Reaerosolization of Spores from Flooring Surfaces To Assess the Risk of Dissemination and Transmission of Infections

The aim of this study was to quantify reaerosolization of microorganisms caused by walking on contaminated flooring to assess the risk to individuals accessing areas contaminated with pathogenic organisms, for example, spores of Bacillus anthracis. Industrial carpet and polyvinyl chloride (PVC) floor coverings were contaminated with aerosolized spores of Bacillus atrophaeus by using an artist airbrush to produce deposition of ∼10³ to 10⁴ CFU · cm⁻². Microbiological air samplers were used to quantify the particle size distribution of the aerosol generated when a person walked over the floorings in an environmental chamber. Results were expressed as reaerosolization factors (percent per square centimeter per liter), to represent the ratio of air concentration to surface concentration generated. Walking on carpet generated a statistically significantly higher reaerosolization factor value than did walking on PVC (t = 20.42; P < 0.001). Heavier walking produced a statistically significantly higher reaerosolization factor value than did lighter walking (t = 12.421; P < 0.001). Height also had a statistically significant effect on the reaerosolization factor, with higher rates of recovery of B. atrophaeus at lower levels, demonstrating a height-dependent gradient of particle reaerosolization. Particles in the respirable size range were recovered in all sampling scenarios (mass mean diameters ranged from 2.6 to 4.1 μm). The results of this study can be used to produce a risk assessment of the potential aerosol exposure of a person accessing areas with contaminated flooring in order to inform the choice of appropriate respiratory protective equipment and may aid in the selection of the most suitable flooring types for use in health care environments, to reduce aerosol transmission in the event of contamination.     

Decontamination after a release of B. anthracis spores

Decontaminating civilian facilities or large urban areas following an attack with Bacillus anthracis poses daunting challenges because of the lack of resources and proven technologies. Nevertheless, lessons learned from the 2001 cleanups together with advances derived from recent research have improved our understanding of what is required for effective decontamination. This article reviews current decontamination technologies appropriate for use in outdoor environments, on material surfaces, within large enclosed spaces, in water, and on waste contaminated with aerosolized B. anthracis spores.     

Reaerosolization of fluidized spores in ventilation systems

This project examined dry, fluidized spore reaerosolization in a heating, ventilating, and air conditioning duct system. Experiments using spores of Bacillus atrophaeus, a nonpathogenic surrogate for Bacillus anthracis, were conducted to delineate the extent of spore reaerosolization behavior under normal indoor airflow conditions. Short-term (five air-volume exchanges), long-term (up to 21,000 air-volume exchanges), and cycled (on-off) reaerosolization tests were conducted using two common duct materials. Spores were released into the test apparatus in turbulent airflow (Reynolds number, 26,000). After the initial pulse of spores (approximately 10(10) to 10(11) viable spores) was released, high-efficiency particulate air filters were added to the air intake. Airflow was again used to perturb the spores that had previously deposited onto the duct. Resuspension rates on both steel and plastic duct materials were between 10(-3) and 10(-5) per second, which decreased to 10 times less than initial rates within 30 min. Pulsed flow caused an initial spike in spore resuspension concentration that rapidly decreased. The resuspension rates were greater than those predicted by resuspension models for contamination in the environment, a result attributed to surface roughness differences. There was no difference between spore reaerosolization from metal and that from plastic duct surfaces over 5 hours of constant airflow. The spores that deposited onto the duct remained a persistent source of contamination over a period of several hours.     

