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  • Hoang_CHEM_Rhizorem_preprint

    Rights statement: This is the author’s version of a work that was accepted for publication in Chemosphere. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Chemosphere, ?, ?, 2021 DOI: 10.1016/j.chemosphere.2021.130135

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Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species

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Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species. / Hoang, S.A.; Lamb, Dane; Seshadri, B. et al.
In: Chemosphere, Vol. 275, 130135, 01.07.2021.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Hoang, SA, Lamb, D, Seshadri, B, Sarkar, B, Cheng, Y, Wang, L & Bolan, NS 2021, 'Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species', Chemosphere, vol. 275, 130135. https://doi.org/10.1016/j.chemosphere.2021.130135

APA

Hoang, S. A., Lamb, D., Seshadri, B., Sarkar, B., Cheng, Y., Wang, L., & Bolan, N. S. (2021). Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species. Chemosphere, 275, Article 130135. https://doi.org/10.1016/j.chemosphere.2021.130135

Vancouver

Hoang SA, Lamb D, Seshadri B, Sarkar B, Cheng Y, Wang L et al. Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species. Chemosphere. 2021 Jul 1;275:130135. Epub 2021 Feb 26. doi: 10.1016/j.chemosphere.2021.130135

Author

Hoang, S.A. ; Lamb, Dane ; Seshadri, B. et al. / Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species. In: Chemosphere. 2021 ; Vol. 275.

Bibtex

@article{1b1070de3c4342f9833cb5569fc600c9,
title = "Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species",
abstract = "Rhizoremediation potential of different wild plant species for total (aliphatic) petroleum hydrocarbon (TPH)-contaminated soils was investigated. Three-week-old seedlings of Acacia inaequilatera, Acacia pyrifolia, Acacia stellaticeps, Banksia seminuda, Chloris truncata, Hakea prostrata, Hardenbergia violacea, and Triodia wiseana were transplanted in a soil contaminated with diesel and engine oil as TPH at pollution levels of 4,370 (TPH1) and 7,500 (TPH2) mg kg−1, and an uncontaminated control (TPH0). After 150 days, the presence of TPH negatively affected the plant growth, but the growth inhibition effect varied between the plant species. Plant growth and associated root biomass influenced the activity of rhizo-microbiome. The presence of B. seminuda, C. truncata, and H. prostrata significantly increased the TPH removal rate (up to 30% compared to the unplanted treatment) due to the stimulation of rhizosphere microorganisms. No significant difference was observed between TPH1 and TPH2 regarding the plant tolerance and rhizoremediation potentials of the three plant species. The presence of TPH stimulated cluster root formation in B. seminuda and H. prostrata which was associated with enhanced TPH remediation of these two members of Proteaceae family. These results indicated that B. seminuda, C. truncata, and H. prostrata wild plant species could be suitable candidates for the rhizoremediation of TPH-contaminated soil. ",
keywords = "Petroleum hydrocarbon remediation, Proteaceae plants, Rhizosphere, Soil dehydrogenase activity, Soil respiration, Wild plant species, Aliphatic hydrocarbons, Gasoline, Remediation, Soil pollution control, Soils, Cluster root formation, Contaminated soils, Growth inhibition, Petroleum hydrocarbons, Pollution level, Rhizoremediation, Rhizosphere microorganisms, Soil microbial activities, Soil pollution, Acacia, Banksia seminuda, Chloris truncata, Hakea prostrata, Hardenbergia violacea, Proteaceae, Triodia, Wiseana",
author = "S.A. Hoang and Dane Lamb and B. Seshadri and B. Sarkar and Y. Cheng and L. Wang and N.S. Bolan",
note = "This is the author{\textquoteright}s version of a work that was accepted for publication in Chemosphere. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Chemosphere, ?, ?, 2021 DOI: 10.1016/j.chemosphere.2021.130135",
year = "2021",
month = jul,
day = "1",
doi = "10.1016/j.chemosphere.2021.130135",
language = "English",
volume = "275",
journal = "Chemosphere",
issn = "0045-6535",
publisher = "NLM (Medline)",

}

RIS

TY - JOUR

T1 - Petroleum hydrocarbon rhizoremediation and soil microbial activity improvement via cluster root formation by wild proteaceae plant species

AU - Hoang, S.A.

