Regression Models to Estimate Accumulation Capability of Six Metals by Two Macrophytes, Typha domingensis and Typha elephantina, Grown in an Arid Climate in the Mountainous Region of Taif, Saudi Arabia

Al-Sodany, Yassin M.; Saleh, Muneera A.; Arshad, Muhammad; Khalik, Kadry N. Abdel; Al-Bakre, Dhafer A.; Eid, Ebrahem M.

doi:10.3390/su14010001

Cited by 9 publications

(2 citation statements)

References 66 publications

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“…Prior to the experiment, the slightly alkaline (pH = 7.56) soil in the present investigation had an available Pb concentration of between 2.10 and 135.78 mg/kg at the control and 800 mg/kg Pb-treatment, respectively. Soil with a slightly alkaline pH may have reduced metal availability and solubility, as stated by Al-Sodany et al [49].…”

Section: Lead Levels In Soilmentioning

confidence: 93%

Phytoremediation Potential of Sorghum as a Bioenergy Crop in Pb-Amendment Soil

et al. 2023

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Lead contamination is among the most significant threats to the environment. The phytoextraction approach uses plants that can tolerate and accumulate metals in their tissues. Lately, biofuel plants have been recommended to be suitable for remediation and implementation of potentially toxic elements (PTEs)-polluted soil. This research assessed the Pb phytoremediation potential of three Sorghum bicolor [red cultivar (S1), white cultivar (S2) and shahla cultivar (S3)]. A pot experiment with five treatments (0, 100, 200, 400 and 800 mg Pb/kg soil) was carried out to assess the potential possibility of using these cultivars to remediate the soil of Pb. The potential possibility of using these plants to phytoremediate the soil of Pb was also assessed. The results emphasized that all the examined cultivars could attain growth to maturity in high Pb spiked soil. However, Pb influenced morphological and chlorophyll contents, especially in plants grown in soil amended with 800 mg/kg. The S1 cultivar had the most significant reduction in total chlorophyll with an average of 72%, followed by the S2 and S3 cultivars (65% and 58% reduction, respectively). The highest Pb content in root (110.0, 177.6 and 198.9 mg/kg, respectively) and in-plant shoot (83.9, 103.6 and 99.0 mg/kg, respectively) were detected by sorghum (S1, S2 and S3, respectively) grown in soil enriched by 800 mg/kg of Pb. From the calculated results of the contamination indices, contamination factor (CF), translocation factor (TF), plant uptake (UT) and tolerance index (TI), none of the investigated cultivars were considered Pb hyperaccumulators, but all were identified as particularly ideal for phytostabilization.

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Section: Lead Levels In Soilmentioning

confidence: 93%

Phytoremediation Potential of Sorghum as a Bioenergy Crop in Pb-Amendment Soil

et al. 2023

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“…The BF exemplifies a plant species' ability to collect elements from the soil, and thus the properties of phytoremediation (Al-Sodany et al 2022). It was reported that the amount of available metal in the soil influenced the transfer of heavy metals from soil to root (Li et al 2022).…”

Section: Zn Uptakementioning

confidence: 99%

Phytoaccumulation of Zinc and its associated impact on the growth performance and tolerance index of six bioenergy crop plants grown in Zn-contaminated soil

Osman

Quronfulah

El-Morsy

et al. 2022

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Crop plant remediation and reclamation of Zn-contaminated soils may pose a serious threat to food safety and thus human health. As a result, the current study was carried out to assess the capability of six bioenergy crop plants (BCP): Zea mays hybrid 360, Z. mays hybrid 123, Helianthus annus , Brassica juncea , Ricinus communis , and Simmondsia chinensis to remediate and restore Zn-contaminated soils. The investigated plants can tolerate 150 mg kg -1 Zn content of the soil, where they had tolerance index (TI) > 1 for all growth criteria, except the root dry weight (DW) of S. chinensis . Z. mays T123 and R. communis were the most susceptible plants, while B. juncea and S. chinensis were moderately tolerant, and H. annus was the most tolerant to high Zn-concentrations. Increasing the soil Zn-content led to a significant ( p < 0.05 ) increase in the concentration of Zn in the different tissues of the six BCP. The study BCP did not translocate Zn to their grains/seeds, and consequently they can be used safely in Zn phytoremediation from Zn-contaminated soils. The root and shoot Zn-content was negatively correlated with the TI of the root and shoot length and weight, while the TF of Zn from root to shoot was significantly proportional to the TI of the root length and weight. According to phytoremediation efficiency, the six study BCP were arranged as follow: B. juncea (31.9%) > Z. mays T123 (31.1%) > Z. mays T360 (27.6%) > H. annus (20.8%) > S. chinensis (20.3%) > R. communis (15.3%). All tested BCP had high Zn concentrations in their roots and shoots, a high Zn uptake potential, and a high biomass at 150–450 mg kg -1 Zn treatments, indicating that these plants are good candidates for the implementation of new strategy of cultivating BCP for phytoremediation in Zn-contaminated soils.

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