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Exposure Pathways of Nontuberculous Mycobacteria Through Soil, Streams, and Groundwater, Hawai'i, USA

Authors :
Leeza Brown
Michael J. Strong
Grant J. Norton
Schuyler Robinson
Stephen T. Nelson
Edward D. Chan
Jennifer R. Honda
Nabeeh A. Hasan
Stephanie N. Dawrs
Kevin A. Rey
Ravleen Virdi
L. Elaine Epperson
Norm Jones
Source :
GeoHealth, GeoHealth, Vol 5, Iss 4, Pp n/a-n/a (2021)
Publication Year :
2021
Publisher :
American Geophysical Union (AGU), 2021.

Abstract

Although uncommon, nontuberculous mycobacterial (NTM) pulmonary infection in the Hawaiian Islands has a relatively high incidence and mortality compared to the mainland U.S. As a result, this study examines the possible geological and hydrological pathways by which NTM patients may become infected, including the environmental conditions that may favor growth and transport. Previously suggested infection routes include the inhalation of NTM attached to micro‐droplets from infected home plumbing systems and aerosolized dust from garden soil. In this study, we evaluate the possible routes NTM may take from riparian environments, into groundwater, into public water supplies and then into homes. Because NTM are notoriously hydrophobic and prone to attach to surfaces, mineralogy, and surface chemistry of suspended sediment in streams, soils, and rock scrapings suggest that NTM may especially attach to Fe‐oxides/hydroxides, and be transported as particles from losing streams to the aquifer on time‐scales of minutes to days. Within the aquifer, flow models indicate that water may be drawn into production wells on time scales (months) that permit NTM to survive and enter domestic water supplies. These processes depend on the presence of interconnected fracture networks with sufficient aperture to preclude complete autofiltration. The common occurrence of NTM in and around streams, in addition to wells, implies that the natural and built environments are capable of introducing a source of NTM into domestic water supplies via groundwater withdrawals. This may produce a persistent source of NTM infection to individuals through the presence of NTM‐laden biofilms in home plumbing.<br />Key Points Nontuberculous mycobacterial (NTM) are found in soils and biofilms of riparian environments in Hawai'iNTM are likely transported from losing streams to aquifersPumped wells draw NTM into culinary water supplies and into homes. NTM are chlorine resistant and outcompete other taxa in home plumbing

Subjects

Subjects :
Epidemiology
Biogeosciences
Volcanic Effects
mycobacterium
Global Change from Geodesy
Volcanic Hazards and Risks
Oceans
Sea Level Change
Disaster Risk Analysis and Assessment
Waste Management and Disposal
Water Science and Technology
Global and Planetary Change
geography.geographical_feature_category
Losing stream
Climate and Interannual Variability
surface water
Pollution
Climate Impact
Earthquake Ground Motions and Engineering Seismology
Explosive Volcanism
Earth System Modeling
Atmospheric Processes
Ocean Monitoring with Geodetic Techniques
Ocean/Atmosphere Interactions
Atmospheric
Regional Modeling
Atmospheric Effects
Volcanology
Aquifer
Management, Monitoring, Policy and Law
Hydrological Cycles and Budgets
Decadal Ocean Variability
Land/Atmosphere Interactions
TD169-171.8
Geodesy and Gravity
Global Change
Air/Sea Interactions
Numerical Modeling
Solid Earth
Riparian zone
Geological
Ocean/Earth/atmosphere/hydrosphere/cryosphere interactions
Water Cycles
Modeling
Public Health, Environmental and Occupational Health
Avalanches
Volcano Seismology
bacterial infections and mycoses
Benefit‐cost Analysis
groundwater model
Nontuberculous mycobacteria
Computational Geophysics
Regional Climate Change
Surface water
Natural Hazards
Abrupt/Rapid Climate Change
Informatics
Health, Toxicology and Mutagenesis
Surface Waves and Tides
Atmospheric Composition and Structure
Environmental protection
Volcano Monitoring
Seismology
Climatology
losing stream
biology
Radio Oceanography
Gravity and Isostasy
Microbe/Mineral Interactions
Marine Geology and Geophysics
Geomicrobiology
Physical Modeling
Oceanography: General
Cryosphere
Impacts of Global Change
Oceanography: Physical
Research Article
Risk
Oceanic
Theoretical Modeling
STREAMS
Radio Science
Tsunamis and Storm Surges
Paleoceanography
Climate Dynamics
Numerical Solutions
Climate Change and Variability
Hydrology
geography
Effusive Volcanism
Climate Variability
General Circulation
Policy Sciences
Climate Impacts
biology.organism_classification
Mud Volcanism
Air/Sea Constituent Fluxes
Mass Balance
Ocean influence of Earth rotation
Ground water
Volcano/Climate Interactions
Sea Level: Variations and Mean
Groundwater model
Groundwater

Details

ISSN :
24711403
Volume :
5
Database :
OpenAIRE
Journal :
GeoHealth
Accession number :
edsair.doi.dedup.....803c5154f52b115335b693dc3759bf18
Full Text :
https://doi.org/10.1029/2020gh000350