Q. Zhou Et Al. , "Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale," Science of the Total Environment , vol.834, 2022
Zhou, Q. Et Al. 2022. Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale. Science of the Total Environment , vol.834 .
Zhou, Q., Zhang, Y., Tao, J., Ye, L., Wang, H., Shan, K., ... Jeppesen, E.(2022). Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale. Science of the Total Environment , vol.834.
Zhou, Qichao Et Al. "Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale," Science of the Total Environment , vol.834, 2022
Zhou, Qichao Et Al. "Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale." Science of the Total Environment , vol.834, 2022
Zhou, Q. Et Al. (2022) . "Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale." Science of the Total Environment , vol.834.
@article{article, author={Qichao Zhou Et Al. }, title={Water depth and land-use intensity indirectly determine phytoplankton functional diversity and further regulate resource use efficiency at a multi-lake scale}, journal={Science of the Total Environment}, year=2022}