Reaerosolization of Fluidized Spores in Ventilation Systems

This project examined dry, fluidized spore reaerosolization in a heating, ventilating, and air conditioning duct system. Experiments using spores of Bacillus atrophaeus, a nonpathogenic surrogate for Bacillus anthracis, were conducted to delineate the extent of spore reaerosolization behavior under normal indoor airflow conditions. Short-term (five air-volume exchanges), long-term (up to 21,000 air-volume exchanges), and cycled (on-off) reaerosolization tests were conducted using two common duct materials. Spores were released into the test apparatus in turbulent airflow (Reynolds number, 26,000). After the initial pulse of spores (approximately 10¹⁰ to 10¹¹ viable spores) was released, high-efficiency particulate air filters were added to the air intake. Airflow was again used to perturb the spores that had previously deposited onto the duct. Resuspension rates on both steel and plastic duct materials were between 10⁻³ and 10⁻⁵ per second, which decreased to 10 times less than initial rates within 30 min. Pulsed flow caused an initial spike in spore resuspension concentration that rapidly decreased. The resuspension rates were greater than those predicted by resuspension models for contamination in the environment, a result attributed to surface roughness differences. There was no difference between spore reaerosolization from metal and that from plastic duct surfaces over 5 hours of constant airflow. The spores that deposited onto the duct remained a persistent source of contamination over a period of several hours.     

Multigeneration Cross-Contamination of Mail with Bacillus anthracis Spores

The release of biological agents, including those which could be used in biowarfare or bioterrorism in large urban areas, has been a concern for governments for nearly three decades. Previous incidents from Sverdlosk and the postal anthrax attack of 2001 have raised questions on the mechanism of spread of Bacillus anthracis spores as an aerosol or contaminant. Prior studies have demonstrated that Bacillus atrophaeus is easily transferred through simulated mail handing, but no reports have demonstrated this ability with Bacillus anthracis spores, which have morphological differences that may affect adhesion properties between spore and formite. In this study, equipment developed to simulate interactions across three generations of envelopes subjected to tumbling and mixing was used to evaluate the potential for cross-contamination of B. anthracis spores in simulated mail handling. In these experiments, we found that the potential for cross-contamination through letter tumbling from one generation to the next varied between generations while the presence of a fluidizer had no statistical impact on the transfer of material. Likewise, the presence or absence of a fluidizer had no statistically significant impact on cross-contamination levels or reaerosolization from letter opening.     

Genetic Barcodes for Improved Environmental Tracking of an Anthrax Simulant

The development of realistic risk models that predict the dissemination, dispersion and persistence of potential biothreat agents have utilized nonpathogenic surrogate organisms such as Bacillus atrophaeus subsp. globigii or commercial products such as Bacillus thuringiensis subsp. kurstaki. Comparison of results from outdoor tests under different conditions requires the use of genetically identical strains; however, the requirement for isogenic strains limits the ability to compare other desirable properties, such as the behavior in the environment of the same strain prepared using different methods. Finally, current methods do not allow long-term studies of persistence or reaerosolization in test sites where simulants are heavily used or in areas where B. thuringiensis subsp. kurstaki is applied as a biopesticide. To create a set of genetically heterogeneous yet phenotypically indistinguishable strains so that variables intrinsic to simulations (e.g., sample preparation) can be varied and the strains can be tested under otherwise identical conditions, we have developed a strategy of introducing small genetic signatures (“barcodes”) into neutral regions of the genome. The barcodes are stable over 300 generations and do not impact in vitro growth or sporulation. Each barcode contains common and specific tags that allow differentiation of marked strains from wild-type strains and from each other. Each tag is paired with specific real-time PCR assays that facilitate discrimination of barcoded strains from wild-type strains and from each other. These uniquely barcoded strains will be valuable tools for research into the environmental fate of released organisms by providing specific artificial detection signatures.     

Persistence of Bacillus thuringiensis subsp. kurstaki in Urban Environments following Spraying

