New Approach to Correct Systematic Errors in Bottle Data of Ocean Temperature
Correcting these errors could have significant impacts on estimations of warming rates of the worlds oceans
In the 20th century, oceanographers mainly used two different ocean-water samplers to determine the essential physical properties of seawater: Nansen bottle, made of metal with thermometers attached to record the temperature and pressure of the sample site, and the electronic temperature profiler, or CTD—an acronym for conductivity, temperature, and depth.
Though a high degree of consistency between the Nansen cast and CTD data was confirmed on general, a systematic sample depth overestimation was detected for Nansen cast temperature profiles.
Recently, Lijing Cheng and Viktor Gouretski from the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences (CAS) and Tim Boyer from the National Centers for Environmental Information, for the first time, described the results of the global inter-comparison between the collocated Nansen cast and CTD temperature profiles.
The study was published in Journal of Atmospheric and Oceanic Technology.
The origin of this depth bias is related to the method of sample depth estimation. For CTD profiles, sample depth is estimated from the high precision pressure sensor, whereas the sample depth for a considerable part of Nansen cast profiles is given by the length of the wire put out.
"The shape of the wire in the water is not known and the wire usually deviates from the vertical position, so that temperature is actually measured at a shallower level compared to the target sample depth," said Gouretski.
"Correcting Nansen cast sample depth has a significant impact on the estimates of the warming rate of the World Ocean," said Lijing. "We hope this correction method can help achieve better understanding of ocean warming."
- This press release was originally published on the Institute of Atmospheric Physics, Chinese Academy of Sciences website