肠道病毒在土壤中的灭活
Enterovirus inactivation in soil.
作者信息
Yeager J G, O'Brien R T
出版信息
Appl Environ Microbiol. 1979 Oct;38(4):694-701. doi: 10.1128/aem.38.4.694-701.1979.
Abstract
The inactivation of radioactively labeled poliovirus type 1 and coxsackievirus B 1 in soils saturated with surface water, groundwater, and septic tank liquor was directly proportional to temperature. Virus persistence was also related to soil type and the liquid amendment in which viruses were suspended. At 37 degrees C, no infectivity was recovered from saturated soil after 12 days; at 4 degrees C, viruses persisted for at least 180 days. No infectivity was recovered from dried soil regardless of temperature, soil type, or liquid amendment. Additional experiments showed that evaporation of soil water was largely responsible for the decreased recovery of infectivity from drying soil. Increased rates of virus inactivation at low soil moisture levels were also demonstrated.
摘要
在被地表水、地下水和化粪池液浸透的土壤中,放射性标记的1型脊髓灰质炎病毒和B1型柯萨奇病毒的失活与温度直接相关。病毒的持久性也与土壤类型以及病毒悬浮其中的液体改良剂有关。在37摄氏度时,12天后从饱和土壤中未检测到传染性;在4摄氏度时,病毒至少持续存在180天。无论温度、土壤类型或液体改良剂如何,干燥土壤中均未检测到传染性。额外的实验表明,土壤水分的蒸发在很大程度上导致了干燥土壤中传染性回收率的降低。实验还表明,在低土壤湿度水平下病毒失活率增加。
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本文引用的文献
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Association of enteroviruses with natural and artificially introduced colloidal solids in water and infectivity of solids-associated virions.肠道病毒与水中天然及人工引入的胶体固体的关联以及与固体相关的病毒粒子的感染性
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Structural changes associated with poliovirus inactivation in soil.土壤中与脊髓灰质炎病毒失活相关的结构变化
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Poliovirus removal from primary and secondary sewage effluent by soil filtration.通过土壤过滤去除原污水和二级污水中的脊髓灰质炎病毒。
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