Exchange Characteristics of Lead, Zinc, and Cadmium in Selected Tropical Soils

Bolanle-Ojo, OT; Joshua, Abiodun D.; Agbo-Adediran, O.A.; Ogundana, Ademola S.; Aiyeyika, Kayode A.; Ojo, Adebisi P.; Ayodele, Olubunmi O.

doi:10.1155/2014/428569

Cited by 3 publications

(1 citation statement)

References 18 publications

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“…Soil absorbs heavy metals, such as Pb and Zn, better than minerals such as Ca. Plants need required minerals and particles to grow properly (Bolanle-Ojo, et al, 2014). The H+ ions release mineral cations into the soil through neutralization of negative soil particles.…”

Section: Heavy Metal Effect On Plants 13 Metal/cation Exchangementioning

confidence: 99%

Comparison of Arabidopsis thaliana Strains Exposed to Heavy Metals: Applied to Agriculture

2021

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This study reports the resistance to chromium sulfate (Cr2(SO4)3), nickel sulfate (NiSO4) and copper sulfate (CuSO4) in the Col-0, Lov-1, Ws-2 and Santa Clara strains of Arabidopsis thaliana. Previous reports have shown illness-associated with consuming crops grown in environments contaminated with such heavy metals (Shams, et al., 2018). Plant growth and biomass are also affected by considerable amounts of heavy metals in soil. To investigate the effects of heavy metals on Arabidopsis thaliana, plants were exposed to the heavy metals every two days, after 14 days of growth under normal conditions. Plant height was tallied daily and spectrophotometry was performed. BLAST was conducted to locate characteric similarities/differences between the genome sequences of the strains. Based on phenotypic observations, copper, nickel and chromium sulfate were found to have no significant effect on the plants, in comparison with the control. Interestingly, WS-2 exhibited excessive growth when exposed to nickel sulfate, reaching 125mm on Day 25. Only after exposing the plants to the heavy metals for the fourth time, plants exhibited wilting and leaf browning. However, statistical analysis [p result = 0.048 (<0.05)] indicated that only Col-0 was resistant to nickel sulfate. Significant differences in nucleotide strings of Col-0 include F-Box protein, Homeobox Leucine Zipper protein family (HD Zip), YABBY protein family, radical fringe and SAT gene. The elucidation of a heavy metal-resistant gene in Arabidopsis thaliana could potentially lead to genetic engineering of genes to cultivate heavy metal resistant plants that are safe for human and animal ingestion.

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Section: Heavy Metal Effect On Plants 13 Metal/cation Exchangementioning

confidence: 99%

Comparison of Arabidopsis thaliana Strains Exposed to Heavy Metals: Applied to Agriculture

2021

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Study on the performance of carbonate-mineralized bacteria combined with eggshell for immobilizing Pb and Cd in water and soil

Wei

Yashir

et al. 2021

Environ Sci Pollut Res

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Microbially induced carbonate precipitation (MICP) is an advanced bioremediation approach to remediate heavy metals (HMs) contaminated water and soil. In this study, metal tolerant urease-producing bacterial isolates, namely UR1, UR16, UR20 and UR21, were selected based on their urease activity. The e ciency of these isolates in water for Pb and Cd immobilization was explored. Our results revealed that UR21 had the highest removal rates of Pb (81.9%) and Cd (65.0%) in solution within 72 h through MICP. The scanning electron microscopy-energy dispersive x-ray and x-ray diffraction analysis con rmed the structure and the existence of PbCO 3 and CdCO 3 crystals in the precipitates. In addition, the strain UR21, in combination with urea/eggshell waste (EGS) or both, was further employed to investigate the effect of MICP on soil enzymatic activity, chemical fractions and bioavailability of Pb and Cd. The outcomes indicated that the applied treatments reduced the proportion of soluble-exchangeable Pb and Cd, resulted an increment in carbonated bound Pb and Cd in the soil. The DTPA extractable Pb and Cd was reduced by 29.2% and 25.2% with the treatment of UR21 + urea + EGS as compared to the control. Besides, the application of UR21 and EGS signi cantly increased the soil pH, cation exchange capacity, and enzyme activities. Our ndings may provide a novel perceptive for an eco-friendly and sustainable approach to remediate heavy metal contaminated environment through a combination of metal-resistant ureolytic bacterial strain and EGS.

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Impacts of salinity on the dynamics of fine particles and their associated metals during stormwater management

Behbahani

Ryan

McKenzie

2021

Science of The Total Environment

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Exchange Characteristics of Lead, Zinc, and Cadmium in Selected Tropical Soils

Cited by 3 publications

References 18 publications

Comparison of Arabidopsis thaliana Strains Exposed to Heavy Metals: Applied to Agriculture

Comparison of Arabidopsis thaliana Strains Exposed to Heavy Metals: Applied to Agriculture

Study on the performance of carbonate-mineralized bacteria combined with eggshell for immobilizing Pb and Cd in water and soil

Impacts of salinity on the dynamics of fine particles and their associated metals during stormwater management

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