Bacillus thuringiensis subsp. kurstaki is applied extensively in North America to control the gypsy moth, Lymantria dispar. Since B. thuringiensis subsp. kurstaki shares many physical and biological properties with Bacillus anthracis, it is a reasonable surrogate for biodefense studies. A key question in biodefense is how long a biothreat agent will persist in the environment. There is some information in the literature on the persistence of Bacillus anthracis in laboratories and historical testing areas and for Bacillus thuringiensis in agricultural settings, but there is no information on the persistence of Bacillus spp. in the type of environment that would be encountered in a city or on a military installation. Since it is not feasible to release B. anthracis in a developed area, the controlled release of B. thuringiensis subsp. kurstaki for pest control was used to gain insight into the potential persistence of Bacillus spp. in outdoor urban environments. Persistence was evaluated in two locations: Fairfax County, VA, and Seattle, WA. Environmental samples were collected from multiple matrices and evaluated for the presence of viable B. thuringiensis subsp. kurstaki at times ranging from less than 1 day to 4 years after spraying. Real-time PCR and culture were used for analysis. B. thuringiensis subsp. kurstaki was found to persist in urban environments for at least 4 years. It was most frequently detected in soils and less frequently detected in wipes, grass, foliage, and water. The collective results indicate that certain species of Bacillus may persist for years following their dispersal in urban environments.     

Characterization of reaerosolization from impingers in an effort to improve airborne virus sampling

Aims:  To assess the impact of reaerosolization from liquid impingement methods on airborne virus sampling.
Methods and Results:  An AGI-30 impinger containing particles [MS2 bacteriophage or 30-nm polystyrene latex (PSL)] of known concentration was operated with sterile air. Reaerosolized particles as a function of sampling flow rate and particle concentration in the impinger collection liquid were characterized using a scanning mobility particle sizer. Reaerosolization from the impinger was also compared to that from a BioSampler. Results show that reaerosolization increases as flow rate increases. While the increased particle concentration in the impinger collection liquid leads to an increase in the reaerosolization of PSL particles, it does not necessarily lead to an increase in the reaerosolization of virus particles. Reaerosolization of virus particles begins to decrease as the particle concentration in the impinger collection liquid rises above 10⁶ PFU ml⁻¹. This phenomenon results from aggregation of viral particles at high concentrations. Compared with micron-sized particles, nanosized virus particles are easier to aerosolize because of reduced inertia. Reaerosolization from the BioSampler is demonstrated to be significantly less than that from the impinger.
Conclusions:  Reaerosolization from impingement sampling methods is a mode of loss in airborne virus sampling, although it is not as significant a limitation as the primary particle size of the aerosol. Utilizing a BioSampler coupled with short sampling periods to prevent high accumulative concentrations can minimize the impact of reaerosolization.
Significance and Impact of the Study:  This study confirms reaerosolization of virus particles to be a mode of loss in impingement sampling and identifies methods to minimize the loss.     

From genome to function: systematic analysis of the soil bacterium bacillus subtilis

Bacillus subtilis is a sporulating Gram-positive bacterium that lives primarily in the soil and associated water sources. Whilst this bacterium has been studied extensively in the laboratory, relatively few studies have been undertaken to study its activity in natural environments. The publication of the B. subtilis genome sequence and subsequent systematic functional analysis programme have provided an opportunity to develop tools for analysing the role and expression of Bacillus genes in situ. In this paper we discuss analytical approaches that are being developed to relate genes to function in environments such as the rhizosphere.     

Influence of meteorological factors on the level and characteristics of culturable bacteria in the air in Gliwice,Upper Silesia (Poland)

Numerous studies have focused on occupational and indoor environments because people spend more than 90% of their time in them. Nevertheless, air is the main source of bacteria in indoors, and outdoor exposure is also crucial. Worldwide studies have indicated that bacterial concentrations vary among different types of outdoor environments, with considerable seasonal variations as well. Conducting comprehensive monitoring of atmospheric aerosol concentrations is very important not only for environmental management but also for the assessment of the health impacts of air pollution. To our knowledge, this is the first study to present outdoor and seasonal changes of bioaerosol data regarding an urban area of Poland. This study aimed to characterize culturable bacteria populations present in outdoor air in Gliwice, Upper Silesia Region, Poland, over the course of four seasons (spring, summer, autumn and winter) through quantification and identification procedures. In this study, the samples of bioaerosol were collected using a six-stage Andersen cascade impactor (with aerodynamic cut-off diameters of 7.0, 4.7, 3.3, 2.1, 1.1 and 0.65 μm). Results showed that the concentration of airborne bacteria ranged from 4 CFU m^?3, measured on one winter day, to a maximum equal to 669 CFU m^?3 on a spring day. The average size of culturable bacterial aerosol over the study period was 199 CFU m^?3. The maximal seasonally averaged concentration was found in the spring season and reached 306 CFU m^?3, and the minimal seasonally averaged concentration was found in the winter 49 CFU m^?3. The most prevalent bacteria found outdoors were gram-positive rods that form endospores. Statistically, the most important meteorological factors related to the viability of airborne bacteria were temperature and UV radiation. These results may contribute to the promotion and implementation of preventative public health programmes and the formulation of recommendations aimed at providing healthier outdoor environments.     

