A collaborative paper published in Water Research

A collaborative paper is published in Water Research. It is a collaborative work between SDSU and Chinese Academy of Science. Congratulations to Hongtao who has been visiting the EMAIL lab during Sep 2017 – Jan 2018. In this study we found the Lake Taihu as a significant CO2 source during 2000-2015.

Inland lakes receive growing attentions on eutrophication and their roles in global carbon cycle. However, understanding how inland lakes contribute to global carbon cycle is seriously hampered due to a shortage of long-term records. This study investigated the carbon dioxide (CO₂) flux from the Lake Taihu, a large (2400 km²) and shallow (mean depth 1.9 m) eutrophic lake in subtropical region, based on a long-term (2000–2015) measurement of the partial pressure of carbon dioxide (pCO₂) at high spatiotemporal resolution. We found that the Lake Taihu was a significant source of atmospheric CO₂ with an average CO₂ emission flux at 18.2 ± 8.4 mmol m⁻² d⁻¹ (mean±1standard deviation) and a mean annual pCO₂ value of 778 ± 169 μatm. The highest pCO₂ and CO₂ flux were observed in eutrophic zone with a high external input of carbon and nutrient, and the lowest in non-eutrophic zones with no direct external input of nutrient and carbon. A substantial seasonal pattern in pCO₂ was observed, particularly in eutrophic pelagic area, and was significantly negatively correlated with chlorophyll a. Long-term measurement showed the interannual variation in annual lake CO₂ dynamics, which was highly sensitive to human-induced nutrient input. Watershed input of carbon and nutrient leads to the high CO₂ level, counterbalancing the in-lake primary production. All lines of evidence suggest that human activities may have predominate contribution to CO₂ source in the Lake Taihu, and this mechanism might be widespread in global freshwater lakes.

https://www.sciencedirect.com/science/article/pii/S0043135419311054