Abstract
A thorough and reliable assessment of changes in sea surface water temperatures (SSWTs) is essential for understanding the effects of global warming on long-term trends in marine ecosystems and their communities. The first long-term temperature measurements were established almost a century ago, especially in coastal areas, and some of them are still in operation. However, while in earlier times these measurements were done by hand every day, current environmental long-term observation stations (ELTOS) are often fully automated and integrated in cabled underwater observatories (UWOs). With this new technology, year-round measurements became feasible even in remote or difficult to access areas, such as coastal areas of the Arctic Ocean in winter, where measurements were almost impossible just a decade ago. In this context, there is a question over what extent the sampling frequency and accuracy influence results in long-term monitoring approaches. In this paper, we address this with a combination of lab experiments on sensor accuracy and precision and a simulated sampling program with different sampling frequencies based on a continuous water temperature dataset from Svalbard, Arctic, from 2012 to 2017. Our laboratory experiments showed that temperature measurements with 12 different temperature sensor types at different price ranges all provided measurements accurate enough to resolve temperature changes over years on a level discussed in the literature when addressing climate change effects in coastal waters. However, the experiments also revealed that some sensors are more suitable for measuring absolute temperature changes over time, while others are more suitable for determining relative temperature changes. Our simulated sampling program in Svalbard coastal waters over 5 years revealed that the selection of a proper sampling frequency is most relevant for discriminating significant long-term temperature changes from random daily, seasonal, or interannual fluctuations. While hourly and daily sampling could deliver reliable, stable, and comparable results concerning temperature increases over time, weekly sampling was less able to reliably detect overall significant trends. With even lower sampling frequencies (monthly sampling), no significant temperature trend over time could be detected. Although the results were obtained for a specific site, they are transferable to other aquatic research questions and non-polar regions.
Highlights
Measuring changes in water temperature over time is important for assessing climate change impacts
In addition to evaluating the comparability of the tested sensors with respect to sensor accuracy and precision, we evaluated whether specific sensors may be more appropriate for scientific tasks based on measurement characteristics
While task (1) has less strict requirements regarding the accuracy of the measurements, task (2) requires a high precision of the temperature measurements
Summary
Measuring changes in water temperature over time is important for assessing climate change impacts. The importance of in situ sensors instead of sea surface measurements derived by satellite and/or model-generated data for coastal regions has been stressed by Smit and Schlegel (2016) They pointed out that remotely sensed gridded sea surface temperature data in coastal waters normally do not approach a sufficient resolution to monitor short-term local changes in temperature as those patterns can be highly dynamic and significantly affected by varying levels of water exchange in lagoons resulting in varying patterns in eutrophication, sedimentation and turbidity. The precision of gridded data is often too low for climate-quality data to reveal longer-term trends
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