Application of Biochar Changed the Status of Nutrients and Biological Activity in a Calcareous Soil

Karimi, Akbar; Moezzi, Abdolamir; Chorom, Mostafa; Enayatizamir, Naeimeh

doi:10.1007/s42729-019-00129-5

Cited by 114 publications

(65 citation statements)

References 45 publications

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“…Therefore, the application of the biochars used in this study caused a significant increase in soil SOC content. Our results agreed with the findings of Karimi et al (2020), who reported that the addition of corn biochar increased the SOC content of calcareous soil under incubation conditions. Saffari et al (2020) also reported that the SOC content in a sandy loam soil Fig.…”

Section: Discussionsupporting

confidence: 93%

“…In other work, Karimi et al (2020) also reported that a significant increase in the pH of calcareous soil that was amended with corn-residue biochar. The biochars used in the current study had a high carbon content (Table 2).…”

Section: Discussionmentioning

confidence: 79%

“…For evaluating the influence of biochar amendments on microbial activity, soil basal respiration (BR) by Anderson method (1982), substrate-induced respiration (SIR) using the method described by Alef and Nannipieri (1995), soil microbial biomass carbon (MBC) by the fumigation-extraction procedures (Jenkinson and Ladd 1981), and dehydrogenase activity (Alef and Nannipieri 1995), as important and common soil microbial indicator of soil dehydrogenase activity (DHA) is considered an indicator of overall soil microbial activity which occur intracellular in all living microbial cells (Karimi et al 2020), were measured (Table 1).…”

Section: Incubation Test and Analysismentioning

confidence: 99%

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Fe-Modified Common Reed Biochar Reduced Cadmium (Cd) Mobility and Enhanced Microbial Activity in a Contaminated Calcareous Soil

Moradi

Karimi

2020

J Soil Sci Plant Nutr

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The immobilization of soil cadmium (Cd) by biochar and modified biochar is an eco-friendly and cost-effective strategy. In the current study, the effect of raw biochar (BC) and iron-modified biochar (Fe-BC) derived from common reed on the fractionation and mobility of Cd was evaluated, as was its effect on soil microbial activity in contaminated calcareous soil. Treatments involved a combination of two factors: type of biochar (CK: Control, BC, and Fe-BC) and soil Cd concentration (0, 15, and 30 mg kg −1). Treatments were applied to the soil and incubated for 90 days. The application of both biochars increased soil pH and soil organic carbon content (16.6-48.0%), microbial biomass carbon (40.5-75.1%), basal respiration (16.6-48.0%), substrate-induced respiration (12.4-41.9), and dehydrogenase activity (25.5-102.1%), while it reduced diethylene-triamine pentaacetic acid (DTPA)extractable Cd (22.1-39.5%). The addition biochars, particularly Fe-BC, prominently decreased the concentration of exchangeable and carbonate fractions and increased the concentration of Fe-MnOx, as well as the organic and residual fractions of Cd in the soil. Moreover, relative to the control treatment, the incorporation of raw and Fe-modified biochar into 30 mg kg −1 Cd-spiked soil significantly decreased the Cd mobility factor (MF) value by 14.5 and 21.8%, respectively. Fe-modified biochar had a more significant impact than raw biochar on the immobilization of Cd in the soil, and its improved soil microbial activity to a greater extent. Overall, the findings indicate that Fe-modified biochar derived from common reed can immobilize Cd and improve soil microbial attributes in contaminated calcareous soil. Therefore, it can be used as an eco-friendly amendment for restoring Cdcontaminated calcareous soil.

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Section: Discussionsupporting

confidence: 93%

Section: Discussionmentioning

confidence: 79%

Section: Incubation Test and Analysismentioning

confidence: 99%

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Fe-Modified Common Reed Biochar Reduced Cadmium (Cd) Mobility and Enhanced Microbial Activity in a Contaminated Calcareous Soil

Moradi

Karimi

2020

J Soil Sci Plant Nutr

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“…According to the results, which are similar to our previous study, biochars would alter the metals' distributions in a way that they declined readily available forms (exchangeable, associated with carbonates, and associated with Fe-Mn oxides), but raised less reachable sites (associated with organic matter and residuals) in the soil (Kabiri et al 2019). Similarly to the present research, Karimi et al (2020) reported that the application of 2% corn residue biochar produced at 500°C decreased DTPA-Zn in a calcareous soil. In other work, Karimi et al (2019) reported that the application of corn residue biochar produced at 500°C increased Zn associated with organic matter and residual fraction in calcareous soil, while exchangeable and associated with Fe-Mn oxide fractions decreased.…”

