J. Wang Et Al. , "Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions," GLOBAL CHANGE BIOLOGY , vol.29, no.1, pp.1-4, 2023
Wang, J. Et Al. 2023. Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions. GLOBAL CHANGE BIOLOGY , vol.29, no.1 , 1-4.
Wang, J., Zhou, Y., Zhou, L., Zhang, Y., Qin, B., Spencer, R. G. M., ... Brookes, J. D.(2023). Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions. GLOBAL CHANGE BIOLOGY , vol.29, no.1, 1-4.
Wang, Jinling Et Al. "Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions," GLOBAL CHANGE BIOLOGY , vol.29, no.1, 1-4, 2023
Wang, Jinling Et Al. "Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions." GLOBAL CHANGE BIOLOGY , vol.29, no.1, pp.1-4, 2023
Wang, J. Et Al. (2023) . "Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions." GLOBAL CHANGE BIOLOGY , vol.29, no.1, pp.1-4.
@article{article, author={Jinling Wang Et Al. }, title={Urbanization in developing countries overrides catchment productivity in fueling inland water CO2 emissions}, journal={GLOBAL CHANGE BIOLOGY}, year=2023, pages={1-4} }