Temperature and hydroxyl radical abundance limit the photochemical degradation kinetics and photoproducts of fluridone in high-latitude aquatic systems

Temperature is often overlooked as an environmental driver of aquatic pollutant photodegradation kinetics; however, it may strongly impact contaminant persistence in polar climates characterized by low summertime temperatures and near-continuous sunlight. The photochemical degradation of fluridone (...

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Bibliographic Details
Main Authors:	DiMento, Brian, Hillestad, Isabel, Sommer, Julie, Pavia, Aidan, Smith, Niquelina, Tomco, Patrick, Redman, Zachary
Format:	Other/Unknown Material
Language:	unknown
Published:	American Chemical Society (ACS) 2024
Subjects:	Arctic Fenton
Online Access:	http://dx.doi.org/10.26434/chemrxiv-2024-5mpgz https://chemrxiv.org/engage/api-gateway/chemrxiv/assets/orp/resource/item/66d25d0af3f4b05290acfd75/original/temperature-and-hydroxyl-radical-abundance-limit-the-photochemical-degradation-kinetics-and-photoproducts-of-fluridone-in-high-latitude-aquatic-systems.pdf

Temperature and hydroxyl radical abundance limit the photochemical degradation kinetics and photoproducts of fluridone in high-latitude aquatic systems

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