Inactivation of Escherichia coli O157:H7 in Dairy Manure Compost with Alkaline Walnut Hull Biochar

IF 2.1 4区农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of food protection Pub Date : 2025-02-03 DOI:10.1016/j.jfp.2024.100438

Joshua B. Gurtler, Charles A. Mullen

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Abstract

Biochar has been used to accelerate heating profiles during composting by increasing oxygenation, which could also reduce microbial pathogens. However, the antimicrobial inactivation of foodborne pathogens in compost, by amending with biochar without increased heating profiles, has not been evaluated. In this study, we examined the ability of biochar to inactivate E. coli O157:H7 (EC) in fresh dairy manure compost by amending with one of four types of biochar. Two slow pyrolysis biochars (high-temperature walnut hull biochar [HTWHB], and walnut hull cyclone biochar [WHCB]), and two fast pyrolysis biochars were examined. Compost with 8.1 log CFU/g of EC + 10% amended biochar was held at 22 °C and analyzed for EC weekly. The control treatment sustained ca. 8.7 log CFU of EC through week 7; however, the bacterium was not detected by direct plating in WHCB compost (below the detection limit) by day 7, through the entire 49 days (which may be attributed to increased compost alkalinity [i.e., pH 10.76]). Populations of EC in compost supplemented with 10% of the three other biochars sustained EC populations ≥9.2 log through the balance of the study. The four biochars were further tested in soil at 17% moisture to determine if concentrations as low as 3.5% could inactivate EC. When 3.5% HTWHB was added to soil, populations were 5.1 log CFU lower than when 10% of the same biochar was amended into dairy compost by week 3. This may indicate that alkaline biochar, amended into lower moisture, soil may be more biocidal than when alkaline biochar is added to high moisture manure compost. The current study demonstrates that highly alkaline walnut hull cyclone biochar is capable of reducing up to 8 log of EC in high moisture fresh compost in only 7 days, while as little as 3.5% alkaline WHCB in 17% moisture soil can reduce 6.7 log of EC in only 14 days. These results may assist farmers in amending compost, manure, cattle feedlots, or soil with biochar to reduce EC, and potentially other pathogens (e.g., Salmonella enterica, Campylobacter jejuni, and Listeria monocytogenes), with the goal of reducing the dissemination of human bacterial pathogens to meat, poultry, and fresh produce.

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碱性核桃壳生物炭对牛粪堆肥中大肠杆菌O157:H7失活的研究。

生物炭已被用于通过增加氧化作用来加速堆肥过程中的加热剖面，这也可以减少微生物病原体。然而，在不增加加热剖面的情况下，通过生物炭改性堆肥中食源性病原体的抗菌失活尚未得到评估。在这项研究中，我们通过添加四种类型的生物炭中的一种来检测生物炭对新鲜牛粪堆肥中大肠杆菌O157:H7 （EC）灭活的能力。研究了两种慢速热解生物炭（高温核桃壳生物炭[HTWHB]、核桃壳旋风生物炭[WHCB]）和两种快速热解生物炭。添加EC 8.1 log CFU/g + 10%改性生物炭的堆肥在22°C下保存，每周进行EC分析。对照组至第7周EC维持在8.7 log CFU左右；然而，在整个49天中，通过直接电镀在WHCB堆肥中，在第7天未检测到细菌（低于检测限）（这可能归因于堆肥碱度增加[即pH值为10.76]）。在添加10%其他三种生物炭的堆肥中，EC种群维持在≥9.2 log。四种生物炭在17%水分的土壤中进一步测试，以确定低至3.5%的浓度是否可以灭活EC。当土壤中添加3.5%的HTWHB时，在第3周时，种群数量比添加10%的相同生物炭时低5.1 log CFU。这可能表明，碱性生物炭在较低水分条件下的土壤比碱性生物炭在高水分条件下的土壤具有更强的杀菌作用。目前的研究表明，高碱性核桃壳旋风生物炭在高水分新鲜堆肥中仅7天就能减少高达8 log的EC，而低碱性3.5%的WHCB在17%水分土壤中仅14天就能减少6.7 log的EC。这些结果可以帮助农民用生物炭改良堆肥、粪肥、牛饲养场或土壤，以减少EC和潜在的其他病原体（例如，肠沙门氏菌、空肠弯曲杆菌和单核细胞增多李斯特菌），以减少人类细菌病原体向肉类、家禽和新鲜农产品的传播。

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来源期刊

Journal of food protection 工程技术-生物工程与应用微生物

CiteScore

4.20

自引率

5.00%

发文量

296

审稿时长

2.5 months

期刊介绍： The Journal of Food Protection® (JFP) is an international, monthly scientific journal in the English language published by the International Association for Food Protection (IAFP). JFP publishes research and review articles on all aspects of food protection and safety. Major emphases of JFP are placed on studies dealing with: Tracking, detecting (including traditional, molecular, and real-time), inactivating, and controlling food-related hazards, including microorganisms (including antibiotic resistance), microbial (mycotoxins, seafood toxins) and non-microbial toxins (heavy metals, pesticides, veterinary drug residues, migrants from food packaging, and processing contaminants), allergens and pests (insects, rodents) in human food, pet food and animal feed throughout the food chain; Microbiological food quality and traditional/novel methods to assay microbiological food quality; Prevention of food-related hazards and food spoilage through food preservatives and thermal/non-thermal processes, including process validation; Food fermentations and food-related probiotics; Safe food handling practices during pre-harvest, harvest, post-harvest, distribution and consumption, including food safety education for retailers, foodservice, and consumers; Risk assessments for food-related hazards; Economic impact of food-related hazards, foodborne illness, food loss, food spoilage, and adulterated foods; Food fraud, food authentication, food defense, and foodborne disease outbreak investigations.