地衣芽胞杆菌在消化系统疾病中的应用

地衣芽胞杆菌在土壤等环境中普遍存在,体外研究显示该菌株的代谢产物可对致病菌的生长产生抑制作用。地衣芽胞杆菌活菌制剂进入肠道后可产生多种抗菌物质,并可通过生物夺氧作用改善肠道内环境,具有调节肠道微生态,改善消化道屏障功能,减轻炎症反应,增强免疫功能等作用,在肠道菌群失调相关疾病中应用前景广阔。地衣芽胞杆菌活菌制剂已广泛应用于腹泻疾病的治疗,并在炎症性肠病、某些肝病及幽门螺杆菌根除等治疗的研究中显示出其在改善肠道内环境,促进病情缓解的疗效。本文将对地衣芽胞杆菌活菌制剂及其消化系统疾病中的应用进行简要的叙述,并对该益生菌的研究方向做初步的探讨。     

Characterization of airborne bacteria at an underground subway station

The reliable detection of airborne biological threat agents depends on several factors, including the performance criteria of the detector and its operational environment. One step in improving the detector's performance is to increase our knowledge of the biological aerosol background in potential operational environments. Subway stations are enclosed public environments, which may be regarded as potential targets for incidents involving biological threat agents. In this study, the airborne bacterial community at a subway station in Norway was characterized (concentration level, diversity, and virulence- and survival-associated properties). In addition, a SASS 3100 high-volume air sampler and a matrix-assisted laser desorption ionization-time of flight mass spectrometry-based isolate screening procedure was used for these studies. The daytime level of airborne bacteria at the station was higher than the nighttime and outdoor levels, and the relative bacterial spore number was higher in outdoor air than at the station. The bacterial content, particle concentration, and size distribution were stable within each environment throughout the study (May to September 2010). The majority of the airborne bacteria belonged to the genera Bacillus, Micrococcus, and Staphylococcus, but a total of 37 different genera were identified in the air. These results suggest that anthropogenic sources are major contributors to airborne bacteria at subway stations and that such airborne communities could harbor virulence- and survival-associated properties of potential relevance for biological detection and surveillance, as well as for public health. Our findings also contribute to the development of realistic testing and evaluation schemes for biological detection/surveillance systems by providing information that can be used to mimic real-life operational airborne environments in controlled aerosol test chambers.     

Potential of laser-induced fluorescence-light detection and ranging for future stand-off virus surveillance

Viruses remain a significant public health concern worldwide. Recently, humanity has faced deadly viral infections, including Zika, Ebola and the current severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The threat is associated with the ability of the viruses to mutate frequently and adapt to different hosts. Thus, there is the need for robust detection and classification of emerging virus strains to ensure that humanity is prepared in terms of vaccine and drug developments. A point or stand-off biosensor that can detect and classify viruses from indoor and outdoor environments would be suited for viral surveillance. Light detection and ranging (LiDAR) is a facile and versatile tool that has been explored for stand-off detection in different environments including atmospheric, oceans and forest sensing. Notably, laser-induced fluorescence-light detection and ranging (LIF-LiDAR) has been used to identify MS2 bacteriophage on artificially contaminated surgical equipment or released amidst other primary biological aerosol particles in laboratory-like close chamber. It has also been shown to distinguish between different picornaviruses. Currently, the potentials of the LIF-LiDAR technology for real-time stand-off surveillance of pathogenic viruses in indoor and outdoor environments have not been assessed. Considering the increasing applications of LIF-LiDAR for potential microbial pathogens detection and classification, and the need for more robust tools for viral surveillance at safe distance, we critically evaluate the prospects and challenges of LIF-LiDAR technology for real-time stand-off detection and classification of potentially pathogenic viruses in various environments.     

