1. Effect of bacillus strain and Fe-modified biochar on lead (Pb) bioaccumulation and oxidative stress in wheat (Triticum aestivum L.) grown in Pb contaminated soil.
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Noreen, Sana, Malik, Zaffar, Luqman, Muhammad, Fatima, Ishrat, Tahir, Usama Ali, Dar, Mansab, and Rizwan, Muhammad
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BIOACCUMULATION , *MICROBIAL contamination , *LEAD , *BACILLUS (Bacteria) , *AGRICULTURAL productivity - Abstract
• Bacillus sp.+Fe-modified BC was effective to improve wheat growth. • Bacillus sp.+Fe-modified BC effectively improved enzymatic activity in wheat plants. • Bacillus sp.+Fe-modified BC neutralized soil pH and immobilized Pb translocation. • Microbes+Fe-modified BC reduced Pb bioaccumulation and uptake factors in plants. Soil contamination with heavy metals (HMs) has become a severe environmental problem for crop production. The efficacy of bacillus strain (N18) and Fe-modified biochar (FeB2%) on plant growth, lead (Pb) bioaccumulation and oxidative stress in wheat plants was studied under Pb contaminated soil. Lead stress caused significant reduction in plant growth, chlorophyll contents, antioxidant enzymes activity and Pb tolerance index. The Bacillus strain inoculated seeds stimulated the plant growth, chlorophyll content, antioxidative enzymatic activity with reduced oxidative stress and Pb bioavailability in soil, Pb biological accumulation, translocation and uptake factor in plants. The FeB2% treatment had shown prominently positive results relative to N18 inoculated treatment. Whereas, combined application of N18 and FeB2% depicted maximum significant improvement in root length (37, 36 and 30%), shoot length (45 %, 46 % and 47 %), total chlorophyll (43 %, 51 % and 48 %), carotenoid contents (36 %, 49 % and 48 %) and antioxidative enzymes activities such as; superoxide dismutase (19 %, 35 % and 40 %), peroxidase (29 %, 18 % and 20 %), catalase (19 %, 35 % and 40 %) and ascorbate peroxidase (23 %, 23 % and 13 %) in Pb-0, 400 and 600 mg kg-1 soil, respectively. Reduction in malondialdehyde content (MDA) (52 %, 61 % and 56 %), Pb biological accumulation (48 %, 41 % and 37 %), soil-root translocation factor (11 %, 15 % and 9 %), root-shoot translocation factor (42 %, 36 % and 35 %) and uptake factor (19 %, 22 % and 17 %) in wheat plants observed with combined N18+ FeB2% application as compared to control treatments in Pb-0, 400 and 600 mg kg-1 soil, respectively. The study suggested that combined application of N18+ FeB2% treatment prominently increased plant health with reduction in Pb bio-availability compared to sole application of N18 strain and FeB2% treatment under (Pb) contaminated soils. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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