Changes caused by heavy metals in micronutrient content and antioxidant system of forage grasses used for phytoremediation: an overview

Rabêlo, Flávio Henrique Silveira; Borgo, Lucélia

doi:10.1590/0103-8478cr20151291

Cited by 21 publications

(8 citation statements)

References 39 publications

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“…For this reason, several strategies to decrease the Cd concentration in the environment have been investigated, most notably phytoextraction (Sheoran et al, 2016). However, to this date, there are few known species of plants considered Cd hyperaccumulators, which fosters the study of other plants, as forage grasses (Zhao et al, 2002;Rabêlo and Borgo, 2016). These plants can offset the lower proportional accumulation of Cd with their higher biomass production, especially when grown with the adequate supply of sulfur (S) (Rabêlo and Borgo, 2016;Rabêlo et al, 2017a,b).…”

Section: Introductionmentioning

confidence: 99%

“…However, to this date, there are few known species of plants considered Cd hyperaccumulators, which fosters the study of other plants, as forage grasses (Zhao et al, 2002;Rabêlo and Borgo, 2016). These plants can offset the lower proportional accumulation of Cd with their higher biomass production, especially when grown with the adequate supply of sulfur (S) (Rabêlo and Borgo, 2016;Rabêlo et al, 2017a,b). Sulfur is a component of metabolites that act in the chelation and combat against the damage caused by Cd (eg), amino acids, reduced glutathione (GSH) and phytochelatins (PCs), and an adequate supply of this nutrient can increase the Cd extraction potential (Seth et al, 2012;Rabêlo et al, 2017a,b).…”

Section: Introductionmentioning

confidence: 99%

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A glimpse into the symplastic and apoplastic Cd uptake by Massai grass modulated by sulfur nutrition: Plants well-nourished with S as a strategy for phytoextraction

Rabêlo

Jordão

Lavres

2017

Plant Physiology and Biochemistry

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To date, there have been no studies demonstrating the influence of sulfur (S) on the cadmium (Cd) uptake kinetics, which limits the understanding of mechanisms involved in the uptake of this element. Therefore, this study was carried out in order to quantify the contribution of symplastic and apoplastic uptakes of Cd (0.1 and 0.5 mmol L) by Massai grass (Panicum maximum cv. Massai) grown under low and adequate S-supply (0.1 and 1.9 mmol L) by measuring Cd concentration in the nutrient solution (V, K, and C) along the plant's exposure time (108 h) and determining Cd concentration in root symplast and apoplast. The V of Cd influx in Massai grass exposed to higher Cd and S concentrations was 38% higher than that plants supplied with lower S concentration. The K and C of plants exposed to the highest Cd concentration was higher than that plants subjected to the lowest Cd concentration, although values were not affected by S supply. Symplastic influx of Cd in plants subjected to the lower Cd and S concentrations was 20% higher as compared to plants supplied with the higher concentration of S, whereas the apoplastic influx of Cd was higher when there was a higher supply S, regardless of Cd concentration in the solution. This result indicates that an adequate supply of S decreases the contribution of the symplastic Cd uptake and increases the contribution of the apoplastic Cd uptake when the toxicity caused by Cd is lower.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A glimpse into the symplastic and apoplastic Cd uptake by Massai grass modulated by sulfur nutrition: Plants well-nourished with S as a strategy for phytoextraction

Rabêlo

Jordão

Lavres

2017

Plant Physiology and Biochemistry

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“…The behavior of HMs in soil modifies the plant uptake of nutrients, particularly of essential micronutrients such as Cu 2+ , Fe 2+ , Mn 2+ , and Zn 2+ due to competition on the root sites for the absorption (Zhang et al., 2014). Similarly, Rabêlo and Borgo (2016) demonstrated that HMs caused reduction in plants’ micronutrient content. The negative effect of Cd (at its two rates) in all plants’ nutrient content is clearer than the negative effect of Pb.…”

Section: Resultsmentioning

confidence: 85%

Alleviation of cadmium and lead stress by A‐mycorrhizal fungi and rock phosphate on maize (Zea mays L.) growth under calcareous soil conditions

Seoud

Bakr²

2020

Environmental Quality Mgmt

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This research was carried out to investigate the impact of A‐mycorrhizal fungi (AMF) and rock phosphate (RP) (alone and combined) under polluted soil with lead (Pb) and cadmium (Cd) on maize plant growth and soil nutrients availability under calcareous soil conditions. A greenhouse pot experiment was designed as a two‐factor experiment, remediation sources (RS) as the sub‐main factor with four treatments [control, M (mixed of the two mycorrhizae species, Rhizoglomus irregulare and Rhizoglomus macrocarpium), RP, and M + RP], and soil pollution sources (PS) as the main factor with nine treatments [control, Pb1 (100 mg Pb /kg soil), Pb2 (500 mg Pb/kg soil), Cd1 (6 mg Cd/kg soil), Cd2 (24 mg Cd/kg soil), Pb1 + Cd1, Pb1 + Cd2, Pb2 + Cd1, Pb2 + Cd2]. The results showed that, under the same conditions of this study, we can recommend the use of coapplication of AMF and RP (M + RP) particularly in contaminated soil with Pb and/or Cd, which supports plants to (i) confront the pollution stress, (ii) improve plants growth and their nutrients content, and (iii) increase the soil available nutrients. Also, maize plants could be labeled as the accumulator of Pb based on (translocation factor > 1) as control and under calcareous soil conditions.

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“…Particularly, a lead-zinc interaction has been observed at the absorptive as well as enzymatic sites [21]. high heavy metals concentrations [55].…”

Section: Discussionmentioning

confidence: 99%

Distribution and interactions of priority heavy metals with some antioxidant micronutrients in inhabitants of a lead-zinc mining community of ebonyi state, Nigeria

Tilako¹,

Ogbodo²,

Okonkwo³

et al. 2020

Adv Toxicol Toxic Effects

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Background: Human exposure to xenobiotics, especially priority heavy metals (lead, cadmium, arsenic, mercury and chromium), is unavoidable because of their involvement in industrial applications, accumulation in the environment over time and non-biodegradability. Unfortunately, they induce unprecedented biochemical and pathological changes on those exposed to them, causing oxidative damages and organ toxicities. Aim: This study investigated the frequencies of priority heavy metals and their impact on some micronutrient elements (copper, iron, zinc) in the blood of inhabitants of a lead-zinc mining community in southeastern Nigeria.

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Changes caused by heavy metals in micronutrient content and antioxidant system of forage grasses used for phytoremediation: an overview

Cited by 21 publications

References 39 publications

A glimpse into the symplastic and apoplastic Cd uptake by Massai grass modulated by sulfur nutrition: Plants well-nourished with S as a strategy for phytoextraction

A glimpse into the symplastic and apoplastic Cd uptake by Massai grass modulated by sulfur nutrition: Plants well-nourished with S as a strategy for phytoextraction

Alleviation of cadmium and lead stress by A‐mycorrhizal fungi and rock phosphate on maize (Zea mays L.) growth under calcareous soil conditions

Distribution and interactions of priority heavy metals with some antioxidant micronutrients in inhabitants of a lead-zinc mining community of ebonyi state, Nigeria

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