A Metagenomic Framework for the Study of Airborne Microbial Communities

Understanding the microbial content of the air has important scientific, health, and economic implications. While studies have primarily characterized the taxonomic content of air samples by sequencing the 16S or 18S ribosomal RNA gene, direct analysis of the genomic content of airborne microorganisms has not been possible due to the extremely low density of biological material in airborne environments. We developed sampling and amplification methods to enable adequate DNA recovery to allow metagenomic profiling of air samples collected from indoor and outdoor environments. Air samples were collected from a large urban building, a medical center, a house, and a pier. Analyses of metagenomic data generated from these samples reveal airborne communities with a high degree of diversity and different genera abundance profiles. The identities of many of the taxonomic groups and protein families also allows for the identification of the likely sources of the sampled airborne bacteria.     

Zoo soundscape: Daily variation of low-to-high-frequency sounds

Most studies assessing the impact of noises on zoo animal welfare did not measure sound frequencies outside of the human-hearing range (infrasounds and ultrasounds). Many nonhuman mammals can hear these frequencies, and because loud and variable soundscapes are potentially detrimental for animal welfare, this overlooked aspect of their acoustic environment could have important consequences. This study evaluated the soundscape of an urban zoo in a large frequency range (17.5–90,510 Hz) by measuring its average sound levels (L_eq) and variability (the difference between highest and lowest peaks). Sound data were collected for 24 hr in 25 locations (e.g., indoor, outdoor, near the amusement park). The soundscape was not considered problematic for animal welfare when looking at the average sound levels in most locations (<77-dB sound pressure level [SPL]), except for a few indoor areas and near the water park. Ultrasounds were rare, had low average sound levels, and were less variable in time. Infrasounds were always present and were the loudest and most variable sound frequencies. The soundscape was louder and more variable during the day and when visitors were present, suggesting that human-related activities were the sources of these augmentations. Indoor environments were generally louder than outdoor environments and touristic features; however, the water park was near 85-dB SPL during the day. On the basis of results, we suggest a series of mitigation actions to minimize noise-related stress in captive animals.     

Multigeneration Cross Contamination of Mail with Bacillus Species Spores by Tumbling

