><topic>Lipid peroxidation</topic><topic>Lipids</topic><topic>Magnesium</topic><topic>Manganese</topic><topic>Methoxychlor</topic><topic>Morphology</topic><topic>Okra</topic><topic>Oxidation</topic><topic>Oxidative stress</topic><topic>Peroxidation</topic><topic>Phenolic compounds</topic><topic>Phenols</topic><topic>Phytotoxicity</topic><topic>Reactive oxygen species</topic><topic>Runoff</topic><topic>Scavenging</topic><topic>Soilless cultivation</topic><topic>Soilless farming</topic><topic>Trichloroethane</topic><topic>Wastewater irrigation</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Chow, Yuh Nien</creatorcontrib><creatorcontrib>Foo, Keng Yuen</creatorcontrib><collection>CrossRef</collection><collection>Environment Abstracts</collection><collection>Mechanical & Transportation Engineering Abstracts</collection><collection>Toxicology Abstracts</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>Civil Engineering Abstracts</collection><collection>Environment Abstracts</collection><jtitle>Process safety and environmental protection</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Chow, Yuh Nien</au><au>Foo, Keng Yuen</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Integrated assessment of phytotoxicity, stress responses, and bioaccumulative mechanisms of the arsenic-contaminated agricultural runoff using a soilless cultivation system</atitle><jtitle>Process safety and environmental protection</jtitle><date>2022-03</date><risdate>2022</risdate><volume>159</volume><spage>266</spage><epage>280</epage><pages>266-280</pages><issn>0957-5820</issn><eissn>1744-3598</eissn><abstract>The present study has been oriented to the integrated assessment of physical, chemical, and physicochemical characteristics of the agricultural runoff (AR). The physical growth vigor, physiological and morphological changes, oxidative stress biomarkers, enzymatic and non-enzymatic antioxidative responses, elemental profiles, and bioaccumulative pathway of okra plant in relation to the changing concentrations of AR-induced irrigation were evaluated using a soilless cultivation system. Lindane, endosulfan, heptachlor epoxide, methoxychlor, hexachlorobenzene, chlordane, aldrin, heptachlor, dichlorodiphenyl-trichloroethane, and dieldrin were predominantly detected within the concentration range of 0.0025–0.069 µg/L, while arsenic, boron, copper, iron, manganese, and zinc were found at 0.63–25.50 µg/L. Concentration-dependent alterations of macroscopic symptoms, chlorophylls, morphological structures, reactive oxygen species, lipid peroxidation, protein oxidation, antioxidant enzymes, total phenolic content, and radical scavenging potential were recorded in the AR-irrigated groups. The accumulation of heavy metals were found in a descending order of: root>shoot>leaf>fruit. Specifically, arsenic was identified as the critical polluting species, as evidenced by the drastic interference in the uptake and metabolism of phosphate, calcium, potassium, and magnesium. The tolerable threshold concentration of 60% AR could be applied as a renewable source of irrigation water, verified by the negligible phytotoxic implications in the plant model.
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| subjects | Agricultural runoff Aldrin Antioxidants Arsenic Bioaccumulation Biomarkers Boron Calcium metabolism Calcium phosphates Chlordane Chlorophyll Cultivation Dieldrin Endosulfan Heavy metals Heptachlor Heptachlor epoxide Hexachlorobenzene Insecticides Irrigation Irrigation water Lindane Lipid peroxidation Lipids Magnesium Manganese Methoxychlor Morphology Okra Oxidation Oxidative stress Peroxidation Phenolic compounds Phenols Phytotoxicity Reactive oxygen species Runoff Scavenging Soilless cultivation Soilless farming Trichloroethane Wastewater irrigation |
| title | Integrated assessment of phytotoxicity, stress responses, and bioaccumulative mechanisms of the arsenic-contaminated agricultural runoff using a soilless cultivation system |
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