Bioenergy by-products enhance the soybean photosynthesis, antioxidant defense, and related gene expression by modulating metal bioavailability in acidic soil

IF 4.8 2区农林科学 Q1 SOIL SCIENCE

Applied Soil Ecology Pub Date : 2025-06-10 DOI:10.1016/j.apsoil.2025.106234

Muhammad Tayyab Sattar , Laiba Qazi , Sumaira Manzoor , Imran Khan , Wenjie Li , Hongju Ma , Fei Shen

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引用次数: 0

Abstract

Soil acidification regulates the mobility of aluminum (Al) and manganese (Mn), thereby affecting legumes growth. Bioenergy by-products (BBP) including biochar, bottom ash and biogas slurry, can mitigate soil metal toxicity in acidic soils; however, the precise impacts of these amendments in soil-plant system remains unknown. Therefore, different treatments of BBP namely Control (T1), Biogas slurry (T2), Bottom ash (T3), Biochar (T4), Biogas slurry with bottom ash (T5), Biogas slurry with biochar (T6), Bottom ash with biochar (T7), and Biochar along with bottom ash and biogas slurry (T8) were used to mitigate the bioavailability and toxicity of Al and Mn. Results revealed that T8 reduced Al and Mn content by 63 % and 78 % in soil and 64 % and 65 % in soybean plants, respectively. Notably, T8 mitigates oxidative damage and improves rubisco activity, photosynthetic efficiency, and antioxidant activities as compared to other treatments. Furthermore, Transmission electron microscopy (TEM) shows that cell structure restoration was obvious under T6 and T8 than that of other treatments. The antioxidant genes (GmSOD, GmCAT1, and GmPOD1) and photosynthesis genes (GmRbcS and GmRCAβ) expressions were upregulated in T7 and T8 than that of other treatments. Our correlations analysis shows that BBP improved soil organic matter and further enhanced the availability of NO3-, P, and K in the soil. Furthermore, increased soil pH by BBP significantly decreased the NH₄⁺ availability in the soil. In conclusion, our study demonstrates that BBP can enhance soybean physiological characteristics by modulating soil pH and improving nutrient availability.

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生物能源副产物通过调节酸性土壤中金属的生物有效性，增强大豆光合作用、抗氧化防御及相关基因的表达

土壤酸化调节了铝（Al）和锰（Mn）的流动性，从而影响豆科植物的生长。生物能源副产品（BBP）包括生物炭、底灰和沼气浆，可以减轻酸性土壤中的土壤金属毒性；然而，这些变化对土壤-植物系统的确切影响尚不清楚。因此，采用对照（T1）、沼液（T2）、底灰（T3）、生物炭（T4）、底灰加沼液（T5）、生物炭加沼液（T6）、底灰加生物炭（T7）、生物炭加底灰加沼液（T8）等不同处理来降低Al和Mn的生物利用度和毒性。结果表明，T8处理可使土壤中Al和Mn含量分别降低63%和78%，大豆中Al和Mn含量分别降低64%和65%。值得注意的是，与其他处理相比，T8减轻了氧化损伤，提高了rubisco活性、光合效率和抗氧化活性。透射电镜（TEM）显示，T6和T8处理下细胞结构恢复较其他处理明显。抗氧化基因（GmSOD、GmCAT1和GmPOD1）和光合作用基因（GmRbcS和GmRCAβ）在T7和T8的表达量均高于其他处理。相关分析表明，BBP改善了土壤有机质，进一步提高了土壤中NO3-、P和K的有效性。此外，BBP增加了土壤pH值，显著降低了土壤NH4+有效性。综上所述，BBP可以通过调节土壤pH值和提高养分有效性来改善大豆的生理特性。

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来源期刊

Applied Soil Ecology 农林科学-土壤科学

CiteScore

9.70

自引率

4.20%

发文量

363

审稿时长

5.3 months

期刊介绍： Applied Soil Ecology addresses the role of soil organisms and their interactions in relation to: sustainability and productivity, nutrient cycling and other soil processes, the maintenance of soil functions, the impact of human activities on soil ecosystems and bio(techno)logical control of soil-inhabiting pests, diseases and weeds.