Publication Details

Category Text Publication
Reference Category Journals
DOI 10.3389/fevo.2023.1119840
Licence creative commons licence
Title (Primary) Synergistic effects of climate warming and atmospheric nutrient deposition on the alpine lake ecosystem in the south-eastern Tibetan Plateau during the Anthropocene
Author Zhang, C.; Kong, X.; Xue, B.; Zhao, C.; Yang, X.; Cheng, L.; Lin, Q.; Zhang, K.; Shen, J.
Source Titel Frontiers in Ecology and Evolution
Year 2023
Department SEEFO
Volume 11
Page From art. 1119840
Language englisch
Topic T5 Future Landscapes
Supplements https://ndownloader.figstatic.com/files/38931056
Keywords lacustrine ecosystem; climate warming; atmospheric deposition; paleolimnology; ecosystem modeling
Abstract Alpine lakes on the Tibetan Plateau are highly sensitive to global change and have been recognized as the sentinel of climate warming. However, anthropogenic impacts in populated area are migrating to these remote areas via transporting particulate nutrients by atmospheric deposition. Whether warming and nutrient deposition would impose additive or synergistic effects on the lake ecosystem remains largely unknown. Here, we present multi-proxy (sediment pigment and geochemistry) records during the past two centuries at the Cuoqia Lake in the southeast Tibetan Plateau. We found that the lake exhibited rapid ecological changes since 1980 AD characterized by an increase in primary productivity due to algal proliferation, with more rapid growth of green algae and diatoms. These findings are in concert with many other lakes (e.g., Moon Lake and Shade Co) in the same area, suggesting a consistent pattern of ecosystem evolution at the region scale. Statistical analyses suggested that nutrient deposition and climate warming were strongly associated with the variations in primary productivity and algae composition, exerting both individual and interactive effects. In addition, scenario analyses with a well-established process-based ecosystem model further revealed that the two factors not only individually, but also synergistically promoted the algal proliferation and community succession. Such synergy is evident in that the effect of lake warming would be more pronounced under higher nutrient deposition scenario, which is potentially due to higher temperature-driven mineralization in warmer conditions, and higher efficiency of nutrient utilization under enhanced light availability attributing to declining ice thickness and duration in cold seasons. Overall, our study proposes the existence and quantifies the synergistic impacts of climate warming and anthropogenic activities in driving the ecological changes in remote alpine lakes on the Tibetan Plateau. The lake ecological consequences driven by individual factor would be worsen by such synergy, so that we cannot predict the lake ecosystem trajectory in the future based on each factor separately, and more efforts than previously expected would be needed for the lake restoration and management.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=24406
Zhang, C., Kong, X., Xue, B., Zhao, C., Yang, X., Cheng, L., Lin, Q., Zhang, K., Shen, J. (2023):
Synergistic effects of climate warming and atmospheric nutrient deposition on the alpine lake ecosystem in the south-eastern Tibetan Plateau during the Anthropocene
Front. Ecol. Evol. 11 , art. 1119840 10.3389/fevo.2023.1119840