In 2001, envelopes loaded with Bacillus anthracis spores were mailed to Senators Daschle and Leahy as well as to the New York Post and NBC News buildings. Additional letters may have been mailed to other news agencies because there was confirmed anthrax infection of employees at these locations. These events heightened the awareness of the lack of understanding of the mechanism(s) by which objects contaminated with a biological agent might spread disease. This understanding is crucial for the estimation of the potential for exposure to ensure the appropriate response in the event of future attacks. In this study, equipment to simulate interactions between envelopes and procedures to analyze the spread of spores from a “payload” envelope (i.e., loaded internally with a powdered spore preparation) onto neighboring envelopes were developed. Another process to determine whether an aerosol could be generated by opening contaminated envelopes was developed. Subsequent generations of contaminated envelopes originating from a single payload envelope showed a consistent two-log decrease in the number of spores transferred from one generation to the next. Opening a tertiary contaminated envelope resulted in an aerosol containing 10³ B. anthracis spores. We developed a procedure for sampling contaminated letters by a nondestructive method aimed at providing information useful for consequence management while preserving the integrity of objects contaminated during the incident and preserving evidence for law enforcement agencies.In September and October of 2001, letters containing Bacillus anthracis spores were distributed through the U.S. Postal Service (USPS), resulting in contamination of the mail processing and distribution center in Hamilton, NJ, as well as affiliated processing centers in Washington, DC, in New York City, NY, and in Wallingford, CT, as well as postal facilities along the path transited by letters mailed to a targeted media company in Florida. Subsequently, 22 individuals, including postal workers, persons who received or handled the contaminated letters, and persons exposed to environments contaminated by the letters, developed cases of anthrax, including both the inhalation and cutaneous forms of the disease (5, 18-20). Five of these cases of anthrax resulted in death (4, 7). There have been investigations into the relationships of infection and exposure in areas where known exposures occurred (1, 6, 8). However, for two of the individuals who developed inhalational anthrax, an elderly woman in Connecticut and a nurse in New York City, no B. anthracis spores were detected (based on environmental sampling) on their mail or in their homes (2, 17, 19, 20). A third individual, a bookkeeper from New Jersey, survived a cutaneous anthrax infection, and only a single positive environmental sample in her workplace was identified (19).For the three specific cases mentioned above, the authors of the corresponding studies hypothesized that infection may have resulted from exposure to mail cross contaminated by mail that went through the same sorting equipment around the time that the letters to Senators Leahy and Daschle were processed. Without evidence of B. anthracis spores in their homes and other areas they were known to have frequented and the lack of additional cases in these geographic areas, there is no way to confirm the route of their exposure. We hypothesize that these people may have been exposed by inhaling spores released from envelopes that they tore open and then discarded. The delay between exposure and disease would have been sufficient to permit the discarded items to enter into the solid waste or recycling stream, and any residual spores may have been removed by normal housekeeping activities. Alternatively, the true source of exposure may have been undetectable due to a low concentration of spores.Those cases of anthrax raise the question of what, if any, hazards may have been encountered in handling mail with secondary and tertiary contamination. These cases raise particular questions concerning the ability of disease-causing organisms to spread through cross contamination of second- and even third-generation fomites in sufficient numbers to cause infection and possible death.Following the attacks, numerous studies were conducted in the contaminated postal buildings to assess the degree of contamination and to better understand sampling methodologies. Subsequent laboratory studies have been performed to improve B. anthracis sample collection and detection (11, 16, 22, 24, 30). Programs have monitored aerosols within federal buildings, hospitals, and mail facilities (10, 15, 25, 27). Additionally, studies of mail sorting machinery and the potential of this machinery to cross contaminate mail have been done (3, 10). However, to date, no laboratory studies that examined the potential for cross contamination of mail through contact or mixing with contaminated letters have been published.Reaerosolization in general is a poorly studied phenomenon. Characterization of reaerosolization under a variety of circumstances was undertaken following the B. anthracis incidents in 2001 (21, 29). The concept of fomite-to-fomite transference of powdered pathogen residues has been even less well studied.The settling of a primary aerosol comprised of charged particles may be due at least in part to an increase in the mass of these charged particles that occurs when they interact with oppositely charged particles. Once deposited on a surface, several factors may act against reaerosolization. Charged particles that have interacted with oppositely charged particles and have effectively increased