Effects of Clay Minerals on Enzyme Activity as a Potential Biosensor of Soil Pollution in Alice Township

Waste Pub Date : 2024-02-09 DOI:10.3390/waste2010005
Nontobeko Gloria Maphuhla, O. Oyedeji
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Abstract

Inadequate waste management and illegal trash dumping continue to be the leading causes of severe environmental pollution. Human exposure to harmful heavy metals has emerged as a serious health concern on the continent. Some people in Alice, a small town, grow their food in home gardens. They use animal manure and compost derived from soil obtained from landfills to enhance the fertility of the garden soil. Heavy metal heaps in garbage disposals are constantly present, releasing dangerous amounts of metal into the environment. The harmful effects of heavy metals on plants lead to unsanitary conditions and environmental problems. Animals and people who consume these vegetables may also be at risk for health problems. Assessing the soil’s enzyme activity can potentially lessen the negative effects of the accumulated pollutants and improve the soil’s overall health and quality. Soil enzymes are biologically active components that have a catalytic impact and are released from root exudates, crop residues, and animal remains. The activity of enzymes serves as an excellent bioindicator of soil cleanliness and quality because they are sensitive to heavy metals. X-ray diffraction (XRD) was used to quantify the mineral elements in soil using 40 kV parallel beam optics, 30 mA, and CuKα radiation. Meanwhile, the activity of the enzyme was essayed in different coupled substrates. Thirteen (13) clay minerals were found, including Talc 2M, Kaolinite 2M, and Chlorite Lawsonite Muscovite 2M1. The detected trace elements have high concentration levels that exceed the World Health Organization’s (WHO) allowed levels. The identified elements affected the enzyme activity at different levels. The Mn, Al, Si, V, Ti, and Ca negatively affect soil enzyme activity, specifically invertase (INV). However, the amount of Mg, K, Fe, and Zn showed a slightly positive effect on the same enzyme (INV). According to this view, these elements come from several sources, each with a particular impact on soil contamination and enzyme activity. High levels of heavy metals in this study may be due to improper waste disposal, limited recycling opportunities, lack of public awareness, and inadequate enforcement of waste management regulations. It is essential to employ Fourth Industrial Revolution (4IR) technologies, correct disposal techniques, suitable agricultural methods, preventive regulations, and efficient waste management to mitigate the negative effects of heavy metals on the environment.
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粘土矿物对酶活性的影响--爱丽丝镇土壤污染的潜在生物传感器
废物管理不善和非法倾倒垃圾仍然是造成严重环境污染的主要原因。人类接触有害重金属已成为非洲大陆的一个严重健康问题。在小镇艾丽斯,有些人在自家菜园里种植粮食。他们使用从垃圾填埋场获得的动物粪便和堆肥来提高花园土壤的肥力。垃圾处理场中的重金属堆不断出现,向环境中释放出危险的金属量。重金属对植物的有害影响导致了不卫生条件和环境问题。食用这些蔬菜的动物和人也可能面临健康问题。评估土壤酶的活性有可能减轻累积污染物的负面影响,改善土壤的整体健康和质量。土壤酶是具有催化作用的生物活性成分,从根部渗出物、作物残留物和动物残骸中释放出来。酶的活性是土壤清洁度和质量的极佳生物指标,因为它们对重金属很敏感。利用 X 射线衍射(XRD)技术,使用 40 kV 平行光束光学器件、30 mA 和 CuKα 辐射,对土壤中的矿物元素进行量化。同时,研究了该酶在不同耦合底物中的活性。发现了十三(13)种粘土矿物,包括滑石 2M、高岭石 2M 和绿泥石劳森石莫斯科维特 2M1。检测到的微量元素浓度水平很高,超过了世界卫生组织(WHO)允许的水平。这些元素对酶活性的影响程度各不相同。锰、铝、硅、钒、钛和钙对土壤酶活性,特别是转化酶(INV)有负面影响。然而,镁、钾、铁和锌的含量则对同一种酶(INV)有轻微的积极影响。根据这一观点,这些元素有多个来源,每种来源都对土壤污染和酶活性有特定的影响。本研究中重金属含量较高的原因可能是废物处理不当、回收机会有限、缺乏公众意识以及废物管理条例执行不力。必须采用第四次工业革命(4IR)技术、正确的处理技术、合适的农业方法、预防性法规和有效的废物管理,以减轻重金属对环境的负面影响。
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