Y. Li Et Al. , "Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir," Environmental Science and Technology , vol.56, no.22, pp.16494-16505, 2022
Li, Y. Et Al. 2022. Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir. Environmental Science and Technology , vol.56, no.22 , 16494-16505.
Li, Y., Zhou, Y., Zhou, L., Zhang, Y., Xu, H., Jang, K., ... Kothawala, D. N.(2022). Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir. Environmental Science and Technology , vol.56, no.22, 16494-16505.
Li, Yuyang Et Al. "Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir," Environmental Science and Technology , vol.56, no.22, 16494-16505, 2022
Li, Yuyang Et Al. "Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir." Environmental Science and Technology , vol.56, no.22, pp.16494-16505, 2022
Li, Y. Et Al. (2022) . "Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir." Environmental Science and Technology , vol.56, no.22, pp.16494-16505.
@article{article, author={Yuyang Li Et Al. }, title={Changes in Water Chemistry Associated with Rainstorm Events Increase Carbon Emissions from the Inflowing River Mouth of a Major Drinking Water Reservoir}, journal={Environmental Science and Technology}, year=2022, pages={16494-16505} }