AU - Lamb, Dane

AU - Seshadri, B.

AU - Sarkar, B.

AU - Cheng, Y.

AU - Wang, L.

AU - Bolan, N.S.

N1 - This is the author’s version of a work that was accepted for publication in Chemosphere. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Chemosphere, ?, ?, 2021 DOI: 10.1016/j.chemosphere.2021.130135

PY - 2021/7/1

Y1 - 2021/7/1

N2 - Rhizoremediation potential of different wild plant species for total (aliphatic) petroleum hydrocarbon (TPH)-contaminated soils was investigated. Three-week-old seedlings of Acacia inaequilatera, Acacia pyrifolia, Acacia stellaticeps, Banksia seminuda, Chloris truncata, Hakea prostrata, Hardenbergia violacea, and Triodia wiseana were transplanted in a soil contaminated with diesel and engine oil as TPH at pollution levels of 4,370 (TPH1) and 7,500 (TPH2) mg kg−1, and an uncontaminated control (TPH0). After 150 days, the presence of TPH negatively affected the plant growth, but the growth inhibition effect varied between the plant species. Plant growth and associated root biomass influenced the activity of rhizo-microbiome. The presence of B. seminuda, C. truncata, and H. prostrata significantly increased the TPH removal rate (up to 30% compared to the unplanted treatment) due to the stimulation of rhizosphere microorganisms. No significant difference was observed between TPH1 and TPH2 regarding the plant tolerance and rhizoremediation potentials of the three plant species. The presence of TPH stimulated cluster root formation in B. seminuda and H. prostrata which was associated with enhanced TPH remediation of these two members of Proteaceae family. These results indicated that B. seminuda, C. truncata, and H. prostrata wild plant species could be suitable candidates for the rhizoremediation of TPH-contaminated soil.

AB - Rhizoremediation potential of different wild plant species for total (aliphatic) petroleum hydrocarbon (TPH)-contaminated soils was investigated. Three-week-old seedlings of Acacia inaequilatera, Acacia pyrifolia, Acacia stellaticeps, Banksia seminuda, Chloris truncata, Hakea prostrata, Hardenbergia violacea, and Triodia wiseana were transplanted in a soil contaminated with diesel and engine oil as TPH at pollution levels of 4,370 (TPH1) and 7,500 (TPH2) mg kg−1, and an uncontaminated control (TPH0). After 150 days, the presence of TPH negatively affected the plant growth, but the growth inhibition effect varied between the plant species. Plant growth and associated root biomass influenced the activity of rhizo-microbiome. The presence of B. seminuda, C. truncata, and H. prostrata significantly increased the TPH removal rate (up to 30% compared to the unplanted treatment) due to the stimulation of rhizosphere microorganisms. No significant difference was observed between TPH1 and TPH2 regarding the plant tolerance and rhizoremediation potentials of the three plant species. The presence of TPH stimulated cluster root formation in B. seminuda and H. prostrata which was associated with enhanced TPH remediation of these two members of Proteaceae family. These results indicated that B. seminuda, C. truncata, and H. prostrata wild plant species could be suitable candidates for the rhizoremediation of TPH-contaminated soil.

KW - Petroleum hydrocarbon remediation

KW - Proteaceae plants

KW - Rhizosphere

KW - Soil dehydrogenase activity

KW - Soil respiration

KW - Wild plant species

KW - Aliphatic hydrocarbons

KW - Gasoline

KW - Remediation

KW - Soil pollution control

KW - Soils

KW - Cluster root formation

KW - Contaminated soils

KW - Growth inhibition

KW - Petroleum hydrocarbons

KW - Pollution level

KW - Rhizoremediation

KW - Rhizosphere microorganisms

KW - Soil microbial activities

KW - Soil pollution

KW - Acacia

KW - Banksia seminuda

KW - Chloris truncata

KW - Hakea prostrata

KW - Hardenbergia violacea

KW - Proteaceae

KW - Triodia

KW - Wiseana

U2 - 10.1016/j.chemosphere.2021.130135

DO - 10.1016/j.chemosphere.2021.130135

M3 - Journal article

VL - 275

JO - Chemosphere

JF - Chemosphere

SN - 0045-6535

M1 - 130135

ER -