Assessment of phytoremediation potentials of Lantana camara in Pb impacted soil with organic waste additives

Alaribe, F.O.; Agamuthu, P.

doi:10.1016/j.ecoleng.2015.07.001

Cited by 57 publications

(16 citation statements)

References 35 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The degree of Pb reduction after 120 days was highest with Treatment A, whereby it reduced or removed 63% of Pb from the contaminated soil (18 mg/kg it reduce to 6.67 mg/kg), whereas Treatment B and control recorded 55.5% and 53% removal, respectively. The potential of Cordyline sp to remove the Pb metal in soil showed its ecological importance [8] and supported by another findings by Perumal [15] reported that the Cyperus rotundus and Ludwigea sp able to removed 60% of Cr from a contaminated soil without supplements of organic wastes. Treatment A shows an significant removal of Mn from the contaminated soil.…”

Section: E Uptake Modelling Of Heavy Metalsupporting

confidence: 64%

See 1 more Smart Citation

Potential of Cordyline sp Plant for Remediation of Metal-Leachate Contaminated Soil

Jayanth¹,

Emenike²,

Agamuthu³

et al. 2017

IJCEA

Self Cite

View full text Add to dashboard Cite

Abstract-Heavy metals are extremely persistent in the environment and cannot degrade through chemical process, hence the long term accumulation cause induce to the environment. Soil is one of the major sink to heavy metal contamination due human activities associated to the development of global economies. Metals from waste stream, especially landfill leachate impact the soil and there is need to develop remedial option for the environmental safety of soil core. Various plants have been used to remedy polluted soil, yet metal interaction with plant differ with respect to medium or source of metal pollution. Phytoremediation technology is an alternative and cheaper approach for remediation of metal contaminated soil. Plant-based remediation is one of the most significant sustainable techniques to cope with overwhelming consequences of pollutants. Therefore this study aimed to study the potential of Cordyline sp plant and Durianta variegated for the phytoremediation of heavy metals (Pb, As, Mn, Ni, and Cr) from the leachate contaminated soil. The results showed that Cordyline sp plants tends to accumulate high amounts of this metals compared to Durianta variegated and control. Cordyline sp was able to remove 63 % of Pb, 90 % of As, 78.8 % of Mn, 88.9 % of Ni and 75 % of Cr from the metal polluted soil. The removal of heavy metal from the contaminated soil was significantly higher compared to control at P > 0.05. The highest heavy metal removal rate constant was obtained for As and Ni at same rate of 0.018 mg/kg day -1 when Cordyline sp plants were used. Therefore we can conclude that, Cordyline sp have a potential to remediate heavy metal contaminated soil at a significant level.

show abstract

Section: E Uptake Modelling Of Heavy Metalsupporting

confidence: 64%

“…An effective phytoremediation occurs when the pollutants is within the root zone of the plant [6] and [7]. About 420 species from 45 plants have been were identified as hyper accumulators of heavy metals [8]. This study evaluated potential of two selected plants in towards uptake of heavy metals from leachate contaminated soil.…”

Section: Introductionmentioning

confidence: 99%

Potential of Cordyline sp Plant for Remediation of Metal-Leachate Contaminated Soil

Jayanth¹,

Emenike²,

Agamuthu³

et al. 2017

IJCEA

Self Cite

View full text Add to dashboard Cite

show abstract

“…The transfer factor is an indicator of the movement of heavy metals from the root to the upper organs. In the calculation of this factor, the proportion of metal concentrations in the shoot of plants is proportional to the root metal concentration, and it was used to give an idea about the ability to transfer heavy metal in the plant (Alaribe and Agamuthu, 2015;Badr et al, 2012, Padmavathiamma andLi, 2007).…”

Section: Transfer Factor (Tf)mentioning

confidence: 99%

Heavy Metal Accumulations in Some Terrestrial Endemic and Non-endemic Plants in Mine Sites (Elazığ/Turkey)

