Y. Tang Et Al. , "Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna," Oecologia , vol.203, no.3-4, pp.467-476, 2023
Tang, Y. Et Al. 2023. Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna. Oecologia , vol.203, no.3-4 , 467-476.
Tang, Y., Su, L., Liang, S., Liu, S., Liu, Z., & Jeppesen, E., (2023). Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna. Oecologia , vol.203, no.3-4, 467-476.
Tang, Yali Et Al. "Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna," Oecologia , vol.203, no.3-4, 467-476, 2023
Tang, Yali Et Al. "Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna." Oecologia , vol.203, no.3-4, pp.467-476, 2023
Tang, Y. Et Al. (2023) . "Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna." Oecologia , vol.203, no.3-4, pp.467-476.
@article{article, author={Yali Tang Et Al. }, title={Food quality upgrade of carbon from submerged macrophytes by flagellates via a heterotrophic pathway can stimulate growth of Daphnia magna}, journal={Oecologia}, year=2023, pages={467-476} }