Gao, Z.; Li, Q.; Liu, S.; Lu, D.; Cui, D.; Jin, X.; Qin, H.; Huang, Z.; Zubelzu, S.
Microbial Enzyme Activities Outperform Conventional Indicators in Revealing Systematic Patterns of Dissolved Organic Matter-Driven Microbial Changes Across a Human-Impacted Lake Network. Water 2026, 18, 1675.
https://doi.org/10.3390/w18141675
AMA Style
Gao Z, Li Q, Liu S, Lu D, Cui D, Jin X, Qin H, Huang Z, Zubelzu S.
Microbial Enzyme Activities Outperform Conventional Indicators in Revealing Systematic Patterns of Dissolved Organic Matter-Driven Microbial Changes Across a Human-Impacted Lake Network. Water. 2026; 18(14):1675.
https://doi.org/10.3390/w18141675
Chicago/Turabian Style
Gao, Zhuofan, Quanhong Li, Shuli Liu, Dan Lu, Dongdong Cui, Xincheng Jin, He Qin, Zhuo Huang, and Sergio Zubelzu.
2026. "Microbial Enzyme Activities Outperform Conventional Indicators in Revealing Systematic Patterns of Dissolved Organic Matter-Driven Microbial Changes Across a Human-Impacted Lake Network" Water 18, no. 14: 1675.
https://doi.org/10.3390/w18141675
APA Style
Gao, Z., Li, Q., Liu, S., Lu, D., Cui, D., Jin, X., Qin, H., Huang, Z., & Zubelzu, S.
(2026). Microbial Enzyme Activities Outperform Conventional Indicators in Revealing Systematic Patterns of Dissolved Organic Matter-Driven Microbial Changes Across a Human-Impacted Lake Network. Water, 18(14), 1675.
https://doi.org/10.3390/w18141675