Y. Zhao Et Al. , "Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology," Freshwater Biology , vol.69, no.12, pp.1842-1856, 2024
Zhao, Y. Et Al. 2024. Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology. Freshwater Biology , vol.69, no.12 , 1842-1856.
Zhao, Y., Wang, R., Jeppesen, E., & Zhang, E., (2024). Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology. Freshwater Biology , vol.69, no.12, 1842-1856.
Zhao, Yu Et Al. "Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology," Freshwater Biology , vol.69, no.12, 1842-1856, 2024
Zhao, Yu Et Al. "Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology." Freshwater Biology , vol.69, no.12, pp.1842-1856, 2024
Zhao, Y. Et Al. (2024) . "Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology." Freshwater Biology , vol.69, no.12, pp.1842-1856.
@article{article, author={Yu Zhao Et Al. }, title={Submerged macrophytes can counterbalance the negative effects of rising temperature and eutrophication by inhibiting the photosynthetic activity of cyanobacteria and adjusting their morphology and physiology}, journal={Freshwater Biology}, year=2024, pages={1842-1856} }