PoplarV1, Main, Exploration, bibRecord, 000211

Physiological Response of Populus balsamifera and Salix eriocephala to Salinity and Hydraulic Fracturing Wastewater: Potential for Phytoremediation Applications.

Identifieur interne : 000211 ( Main/Exploration ); précédent : 000210; suivant : 000212

Physiological Response of Populus balsamifera and Salix eriocephala to Salinity and Hydraulic Fracturing Wastewater: Potential for Phytoremediation Applications.

Auteurs : Michael A. Bilek [Canada] ; Raju Y. Soolanayakanahally [Canada] ; Robert D. Guy [Canada] ; Shawn D. Mansfield [Canada]

Source :

International journal of environmental research and public health [ 1660-4601 ] ; 2020.

RBID : pubmed:33092092

Abstract

Natural and anthropogenic soil degradation is resulting in a substantial rise in the extension of saline and industrially-polluted soils. Phytoremediation offers an environmentally and economically advantageous solution to soil contamination. Three growth trials were conducted to assess the stress tolerance of native Canadian genotypes of Populus balsamifera L., Salix eriocephala Michx., and one hybrid willow (S. discolor × S. dasyclados) to salinity and hydraulic fracturing (fracking) wastewater. Thirty-three genotypes were grown in NaCl or fracking wastewater solutions between 0 and 7 mS^-1 over a period of 3-4 months. P. balsamifera was observed to be relatively salt-intolerant compared to S. eriocephala and hybrid willow, which is likely caused by an inability of P. balsamifera to restrict Na⁺ translocation. Photosynthesis and transpiration decreased with salinity treatments, and severe reductions occurred with exposure to fracking solutions. Raffinose and stachyose content was tripled in leaf and root tissues. In willows, Na⁺ was primarily confined to root tissues, Cl^- accumulated up to 5% dry weight in leaves, and K⁺ was translocated from roots to leaves. Willow genotypes CAM-2 and STL-2 displayed the greatest maintenance of growth and resistance to necrotic symptoms in all trials, suggesting that these genotypes may be useful for practical application and further field study.

DOI: 10.3390/ijerph17207641
PubMed: 33092092
PubMed Central: PMC7589555

Affiliations:

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<front><div type="abstract" xml:lang="en">Natural and anthropogenic soil degradation is resulting in a substantial rise in the extension of saline and industrially-polluted soils. Phytoremediation offers an environmentally and economically advantageous solution to soil contamination. Three growth trials were conducted to assess the stress tolerance of native Canadian genotypes of <i>Populus balsamifera</i>
 L., <i>Salix eriocephala</i>
 Michx., and one hybrid willow (<i>S. discolor</i>
 × <i>S. dasyclados</i>
) to salinity and hydraulic fracturing (fracking) wastewater. Thirty-three genotypes were grown in NaCl or fracking wastewater solutions between 0 and 7 mS<sup>-1</sup>
 over a period of 3-4 months. <i>P. balsamifera</i>
 was observed to be relatively salt-intolerant compared to <i>S. eriocephala</i>
 and hybrid willow, which is likely caused by an inability of <i>P. balsamifera</i>
 to restrict Na<sup>+</sup>
 translocation. Photosynthesis and transpiration decreased with salinity treatments, and severe reductions occurred with exposure to fracking solutions. Raffinose and stachyose content was tripled in leaf and root tissues. In willows, Na<sup>+</sup>
 was primarily confined to root tissues, Cl<sup>-</sup>
 accumulated up to 5% dry weight in leaves, and K<sup>+</sup>
 was translocated from roots to leaves. Willow genotypes CAM-2 and STL-2 displayed the greatest maintenance of growth and resistance to necrotic symptoms in all trials, suggesting that these genotypes may be useful for practical application and further field study.</div>
</front>
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<ArticleTitle>Physiological Response of <i>Populus balsamifera</i>
 and <i>Salix eriocephala</i>
 to Salinity and Hydraulic Fracturing Wastewater: Potential for Phytoremediation Applications.</ArticleTitle>
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<Abstract><AbstractText>Natural and anthropogenic soil degradation is resulting in a substantial rise in the extension of saline and industrially-polluted soils. Phytoremediation offers an environmentally and economically advantageous solution to soil contamination. Three growth trials were conducted to assess the stress tolerance of native Canadian genotypes of <i>Populus balsamifera</i>
 L., <i>Salix eriocephala</i>
 Michx., and one hybrid willow (<i>S. discolor</i>
 × <i>S. dasyclados</i>
) to salinity and hydraulic fracturing (fracking) wastewater. Thirty-three genotypes were grown in NaCl or fracking wastewater solutions between 0 and 7 mS<sup>-1</sup>
 over a period of 3-4 months. <i>P. balsamifera</i>
 was observed to be relatively salt-intolerant compared to <i>S. eriocephala</i>
 and hybrid willow, which is likely caused by an inability of <i>P. balsamifera</i>
 to restrict Na<sup>+</sup>
 translocation. Photosynthesis and transpiration decreased with salinity treatments, and severe reductions occurred with exposure to fracking solutions. Raffinose and stachyose content was tripled in leaf and root tissues. In willows, Na<sup>+</sup>
 was primarily confined to root tissues, Cl<sup>-</sup>
 accumulated up to 5% dry weight in leaves, and K<sup>+</sup>
 was translocated from roots to leaves. Willow genotypes CAM-2 and STL-2 displayed the greatest maintenance of growth and resistance to necrotic symptoms in all trials, suggesting that these genotypes may be useful for practical application and further field study.</AbstractText>
</Abstract>
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<Keyword MajorTopicYN="N">gas exchange</Keyword>
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Physiological Response of Populus balsamifera and Salix eriocephala to Salinity and Hydraulic Fracturing Wastewater: Potential for Phytoremediation Applications.

Physiological Response of Populus balsamifera and Salix eriocephala to Salinity and Hydraulic Fracturing Wastewater: Potential for Phytoremediation Applications.

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