Section: Znsupporting

confidence: 90%

Impact of Biochar on Release Kinetics of Pb (II) and Zn (II) in a Calcareous Soil Polluted with Mining Activities

Kabiri

Motaghian

Hosseinpur

2020

J Soil Sci Plant Nutr

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Release kinetics governs the detachment and migration of potentially toxic trace elements (PTEs) over time between the solid phase and soil solutions. The assessment of PTEs' release behavior through time supports more accurate prediction models of toxicity in highly polluted soils. Recently, biochar, a charcoal black carbon ameliorant, was extensively applied for decreasing the release of Zn and Pb to the soil solution. This study was arranged during a short-term (45 days) incubation experiment to estimate the possible effects of walnut leaves (WL) and their biochars produced at three temperatures (200 (B200), 400 (B400), and 600 (B600)°C) on the kinetics of Zn and Pb release in a naturally calcareous and highly polluted soil. Results showed that the biochars could reduce the release of Zn and Pb to the soil solution. The rate of Zn release ("b" in power function) at different biochar levels was 0.35 (2% B600)-0.38 (control) (mg kg −1) −1 , respectively; also, the release of Pb was 0.23 (2% B600)-0.33 (control) (mg kg −1) −1 , respectively. The results illustrated that a lower concentration of these metals was associated with exchangeable and oxides of Fe-Mn, whereas the higher content of residual fractions of Zn and Pb reduced the release of Zn and Pb in soils treated with biochar. Overall, the more the level and temperature of biochar increased, stabilizing PTEs through changing the distribution of metals in the soil, the more biochars succeeded significantly in lessening the release of PTEs, which ultimately could retard the further toxicity in the soil solution.

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“…The biochar amendment increase the organic carbon, microbial biomass carbon at 1.20 to 2.24 folds, microbial respiration at 1.21 to 2.23 folds, dehydrogenase activity at 1.47 to 2.30 folds and catalase activity at 1.80 to 2.93 folds. But the pyrolysis temperature and rate of application influence the biological properties of soil [65]. The different kinds of biochar have varied physical and chemical properties that conjunction with different soil ecosystem causes the varying level of microbial responses to amend of biochar in soils.…”

Section: Fig 2 Factors Influencing the Impacts Of Biochar On Soil Pmentioning

confidence: 99%

Beneficial Effects of Biochar on Agriculture and Environments

Gunasekaran

Abishek

Ilakiya

et al. 2020

IRJPAC

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Crop residue management becomes the challenging issue to farmers for balancing between the economic and sustainable environment. Though burning is the easiest way of destroying the crop waste it not only causes drastic changes in green house gas but also large amount of nutrients are removed from soil by plants. Hence the technique which protects the environment along with enhancing soil quality is needed. Therefore pyrolysis of crop residue can become an alternate technique against past strategies. The heterogeneous characteristics of the biochar can be produced through the pyrolysis process and that would be employed as a soil amendment. The biochar application ameliorates the problems which persist in soil and enhance the crop production in environmentally sound way. And largely involved in the carbon sequestration thereby sustain the soil quality. However there is lack of information available on effects of long term application of biochar and durability of persistence in soil. Thus in those things made to review on brief account of biochar such as, biochar production, characteristics, impacts on soil properties, crop growth, reduction of green house gases and heavy metal remediation. Moreover, in this review discusses about what are all the challenges and future trust in the application of biochar. So, the deep understanding on biochar and its interaction with soil can bridge the gap prevailed in the scientific field and crop improvement.

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Application of Biochar Changed the Status of Nutrients and Biological Activity in a Calcareous Soil

Cited by 114 publications

References 45 publications

Fe-Modified Common Reed Biochar Reduced Cadmium (Cd) Mobility and Enhanced Microbial Activity in a Contaminated Calcareous Soil

Fe-Modified Common Reed Biochar Reduced Cadmium (Cd) Mobility and Enhanced Microbial Activity in a Contaminated Calcareous Soil

Impact of Biochar on Release Kinetics of Pb (II) and Zn (II) in a Calcareous Soil Polluted with Mining Activities

Beneficial Effects of Biochar on Agriculture and Environments

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