Active projects:
AEM001: Study on the impact of microbial aerosols on aircraft cabin air quality.
AEM002: Research into airborne transmission of pathogens in hospital environments.
AEM003: Investigation of microbial communities in high-altitude atmospheres.
AEM004: Analysis of microbial contamination in space stations.
AEM005: Assessment of airborne microbial diversity in urban vs. rural areas.
AEM006: Examination of the role of bioaerosols in agricultural settings.
AEM007: Monitoring microbial populations in air transportation systems.
AEM008: Exploration of airborne microbial dispersal in extreme environments.
AEM009: Investigation into the role of bioaerosols in allergic reactions and respiratory diseases.
AEM0010: Research on the impact of airborne microbes on sensitive ecosystems.
AEM0011: Study of microbial transmission through air filtration systems.
AEM0012: Analysis of microbial survival and viability in different atmospheric conditions.
AEM0013: Exploration of aeromicrobiology s implications for biodefense and biosecurity.
AEM0014: Assessment of airborne microbial communities in indoor environments.
AEM0015: Monitoring of microbial dispersion in relation to air pollution levels.
AEM0016: Investigation of microbial transmission via air currents in hospital settings.
AEM0017: Research on the efficacy of various disinfection methods on airborne pathogens.
AEM0018: Study on the relationship between airborne microbial diversity and climatic factors.
AEM0019: Analysis of the role of aerosolized microbes in the degradation of air quality.
AEM0020: Exploration of airborne microbial communities in densely populated urban areas.
AEM0021: Monitoring of aeromicrobes in relation to environmental changes and pollution.
AEM0022: Research on the impact of aeromicrobes on respiratory health in occupational settings.
AEM0023: Examination of airborne microbial dynamics during natural disasters.
AEM0024: Investigation into the airborne transmission of fungal spores and their impact on human health.
AEM0025: Analysis of airborne microbial populations in agricultural and farming environments.
AEM0026: Investigation into the impact of aeromicrobes on building material degradation.
AEM0027: Research on the transmission of airborne pathogens in public transportation systems.
AEM0028: Study of the seasonal variability of airborne microbial communities.
AEM0029: Analysis of aeromicrobes in indoor recreational spaces (e.g., gyms, cinemas).
AEM0030: Monitoring of aeromicrobial changes in response to changes in land use and urban development.
Challenges in Aeromicrobiology:
AEM001: Understanding the dynamics of microbial communities in airborne particles.
AEM002: Developing accurate methods for detecting and characterizing airborne microbes.
AEM003: Assessing the health implications of inhaling diverse microbial species.
AEM004: Establishing standardized protocols for aeromicrobial sampling and analysis.
AEM005: Identifying sources and transmission routes of pathogenic aerosols.
AEM006: Mitigating the spread of antibiotic-resistant microbes via air.
AEM007: Exploring the impact of climate change on aeromicrobial dispersal.
AEM008: Developing strategies to control and minimize airborne microbial contamination.
AEM009: Developing effective methods for aeromicrobial decontamination.
AEM0010: Understanding the role of airborne microbes in the spread of infectious diseases.
AEM0011: Investigating the relationship between airborne microbial diversity and climate.
AEM0012: Establishing guidelines for managing aeromicrobial risks in healthcare facilities.
AEM0013: Identifying and classifying novel or previously unrecognized airborne microbes.
AEM0014: Exploring the impact of air travel on the global distribution of aeromicrobes.
AEM0015: Developing strategies to prevent the dissemination of harmful airborne microbes.
AEM0016: Understanding the persistence and survival of airborne pathogens in various environments.
AEM0017: Developing rapid and accurate detection methods for diverse aeromicrobes.
AEM0018: Establishing guidelines for controlling and minimizing aeromicrobial contamination in closed environments.
AEM0019: Assessing the role of airborne microbes in the spread of antibiotic resistance genes.
AEM0020: Identifying the impact of aerosolized microbial communities on ecosystem dynamics.
AEM0021: Investigating the effects of airborne microbial exposure on immune system modulation.
AEM0022: Developing strategies for preventing the dissemination of harmful aeromicrobes during travel.
AEM0023: Understanding the interactions between aeromicrobes and air pollutants.
AEM0024: Studying the link between aeromicrobes and respiratory diseases in vulnerable populations.
AEM0025: Assessing the potential for engineered aerosolized microbes in various industrial applications.
AEM0026: Developing strategies to mitigate the spread of aeromicrobes in densely populated areas.
AEM0027: Understanding the role of aeromicrobes in exacerbating allergic reactions and asthma.
AEM0028: Identifying the impact of aerosolized microbes on agricultural crop yields.
AEM0029: Investigating the effectiveness of air filtration systems in removing harmful aeromicrobes.
AEM0030: Establishing international protocols for monitoring and managing transboundary aeromicrobial transmission.
Note: NTHRYS currently operates through three registered entities: NTHRYS BIOTECH LABS (NBL), NTHRYS OPC PVT LTD (NOPC), and NTHRYS Project Greenshield (NPGS).