Tides may be responsible for up to 69% of under-ice melting in an Antarctica ice shelf
The team published their findings on August 15 in Ocean-Land-Atmosphere Research.
“Tides play a key role in regulating the circulation and water properties around Antarctica, yet tidal currents and the corresponding influences in Prydz Bay have not been quantified with observational data sets,” said corresponding author Zhaomin Wang, professor in the Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) in China. “The Amery Ice Shelf Oceanographic Research experiment and the Chinese Antarctic Expedition provide long-term hydrography observations of 10 moorings over the continental shelf and six borehole sites drilled through the Amery Ice Shelf.”
The moorings are anchored to the sea floor of Prydz Bay. Measurements from the moorings and the boreholes allowed researchers to observe the characteristics of tidal currents in the bay. They used these observations to inform two numerical modeling analyses to quantify the tidal contributions to the shelf’s basal melting. However, Wang noted, the observations did not include significant long-term information about velocity, so they employed simulated velocity in the sub-ice-shelf cavity from the models , which may have skewed the tidal currents’ true contribution to basal melting.
Despite Prydz Bay being the third largest bay around the Antarctic, the rise and fall of its tides — the tidal currents — are much weaker than those of the two larger bays, with an average magnitude of only three centimeters per second.
“Such weak tidal currents are not expected to play an important role in regulating the circulation and hydrographic properties in Prydz Bay,” Chengyan Liu, the first author said. “However, the observed maximum tidal velocity of about 11 centimeters per second occurs at the Amery Ice Shelf's front, and the maximal time-average tidal kinetic energy — the intensity with which tides rise and fall — reaches about 31% of the total kinetic energy over the outer continental shelf.”
And, at the borehole sites, Liu added, a tide-like temperature pulsing was identified in the ocean layer adjacent to the Amery Ice Shelf’s basal surface. Taken together, these variables allowed the researchers to estimate the maximal tidal contribution to the shelf's basal melting at 69%.
“Since there are no long-term velocity observations in the sub-ice-shelf cavity, the tide-induced melting in this study may be overestimated due to the uncertainties in the modelling results,” Liu said. “Our understanding of the AIS basal mass balance could benefit from more long-term observations and advanced numerical models. However, this study still provides the benchmark validation for sensitivity experiments and open boundary constraints in future modelling studies focused on Prydz Bay.”
According to Wang, the researchers will continue to collect more long-term observations in the bay to inform their understanding of how much tidal currents contribute to basal melting for the Amery Ice Shelf.
Co-authors from Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) include Chengyan Liu, Xiang Li, Chen Cheng, Yang Wu and Yu Liu. Other collaborators include Xiaojun Yuan, Lamont-Doherty Earth Observatory at Columbia University; and Xiaoyong Yu, Binjiang College, Nanjing University of Information Science and Technology. Wu is also affiliated with the School of Information Engineering at Nanjing Xiaozhuang University, and Yu Liu is also affiliated with the Marine Science and Technology College at Zhejiang Ocean University.
The Independent Research Foundation of Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai), the China National Natural Science Foundation, the U.S. National Science Foundation, the Ocean Public Welfare Scientific Research Project, the Chinese Polar Environment Comprehensive Investigation & Assessment Program, the Natural Science Foundation of Jiangsu Province, and the Innovation Group Project of Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) supported this work.
JOURNAL
Ocean-Land-Atmosphere Research
METHOD OF RESEARCH
Observational study
SUBJECT OF RESEARCH
Not applicable
ARTICLE TITLE
Observed Tidal Currents in Prydz Bay and Their Contribution to the Amery Ice Shelf Basal Melting
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