Kiliç

Ortakçi

2021

Uluslararası Tarım Ve Yaban Hayatı Bilimleri Dergisi

View full text Add to dashboard Cite

The aim of our study is to determine the hyperaccumulatory properties by examining the heavy metal accumulation (Co, Ni, Fe) in endemic Anchusa leptophlla subsp. tomentosa, Alyssum pateri subsp. pateri, Glaucium acutidentatum and non endemic Erysimum uncinatifolium species collected from a copper mining area in Elazığ Maden district. All species collected are hyperaccumulator according to their Bioconcentration Factor (BCF) values of Co element. According to NiBCF and FeBCF values, A. leptophlla and E. uncinatifolium species were found to be hyperacumulators. According to Transfer Factor (TF) value, it is determined that Co element can be transported upper organs in A. leptophlla, A. pateri species, whereas Ni and Fe elements in A. leptophlla, A. pateri, E. uncinatifolium species. Among the species examined, the CoEF values for A. leptophlla and NiEF values (EF>1) in all species are found to be higher than 1 according to the Enrichment Factor (EF). It can be said that the Ni accumulation capacities of all species are higher. In the study, soils samples taken from sampling area according to the Geoaccumulation index (Igeo) were found to be moderately contaminated in by Co and not so polluted by Fe. Elazığ (Maden) Maden Sahasındaki Bazı Karasal Endemik ve Endemik OlmayanBitkilerde Ağır Metal (Co, Ni, Fe) Biyoakümülasyonları Anahtar kelimeler: Hiperakümülatör, fitoremediasyon, madencilik, ağir metal, endemik bitkiler, Elaziğ Maden Özet. Çalışmamızın amacı, Elazığ Maden ilçesinde bir bakır madeni sahasından toplanan endemik Anchusa leptophlla subsp. tomentosa, Alyssum pateri subsp. pateri, Glaucium acutidentatum ve endemik olmayan Erysimum uncinatifolium türlerindeki ağır metal birikimini (Co, Ni, Fe) inceleyerek hiperakümülasyon özelliklerini belirlemektir. Toplanan tüm türler, Co elementinin Biyokonsantrasyon Faktörü (BCF) değerlerine göre hiperakümülatördür. NiBCF ve FeBCF değerlerine göre A. leptophlla ve E. uncinatifolium türlerinin hiperakümülatör olduğu görülmüştür. Transfer Faktör (TF) değerine göre A. leptophlla, A. pateri türlerinde Co elementinin üst organlara, A. leptophlla, A. pateri, E. uncinatifolium türlerinde Ni ve Fe elementlerinin üst organlara taşınabildiği belirlenmiştir. Araştırılan türler arasında zenginleştirme faktörü (EF) değerine göre A. leptophlla'daki CoEF ve tüm türlerde Ni EF değeri (EF> 1) 1'den yüksek bulunmuştur. Tüm türlerin Ni biriktirme kapasitelerinin daha yüksek olduğu söylenebilir. Bu çalışmada, Jeobirikim İndeksi (Igeo)'ne göre örnekleme alanından alınan toprak örneklerinin Co tarafından orta derecede kirlendiği ve Fe ile çok fazla kirlenmediği bulunmuştur.

show abstract

“…Lead (Pb) is considered as the second most dangerous heavy metal after arsenic and it is among the biggest pollutants in water and terrestrial ecosystems generated from a variety of activities including household and industrial works (Ebrahimpour & Mushrifah 2008;Tangahu et al 2011;Alaribe & Agamuthu 2015). In a certain concentration, Pb is toxic to plants, animals, and microorganisms.…”

Section: Introductionmentioning

confidence: 99%

“…Each plant may have a tolerant level and pattern of different adaptations to heavy metal exposure conditions. There is still little information related to tolerant level of Jabon to lead, even though many other species have been extensively evaluated such as sunflower (Niu et al 2010;Kim et al 2009), canola, mustard and vetiver grass (Kim et al 2009), Lantana camara (Alaribe & Agamuthu 2015) and Pinus radiata (Javris & Leung 2002). Therefore, the effort to learn about the tolerance and remediation capability of Jabon to heavy metal Pb is necessary and important.…”

Section: Introductionmentioning

confidence: 99%

JABON (Anthocephalus cadamba Roxb) POTENCY FOR REMEDIATING LEAD (Pb) TOXICITY UNDER NUTRIENT CULTURE CONDITION

Setyaningsih

Setiadi²,

Budi³

et al. 2018

BIOTROPIA

View full text Add to dashboard Cite

Information on metal adaptation of plants is necessary to understand the mechanism of heavy metal, including lead (Pb), remediation mediated by forest plants in contaminated land. This study aimed to find out the adaptation mechanism of jabon (Anthocephalus cadamba Roxb) seedlings to excessive lead level based on the tolerance index of growth performance and lead transport to plant tissue. The seedlings were exposed to lead (Pb(NO ) ) with the 3 2 concentrations of 0, 0.5, 1, 1.5, 5 and 10 mM in nutrient culture for 15 days. The result showed that the tolerance index (TI) of the seedlings was significantly decreased by Pb exposure up to 1.5 mM, but the TI values were more than 75%. All seedlings died at Pb concentration of 5 mM and up. Pb accumulated in all parts of the seedlings, with the highest concentration found in the leaves (735.9 ppm) under Pb concentration of 0.5 mM. The Pb was found to be transported to the top portion of the seedlings indicated by Transport Factor (TF) that was more than 1. The results suggest that jabon can adapt to excessive Pb exposure up to 1.5 mM and has the potential as a remediator plant.

show abstract

Assessment of phytoremediation potentials of Lantana camara in Pb impacted soil with organic waste additives

Cited by 57 publications

References 35 publications

Potential of Cordyline sp Plant for Remediation of Metal-Leachate Contaminated Soil

Potential of Cordyline sp Plant for Remediation of Metal-Leachate Contaminated Soil

Heavy Metal Accumulations in Some Terrestrial Endemic and Non-endemic Plants in Mine Sites (Elazığ/Turkey)

JABON (Anthocephalus cadamba Roxb) POTENCY FOR REMEDIATING LEAD (Pb) TOXICITY UNDER NUTRIENT CULTURE CONDITION

Contact Info

Product

Resources

About