据物理学家组织网近日报道,美国耶鲁大学工程师的一项最新研究表明,只要一个人呆在室内,空气中的细菌就会以每小时3700万的速度增加。这些细菌大部分是之前在房子里的人留下的,然后从地板上激起来的。以往也有研究对日常生活空间里的各种微生物进行调查,但这还是首次定量研究一个人的出现对室内悬浮微生物造成的影响。相关论文在线发表于最近的《室内空气》杂志上。
“我们生活在一锅微生物汤里,其中一大部分配料就是我们自身的微生物。”主要研究人员、耶鲁大学环境工程副教授乔丹•佩奇亚说,“大部分情况是人们让以前沉积下来的微生物再次悬浮到空中,地板上的灰尘是人们呼吸道细菌的主要来源。”
研究小组对一家大学位于一层的一间教室进行了8天的检测分析,其中4天占满了人,4天空着。教室的门窗始终都关闭着,采暖通风与空调系统则以正常水平运行。
研究人员对空气微粒按大小进行了分类。“微粒大小是主要变化因子。”帕奇亚解释说,细菌与真菌微粒的大小非常重要,因为微粒大小会影响它们能否从空气中过滤掉,还影响它们在空中停留的时间和再循环。他们发现,在总体上,“人类占据空间与该空间悬浮着的各种细菌、真菌微粒浓度的增加密切相关”,而且“人类占据”尤其导致了较大真菌微粒、中型细菌微粒达到峰值。
研究人员还发现,所有细菌中约有18%是从室内发出来的,包括新发出来的和以前沉积的,这些细菌来自于人类自身,而不是植物和其他来源。在该调查中发现的15种数量最多的细菌中,有4种和人类直接相关,包括数量最大的丙酸杆菌(Propionibacterineae),通常在人类皮肤上。
在铺有地毯的房间里,显示出更高的微生物含量。但帕奇亚指出,这并不意味着非得把地毯或小毯子去掉,一般室内微生物感染人类的概率非常小,还不到0.1%。不过,人类所患的所有传染病一般都是在室内被感染的,美国人90%的时间都是在室内度过,了解一下室内生物悬浮微粒包含哪些细菌以及它们的传播动力学,有助于人们找出改善空气质量的新方法。
Size-resolved emission rates of airborne bacteria and fungi in an occupied classroom
J. Qian, D. Hospodsky, N. Yamamoto, W. W. Nazaroff, J. Peccia
The role of human occupancy as a source of indoor biological aerosols is poorly understood. Size-resolved concentrations of total and biological particles in indoor air were quantified in a classroom under occupied and vacant conditions. Per-occupant emission rates were estimated through a mass-balance modeling approach, and the microbial diversity of indoor and outdoor air during occupancy was determined via rDNA gene sequence analysis. Significant increases of total particle mass and bacterial genome concentrations were observed during the occupied period compared to the vacant case. These increases varied in magnitude with the particle size and ranged from 3 to 68 times for total mass, 12–2700 times for bacterial genomes, and 1.5–5.2 times for fungal genomes. Emission rates per person-hour because of occupancy were 31 mg, 37 × 106 genome copies, and 7.3 × 106 genome copies for total particle mass, bacteria, and fungi, respectively. Of the bacterial emissions, ∼18% are from taxa that are closely associated with the human skin microbiome. This analysis provides size-resolved, per person-hour emission rates for these biological particles and illustrates the extent to which being in an occupied room results in exposure to bacteria that are associated with previous or current human occupants.
文献链接:https://onlinelibrary.wiley.com/doi/10.1111/j.1600-0668.2012.00769.x/abstract
