Phytotranslocation of Fe by biodiesel plant Jatropha curcas L. grown on iron rich wasteland soil

Ghavri, S V; Singh, Rana Pratap

doi:10.1590/s1677-04202010000400003

Cited by 12 publications

(10 citation statements)

References 41 publications

(44 reference statements)

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“…Similar studies were undertaken by Ghavri and Singh to expound the endurance of J. curcas L. to Fe and its phytotranslocation by the plant from a Fe‐rich marginal soil. A higher TF in wasteland soil than normal field soil as well as bio‐concentration factor and concentration index, CI, of 0.12–0.3 and 1.0–6.2, respectively, indicated the potential of J. curcas L. to remediate Fe‐contaminated soils.…”

Section: Potential Applications Of Jatropha For Phytoremediationmentioning

confidence: 67%

Utility of Jatropha for Phytoremediation of Heavy Metals and Emerging Contaminants of Water Resources: A Review

Kamusoko

Jingura

2017

CLEAN Soil Air Water

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Contamination of water resources by organic and inorganic pollutants emitted from industrial and non‐industrial activities is a global concern. The availability of toxic pollutants in high concentrations may be lethal to humans and the natural ecosystem. Established technologies that range from biological to chemical methods are available to ameliorate polluted environments. Traditional remediation technologies including physical, chemical, and thermal processes have several drawbacks. The key point is that the fate of most of their products is not known. Recently, phytoremediation has gathered momentum and has attracted the interest of many scientists. It has more advantages than traditional methods. Phytoremediation uses plant mechanisms to remodel contaminated environments. The technologies include phytoextraction, rhizofiltration, phytostabilization, phytodegradation, and phytovolatization. These approaches differ in purposes and goals, which can be remediation, detoxification, management of water movement, and leaching of contaminants, containment, and stabilization. Jatropha has now emerged as a plant that can be exploited for phytoremediation. The plant is able to survive on degraded land, often poor and fragile soils. Jatropha has the ability to facilitate sequestration, uptake, translocation, and detoxification of pollutants. The objective of this paper is to provide a review of the utility of Jatropha for phytoremediation of heavy metals and emerging contaminants. Phytoremediation is a new area undergoing extensive scientific research and development. Thus, amalgamation of trends in research and development is essential in order to shape and guide future work.

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Section: Potential Applications Of Jatropha For Phytoremediationmentioning

confidence: 67%

Utility of Jatropha for Phytoremediation of Heavy Metals and Emerging Contaminants of Water Resources: A Review

Kamusoko

Jingura

2017

CLEAN Soil Air Water

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“…This is could be attributed to the different physiological mechanisms and graft incompatibility in solanaceous plants (Kawaguchi et al 2008). In a similar study, the translocation factor of Fe for Jatropha curcas clones was higher in plants grown in the control soil than in the treatment plants (Ghavri and Singh 2010). Plants with both bioconcentration factor and translocation factor greater than 1 (TF and BCF [ 1) have the potential to be used in phytoextraction (Yoon et al 2006).…”

Section: Resultsmentioning

confidence: 95%

The phytoextraction potential of selected vegetable plants from soil amended with oil palm decanter cake

Embrandiri

Rupani

Shahadat

et al. 2017

Int J Recycl Org Waste Agricult

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Purpose The investigation of the phytoextraction potential of three vegetable plants grown in soils amended with decanter cake. Method Pot experiments were conducted to investigate the response of decanter cake composition on the phytoextraction of metals (Mg, Zn, Ni and Cu) by lady's finger, tomato and brinjal plants. The phytoextraction properties of these plants were determined by calculating the bioconcentration and translocation factors at different decanter cake amendments (10, 20 and 30%). Results Results indicated that in all three plants, there was no transfer of excess metal ions from the control soil or amendments to the fruit portion as evidenced by bioconcentration factor (BCF). In addition, substantial amount of the metals was found to be accumulated in the roots and shoots, which depicts the phytoextraction ability of these vegetable plants. The translocation factors (TF) of the three plants were found to be higher than control plants. The accumulation of metal ions did not exceed the permissible standards for vegetables thus rendering the fruits safe for human consumption. Conclusion On the basis of significant findings, lady's finger, tomato and brinjal plants were not found to be suitable for phytoextraction of metals as both BCF and TF were not greater than 1.

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“…A high translocation of iron (TI = 0.5-1.6) in jatropha grown in wastelands contaminated with iron were determined by Ghavri et al (2010). Lower Silesian Voivodeship by Kucharzewski & Nowak (2004) Researches have been carried out so far have not showed any essential lead functions in living organisms.…”

Section: Resultsmentioning

confidence: 99%

Lead and iron contents in parsley being cultivated in the area of Chrzanów geochemical anomaly

Mundała¹,

Szwalec²,

Kędzior³

et al. 2014

geol

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Phytotranslocation of Fe by biodiesel plant Jatropha curcas L. grown on iron rich wasteland soil

Cited by 12 publications

References 41 publications

Utility of Jatropha for Phytoremediation of Heavy Metals and Emerging Contaminants of Water Resources: A Review

Utility of Jatropha for Phytoremediation of Heavy Metals and Emerging Contaminants of Water Resources: A Review

The phytoextraction potential of selected vegetable plants from soil amended with oil palm decanter cake

Lead and iron contents in parsley being cultivated in the area of Chrzanów geochemical anomaly

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