in mass may be substantially more difficult to entrain in an aerosol than the initial particles. For charged particles that have not interacted with other particles, there may be a direct electrostatic interaction between the charged particle and the surface on which it has landed which would tend to hold these particles onto the surface. Both of these effects should reduce the potential for reaerosolization.Particulate preparations have a variety of properties, such as hydrophobicity, zeta potential, particle shape, and other characteristics that may also affect the potential for reaerosolization. It would be interesting to characterize a large number of powders, to create a database of the characteristics and their potential for aerosol formation and reaerosolization of these powders, and to use this database of information for comparison of unknown powders. Knowing this information may assist in the public health and risk management decision making processes. Unfortunately, there is no comprehensive database for these characteristics, nor is there any well-accepted unifying theory for deriving the likelihood of reaerosolization from the characteristics of powders that are commonly measured. In addition, there may be unknown variables that have an impact on aerosolization or reaerosolization that become known over time with improvements in understanding the theory of aerosolization and technology for measurement of these variables. A further confounding factor would be the inability to collect this information from the actual material used in any incident. In the case of the 2001 attacks (and likely in future incidents), there was (and will likely be) little material available for such study. The material used in the attacks is inherently hazardous and must be handled in highly controlled settings. The material is therefore difficult and expensive to work with (23). Material used in an attack is also generally sequestered as evidentiary material, and information concerning preparation of a biological weapon used in an attack may be considered too sensitive for public release. This sensitivity may include unwillingness to provide access to information on the efficacy of a specific preparation method to malevolent individuals and the requirement to preserve information for use in successful identification and prosecution of the perpetrator of such an attack. However, it may be possible to collect fomites contaminated with trace amounts of the agent in the course of public health investigations. The current study details a method for dealing with these contaminated fomites to yield information useful for public health protection.A confounding factor in these cases may be the necessity to treat as much of the available bulk material as can be collected as evidence. As evidence, even small amounts of this material may not be available for scientific testing. There may also be restrictions on the handling and treatment of fomites contaminated with residual traces of biological threat agents. For instance, the owners of the fomites may value them highly and may not wish to see them destroyed in the hope that the object may be somehow decontaminated and returned or the owner may wish to prevent public disclosure of the nature or contents of a contaminated object, such as a letter. It is therefore incumbent upon researchers to develop methods that are as minimally invasive and destructive as possible to investigate the potential for fomite-to-fomite transmission.We constructed a device designed to expose uncontaminated fomites to envelopes bearing a powdered preparation of spores or to fomites that had been exposed to other fomites contaminated by the initial powder-bearing envelope. Specifically, fomites used in this study were envelopes containing a piece of paper. This device was designed to conduct the exposure in a consistent, reproducible manner and to allow investigation of the interaction and cross contamination that might be encountered between a “payload” letter (a letter that had been loaded internally with a powdered spore preparation) and other pieces of mail. Uncontaminated envelopes were tumbled with a single envelope containing a payload of milled Bacillus atrophaeus subsp. globigii spores. After tumbling three successive generations of envelopes, CFU counts from the outsides of the envelopes were taken. These estimates of spore loads on the outside of these envelopes may be compared to published human 50% lethal dose (LD₅₀) estimates for aerosolized B. anthracis spores (12, 13). An additional series of envelopes was exposed to envelopes that had been contaminated during this first round of exposures, and those envelopes were found to be externally contaminated as well. We also studied opening an envelope that had been exposed to a payload envelope with either a finger or a letter opener to determine if these activities caused an aerosolization or reaerosolization of a sufficient number of spores to pose a risk of disease through inhalation.It is difficult to balance the concerns of making information public during a public health response and providing sufficient information for information risk management decision making while at the same time preserving the evidence for use by law enforcement agencies for eventual prosecution of individuals accused of committing crimes. We identified a nondestructive procedure by which contaminated mail can be analyzed and biological material collected while still preserving evidence for law enforcement agencies, allowing the payload envelope to be used as evidence while still permitting an assessment of its biological contaminant burden.     

