Modified biochar enhances soil fertility and nutrient uptake and yield of rice in mercury-contaminated soil

Hong Li, Liping Yang, Qiaozhi Mao, Haixia Zhou, Pan Guo, Evgenios Agathokleous, Shufeng Wang
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Abstract

Biochar, as an emerging soil remediation technology, has gained substantial attention. However, the impact of modified biochar on soil fertility, nutrient uptake, and rice yield in mercury (Hg)-contaminated soil remains unclear. This study explores the influence of biochar on soil fertility, nutrient absorption, photosynthesis, and rice yield in Hg-contaminated soil. We analyzed soil physicochemical properties, nutrient distribution (nitrogen, phosphorus and potassium) in roots, stems, and leaves, as well as plant gas exchange traits and yield components to provide a comprehensive assessment. Two experiments were conducted using original biochar (BC), produced via direct combustion and rice husk cracking, along with six types of modified biochar [amino (BCNH2), epoxy (BCCH(O)CH), ethoxy (BCC2H5O), sulfhydryl (BCSH), selenium (BCSe) loaded, and chitosan (BCchitosan)]. These biochars were applied at four different concentrations (0.07, 0.14, 0.20 and 0.35%). Comparative analysis against the control revealed that the application of modified biochar, particularly BCNH2, BCC2H5O and BCSH, significantly enhanced soil organic matter and plant nutrients (total N, available P, available K). Furthermore, it promoted the uptake of N, P, and K by rice leaves. The biochar addition exhibited a positive impact on rice photosynthesis and yield within a specific range of concentrations. A comprehensive analysis indicates that soil fertility, photosynthesis, and rice yield were significantly enhanced when BCNH2, BCC2H5O, and BCSH were applied at 0.20% under the study conditions. These findings advance our understanding of how biochar affects soil fertility, nutrient uptake, and rice yield, offering valuable insights for practical agricultural and environmental management in Hg-contaminated fields.

Abstract Image

改良生物炭可提高汞污染土壤的肥力、养分吸收和水稻产量
生物炭作为一种新兴的土壤修复技术,受到了广泛的关注。然而,在汞污染土壤中,改性生物炭对土壤肥力、养分吸收和水稻产量的影响尚不清楚。本研究探讨了生物炭对汞污染土壤肥力、养分吸收、光合作用和水稻产量的影响。通过分析土壤理化性质、根、茎、叶养分分布(氮、磷、钾)、植物气体交换特性和产量成分,对其进行综合评价。以直接燃烧法和稻壳裂解法制备的原生物炭(BC)和6种改性生物炭[氨基(BCNH2)、环氧(BCCH(O)CH)、乙氧基(BCC2H5O)、巯基(BCSH)、负载硒(BCSe)和壳聚糖(bc壳聚糖)]分别进行了两项实验。这些生物炭以4种不同浓度(0.07、0.14、0.20和0.35%)施用。与对照对比分析表明,施用改性生物炭,特别是BCNH2、BCC2H5O和bchh显著提高了土壤有机质和植物养分(全氮、速效磷、速效钾),促进了水稻叶片对N、P、K的吸收。在一定浓度范围内,添加生物炭对水稻光合作用和产量有显著的正向影响。综合分析表明,在本研究条件下,当BCNH2、BCC2H5O和BCSH浓度为0.20%时,土壤肥力、光合作用和水稻产量均显著提高。这些发现促进了我们对生物炭如何影响土壤肥力、养分吸收和水稻产量的理解,为汞污染地区的实际农业和环境管理提供了有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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