Climate change-induced increases in precipitation are reducing the potential for solar ultraviolet radiation to inactivate pathogens in surface waters
Journal Article
Overview
publication date
- October 12, 2017
has subject area
- Climate Change
- Climatic Processes - Rain
- Disease Outbreaks
- Ecological and Environmental Phenomena - Lakes
- Ecological and Environmental Phenomena - Rain
- Ecological and Environmental Phenomena - Rain
- Ecological and Environmental Phenomena - Rivers
- Ecological and Environmental Phenomena - Seasons
- Ecological and Environmental Phenomena - Ultraviolet Rays
- Ecological and Environmental Phenomena - Ultraviolet Rays
- Electromagnetic Phenomena - Ultraviolet Rays
- Environment and Public Health - Lakes
- Environment and Public Health - Rain
- Environment and Public Health - Rain
- Environment and Public Health - Rivers
- Environment and Public Health - Seasons
- Environment and Public Health - Ultraviolet Rays
- Environment and Public Health - Water Microbiology
- Geological Phenomena - Lakes
- Geological Phenomena - Rivers
- Humans
- Microbiology - Water Microbiology
- Models, Theoretical
- Optical Phenomena - Ultraviolet Rays
- Organic Chemicals
- Radiation - Solar Energy
- Radiation - Ultraviolet Rays
- Radiation, Ionizing - Ultraviolet Rays
- Radiation, Nonionizing - Ultraviolet Rays
- Renewable Energy - Solar Energy
- Surface Properties
- Time - Seasons
has restriction
- gold
Date in CU Experts
- October 27, 2017 2:11 AM
Full Author List
- Williamson CE; Madronich S; Lal A; Zepp RG; Lucas RM; Overholt EP; Rose KC; Schladow SG; Lee-Taylor J
author count
- 9
citation count
- 45
published in
- Scientific Reports Journal
Other Profiles
International Standard Serial Number (ISSN)
- 2045-2322
Digital Object Identifier (DOI)
Additional Document Info
volume
- 7
number
- ARTN 13033