The high-resolution architecture and structural dynamics of Bacillus spores

The capability to image single microbial cell surfaces at nanometer scale under native conditions would profoundly impact mechanistic and structural studies of pathogenesis, immunobiology, environmental resistance, and biotransformation. Here, using in vitro atomic force microscopy, we have directly visualized high-resolution native structures of bacterial endospores, including the exosporium and spore coats of four Bacillus species in air and water environments. Our results demonstrate that the mechanisms of spore coat self-assembly are similar to those described for inorganic and macromolecular crystallization. The dimensions of individual Bacillus atrophaeus spores decrease reversibly by 12% in response to a change in the environment from fully hydrated to air-dried state, establishing that the dormant spore is a dynamic physical structure. The interspecies distributions of spore length and width were determined for four species of Bacillus spores in water and air environments. The dimensions of individual spores differ significantly depending upon species, growth regimes, and environmental conditions. These findings may be useful in the reconstruction of environmental and physiological conditions during spore formation and for modeling the inhalation and dispersal of spores. This study provides a direct insight into molecular architecture and structural variability of bacterial endospores as a function of spatial and developmental organizational scales.     

Normalizing laboratory-reared rhesus macaque (Macaca mulatta) behavior with exposure to complex outdoor enclosures

In comparison with standard laboratory settings, naturalistic environments typically provide nonhuman primates with increased visual, olfactory, and auditory stimulation and greater opportunities for exploration and manipulation. Although behavioral differences between monkeys reared in the laboratory and their feral counterparts are relatively well documented, less is known about the impact of transferring laboratory-born and -reared primates to outdoor settings. Of particular relevance is whether lab-reared primates retain the ability to respond in a species-specific manner to environments designed to mimic certain features of natural habitats and if short-term transfers have beneficial consequences. The present study compared the behavior of two groups of laboratory-born juvenile rhesus monkeys reared in an identical manner. One group was then transferred to an outdoor, apparatus-enriched corncrib adjacent to a semiwooded pasture. The other group remained indoors in a standard laboratory pen. Both groups were observed for 6 weeks prior to the transfer, during the 9-week period of transfer, and for 6 weeks after the outdoor animals were returned to their laboratory cage. During their outdoor experience, corncrib-housed subjects responded with higher locomotion and exploration scores. Animals housed in the outdoor corncrib also showed a decline in self-oral behavior which persisted even upon return to the laboratory environment. These data suggest that juvenile monkeys can benefit from brief exposure to enriched outdoor settings.     

Analysis of the genome of an alkaliphilic Bacillus strain from an industrial point of view

Bacillus species and other microbes with pH optima for growth higher than pH 9 are defined as alkaliphiles. A large number of alkaliphilic Bacillus strains producing useful enzymes, have been isolated from various environments. Some of these enzymes, such as proteases and cellulases from alkaliphilic Bacillus strains, have been commercialized and have brought great advantages to industry and domestic life. To support further development of the enzyme industry, we initiated analysis of the genome of Bacillus halodurans C-125, which is 4.25 Mb in size, and constructed a physical and genetic map for comparison with the Bacillus subtilis chromosome. Systematic sequencing of the whole genome of Bacillus halodurans C-125 has been automated since the beginning of May 1998, and sequencing of 98% of the whole genome has been done so far. Through genome analysis, it became apparent that the genome organization of alkaliphilic Bacillus halodurans C-125 is totally different from that of B. subtilis orthologues. Received: July 11, 1999 / Accepted: December 27, 1999     

Adjustments and adaptations to indoor and outdoor environments: Continuity and change in young adult rhesus monkeys

Optimal environments for captive primates are assumed to be those which simulate certain ecological features and elicit a wide range of species-typical behavior patterns. Outdoor environments are often thought to be more suitable than indoor environments in that they provide more space and potentially higher levels of stimulation. The purpose of this study was to compare the long-term behavioral responses of several groups of animals that had been reared identically during the first two years of life and then exposed to different environments. Two groups were moved into separate “enriched” indoor pens while one group was moved to an outdoor area covering approximately 5 acres. The monkeys were observed during the first year of life and again in these different environments between the ages of 6 and 10. Although behaviorally similar during the first year of life, monkeys developed different response patterns to indoor and outdoor environments. Contrary to commonly held views, indoor monkeys were not more aggressive, nor did they show higher levels of stereotypical behavior. Instead, indoor monkeys exhibited higher levels of grooming, sexual posturing, tactile/oral exploration, and passive visual behavior than their outdoor counterparts. These differences are consistent with the reconciliation model of de Waal. Individual monkeys also showed remarkable stability in certain traits over the 5-year period. © 1992 Wiley-Liss, Inc.