Adsorption of Cadmium and Zinc onto Micaceous Minerals: Effect of Siderophore Desferrioxamine B

Hamidpour, Mohsen; Karamooz, Maliheh; Akhgar, Abdolreza; Tajabadipour, A.; Furrer, Gerhard

doi:10.1016/s1002-0160(17)60384-9

Cited by 15 publications

(5 citation statements)

References 23 publications

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“…According to the characteristic functional groups, siderophores have been classified as catecholate, hydroxamate, carboxylate, and mixed types, of which hydroxamate being the most common type and more capable of chelating Fe ions [ 34 , 35 ]. All 7 strains produced hydroxamate siderophore, which was reported to can be used for metal binding because of its preferential affinity for Cd ions as compared with Fe ions [ 14 , 36 ]. Some hydroxamate siderophores can effectively leached out Fe–Mn oxide state, organic matter bound state, and residual state Cd, and activated Cd with poor bioavailability in the contaminated soil [ 15 ].…”

Section: Discussionmentioning

confidence: 99%

Isolation of cadmium-resistance and siderophore-producing endophytic bacteria and their potential use for soil cadmium remediation

Wei

Chen

et al. 2023

Heliyon

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Section: Discussionmentioning

confidence: 99%

Isolation of cadmium-resistance and siderophore-producing endophytic bacteria and their potential use for soil cadmium remediation

Wei

Chen

et al. 2023

Heliyon

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“…Beside pH reduction, exudation of chelating agents such as siderophore and low molecular weight organic acid anions is suggested to be related to the micronutrient-solubilizing capability of PGPR (Sha gh et al 2019b; Asadollahzadeh et al 2019). The microbial siderophores can form stable complexes with Zn and other micronutrients and increase the solubility of metals in soils (Hamidpour et al 2019;Asadollahzadeh et al 2019).…”

Section: Discussionmentioning

confidence: 99%

Zinc-solubilizing Pseudomonas strains accelerate the release of zinc from tire waste powder and improve maize growth and zinc nutrition

Nasirzadeh

Hamidpour

Abbaszadeh‐Dahaji

et al. 2022

Preprint

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Car tires contain considerable amounts of zinc (Zn), hence, tire waste materials can be a potential source of Zn for plants. The present study was conducted to investigate the potential of Zn-solubilizing Pseudomonas strains to release Zn from tire waste powder (TWP) in a liquid medium and soil. A pot experiment was also conducted to investigate the effects of TWP and Pseudomonas strains on growth and Zn nutrition of maize. Fourteen bacterial strains were grown in liquid Pikovskayas (PVK) medium supplemented with TWP, and ten superior Pseudomonas strains with high Zn solubilization activities were selected for the subsequent Zn kinetics study. In the liquid PVK medium supplemented with TWP, the concentration of Zn was higher in all inoculated treatments compared to the non-inoculated control in a time-dependent manner. Likewise, in the TWP-treated soil, the concentrations of DTPA-extractable Zn were significantly higher in inoculated treatments than those in the control treatment in all incubation times. Individual application of Pseudomonas strains or TWP treatments significantly increased the shoot biomass of maize plants. Furthermore, the combined application of Pseudomonas strains and TWP led to higher shoot Zn concentration of plants as compared to the individual applications, reflecting enhanced Zn availability in TWP-treated soil upon bacterial inoculation. These findings indicate that co-application of effective Pseudomonas strains (with high Zn solubilization activity) with TWP in soils can lead to higher Zn bioavailability for plants, i.e. indicating the potential of TWP as a slow-release Zn fertilizer for crops.

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“…The addition of zeolite improves soil nutrient retention in the root zone and its availability in the soil for a longer period, and also reduces fertilizer costs [10]. [11] stated the mechanism of zeolite as a slow-release fertilizer, whereby the nutrients are released slowly through ion exchange of the elements found in the exchange sites, which may have been obtained the zeolite from the elements found in the soil solution, so the elements become ready for the absorption by the plant. [12] conducted an experiment to study the use of natural zeolite and the ability to use it for providing the plant with its necessary nutrients and improving crop productivity in gypsum soils.…”

Section: Introductionmentioning

confidence: 99%

The Role of Zinc- Zeolite in the Growth and Yield of (Zea Mays L.) in Two Calcareous Soils

Al-Mashhdany,

Al-Hadethi

2023

IOP Conf. Ser.: Earth Environ. Sci.

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A field experiment was conducted at the research station of the College of Agriculture - University of Anbar to study the effect of zinc-zeolite on some growth and yield characteristics of maize in two calcareous soils that differ in clay ratio. It was carried out according to the randomized complete block design following the nested design, with three replications which include: natural and synthetic zeolite prepared from local kaolin. Both the natural and synthetic zeolite were ground and sieved using a sieve with a diameter of 63 µm and then the natural and synthetic zeolite were saturated with zinc. Natural and synthetic zeolite zinc was added to the soil at three levels: 4, 8, and 12 kg Zn ha−1. The mineral source of zinc (ZnSO47H2O) and the organic source of zinc (Zn-DTPA) were used at the level of 8 Kg Zn ha−1 for each of them as a comparison treatment, as well as the comparison treatment without the addition of zinc. The number of treatments in each sector is 9 experimental units, and the total number of experimental units for each site is 27 experimental units. The results showed that natural and synthetic zeolite-zinc at the level of 12 kg Zn ha−1 was significantly superior in plant height and grain weight at a rate of 183.3 cm (150.0 g) and the concentration of nitrogen, potassium and zinc at a rate of 19.98, 2.96 and 45.50 g kg−1.

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Adsorption of Cadmium and Zinc onto Micaceous Minerals: Effect of Siderophore Desferrioxamine B

Cited by 15 publications

References 23 publications

Isolation of cadmium-resistance and siderophore-producing endophytic bacteria and their potential use for soil cadmium remediation

Isolation of cadmium-resistance and siderophore-producing endophytic bacteria and their potential use for soil cadmium remediation

Zinc-solubilizing Pseudomonas strains accelerate the release of zinc from tire waste powder and improve maize growth and zinc nutrition

The Role of Zinc- Zeolite in the Growth and Yield of (Zea Mays L.) in Two Calcareous Soils

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