Can rainwater induce Fenton-driven degradation of herbicides in natural waters? (2013)
Journal Article
Qin, J., Li, H., Lin, C., & Chen, G. (2013). Can rainwater induce Fenton-driven degradation of herbicides in natural waters?. Chemosphere, 1048-1052. https://doi.org/10.1016/j.chemosphere.2013.03.003

Microcosm experiments were conducted to examine Fenton reaction-driven degradation of three common herbicides exposed to a variety of Fe2+–H2O2 combinations that are likely to be encountered in natural water environments. The results show that thes... Read More about Can rainwater induce Fenton-driven degradation of herbicides in natural waters?.

Physiological, biochemical and growth responses of Italian ryegrass to butachlor exposure (2013)
Journal Article
Wang, S., Li, H., & Lin, C. (2013). Physiological, biochemical and growth responses of Italian ryegrass to butachlor exposure. Pesticide Biochemistry and Physiology, 106(1-2), 21-27. https://doi.org/10.1016/j.pestbp.2013.03.007

A dose–response experiment was conducted to examine the effects of butachlor on the growth, physiology and biochemistry of Italian ryegrass. The plant suffered a >50% reduction in fresh biomass when exposed to a butachlor dose of 5 mg L�1. However,... Read More about Physiological, biochemical and growth responses of Italian ryegrass to butachlor exposure.

Microbial oxidation of Fe21 and pyrite exposed to flux of micromolar H2O2 in acidic media (2013)
Journal Article
Ma, Y., & Lin, C. (2013). Microbial oxidation of Fe21 and pyrite exposed to flux of micromolar H2O2 in acidic media. Scientific reports, 3(1979), 1-10. https://doi.org/10.1038/srep01979

At an initial pH of 2, while abiotic oxidation of aqueous Fe21 was enhanced by a flux of H2O2 at micromolar concentrations, bio-oxidation of aqueous Fe21 could be impeded due to oxidative stress/damage in Acidithiobacillus ferrooxidans caused by Fe... Read More about Microbial oxidation of Fe21 and pyrite exposed to flux of micromolar H2O2 in acidic media.