Biochar as a Green Sorbent for Remediation of Polluted Soils and Associated Toxicity Risks: A Critical Review

Murtaza, Ghulam; Ahmed, Zeeshan; Eldin, Sayed M.; Ali, Iftikhar; Usman, Muhammad; Iqbal, Rashid; Rizwan, Muhammad; Abdel-Hamid, Amal M. E.; Haider, Asif Ali; Tariq, Akash

doi:10.3390/separations10030197

Cited by 41 publications

(12 citation statements)

References 138 publications

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“…Plant growth is affected by the availability of both micro- and macronutrients in soil in adequate amounts. − The availability of micronutrients especially Cu and B perform a remarkable function in plant physiological development and metabolism . Copper is a vital nutrient for plants and actively takes part in many physiological processes which play a significant role in respiration and photosynthesis.…”

Section: Discussionmentioning

confidence: 99%

The Impact of Trichoderma harzianum Together with Copper and Boron on Wheat Yield

Anwar

Ali

Ullah

et al. 2023

ACS Agric. Sci. Technol.

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Deficiency of micronutrients is a major problem faced by nearly half of the world population due to intake of poor-quality food. To overcome the problem of malnutrition, biofortification of cereal crops is believed to be a good approach to increase nutrient contents in our daily food. The purpose of the current study was therefore to investigate the effect of foliar applied copper and boron alone and in combination with Trichoderma harzianum on yield attributes, grain quality, and nutrient contents of wheat. Wheat plants were treated with copper and boron in combination with or without T. harzianum. The applied treatments included Cu (0.05 M), Cu (0.1 M), T. harzianum, Cu (0.05 M)/T. harzianum, Cu (0.1 M)/T. harzianum, B (0.05 M), B (0.1 M), B (0.05 M)/T. harzianum, B (0.1 M)/T. harzianum, Cu (0.05 M)/B (0.05 M)/T. harzianum, and Cu (0.1 M)/B (0.1 M)/T. harzianum along with a control set for comparison. Results revealed significant enhancement in different studied growth traits including plant height, spike length, kernels per spike, harvest index, and chlorophyll content. In addition, this approach also enriched wheat grains with various micro/macronutrients including Cu, Fe, Zn, K, and P. This study concludes that the bioreagent T. harzianum along with foliar copper and boron may lead to reasonably enhanced grain quality and growth characteristics of wheat, further suggesting that the combined application of micronutrients along with T. harzianum under suitable conditions will make it an acceptable approach for crop improvements.

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Section: Discussionmentioning

confidence: 99%

The Impact of Trichoderma harzianum Together with Copper and Boron on Wheat Yield

Anwar

Ali

Ullah

et al. 2023

ACS Agric. Sci. Technol.

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“…Chemical sorption mechanism occurs due to ion-exchange with ample functional groups on the biochar surface, including phenolic, hydroxylic and carboxylic groups (Biswal et al 2022;Murtaza et al 2023b;Lee et al 2010). These functional groups give cation exchange capacity to biochar depending on pyrolysis temperature with a peak of cation exchange capacity at around 350-400°C, possibly due to loss of oxygenated functional groups above this temperature (Gao et al 2023;Gomez-Eyles et al 2013).…”

Section: Chemical Sorptionmentioning

confidence: 99%

Efficiency of engineered/modified biochars-based adsorbents for removal of pollutants from aquatic environment: A critical review

2024

Global NEST: The International Journal

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<p>Biochar shows substantial potential to contribute as a globally applicable adsorbent to decontaminate the water system due to the ample availability of feedstocks and valuable physio-chemical surface properties. This review aims to highlight the modification technologies of biochar, the alteration of characteristics after modification, and the eliminating of organic, inorganic, antibiotics and other pollutants from water systems by modified biochar. Alkali-acid modified and metal-loaded biochar possesses the superior surface functionality; these modifications are greatly favorable for improving the removal of different pollutants from water systems. Acidic- alkaline and metal treatment provides more diverse functional groups on biochar surfaces e.g. produces ample oxygenated functional groups, improve the surface attributes, generates high ratios of surface aromaticity and N/C, these changes provide the more adsorption sites and increase the removal of pollutants. This review also demonstrates the existing problems and future research direction related to modified biochars by acidic and alkaline agents as well as metal loaded composite in the remediation of the pollutants.</p>

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“…Recent developments have introduced strategies to modulate complex interactions of environmental stresses, including the use of bio-stimulants to modify root growth under Al toxicity [62]. For instance, pyroligneous acid, a common bio-stimulant, can reduce Al-induced root growth inhibition, enhancing resilience to metal toxicity and restoring yield [63]. This compound, derived from organic residue carbonation in low-oxygen conditions, contains a mix of bioactive water-soluble moieties, such as sugar and alcohol derivatives esterified with phenolics and organic acids.…”

Section: Root Phenotypes and Quantitative Trait Loci For Aluminum Tox...mentioning

confidence: 99%

Exploring Aluminum Tolerance Mechanisms in Crops: A Comprehensive Review of Genetic, Metabolic, and Physiological Adaptations in Acidic Soils

Chakraborty,

Das,

Pal

et al. 2024

Preprint

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Aluminum (Al), making up a third of the Earth's crust, is a widespread toxic contaminant, particularly in acidic soils. It impacts crops at multiple levels, from the cellular to the whole plant. This review delves into aluminum's reactivity, including its cellular transport, involvement in oxidative redox reactions, development of specific metabolites, and the influence of genes on the production of membrane channels and transporters, as well as its role in triggering apoptosis leading to senescence. It discusses the involvement of channel proteins in calcium influx, vacuolar proton pumping, the suppression of mitochondrial respiration, and the initiation of programmed cell death. At the cellular nucleus level, the effects of Al on gene regulation through alterations in nucleic acid modifications, such as methylation and histone acetylation, are examined. The review in addition outlines the pathways of Al induced metabolic disruption specifically citric acid metabolism, regulation of proton excretion, induction of specific transcription factors, modulation of Al-responsive proteins, changes of citrate and nucleotide glucose transporters and overall metal detoxification pathways in tolerant genotypes. It also considers the expression of phenolic oxidases in response to oxidative stress, their regulatory feedback on mitochondrial cytochrome proteins, and their consequences on root development. Ultimately, the review focuses on the selective metabolic pathways that facilitate Al exclusion and tolerance, emphasizing compartmentalization, antioxidative defense mechanisms, and the control of programmed cell death to manage metal toxicity.

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Biochar as a Green Sorbent for Remediation of Polluted Soils and Associated Toxicity Risks: A Critical Review

Cited by 41 publications

References 138 publications

The Impact of Trichoderma harzianum Together with Copper and Boron on Wheat Yield

The Impact of Trichoderma harzianum Together with Copper and Boron on Wheat Yield

Efficiency of engineered/modified biochars-based adsorbents for removal of pollutants from aquatic environment: A critical review

Exploring Aluminum Tolerance Mechanisms in Crops: A Comprehensive Review of Genetic, Metabolic, and Physiological Adaptations in Acidic Soils

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