Abstract
The coastal ocean is one of the most important environments on our planet, home to some of the most bio-diverse and productive ecosystems and providing key input to the livelihood of the majority of human society. It is also a highly dynamic and sensitive environment, particularly susceptible to damage from anthropogenic influences such as pollution and over-exploitation as well as the effects of climate change. These have the added potential to exacerbate other anthropogenic effects and the recent change in sea temperature can be considered as the most pervasive and severe cause of impact in coastal ecosystems worldwide. In addition to open ocean measurements, satellite observations of sea surface temperature (SST) have the potential to provide accurate synoptic coverage of this essential climate variable for the near-shore coastal ocean. However, this potential has not been fully realized, mainly because of a lack of reliable in situ validation data, and the contamination of near-shore measurements by the land. The underwater biotechnological park of Crete (UBPC) has been taking near surface temperature readings autonomously since 2014. Therefore, this study investigated the potential for this infrastructure to be used to validate SST measurements of the near-shore coastal ocean. A comparison between in situ data and Moderate Resolution Imaging Spectroradiometer (MODIS) Aqua and Terra SST data is presented for a four year (2014–2018) in situ time series recorded from the UBPC. For matchups between in situ and satellite SST data, only nighttime in situ extrapolated to the sea surface (SSTskin) data within ±1 h from the satellite’s overpass are selected and averaged. A close correlation between the in situ data and the MODIS SST was found (squared Pearson correlation coefficient-r2 > 0.9689, mean absolute error-Δ < 0.51 both for Aqua and Terra products). Moreover, close correlation was found between the satellite data and their adjacent satellite pixel’s data further from the shore (r2 > 0.9945, Δ < 0.23 for both Aqua and Terra products, daytime and nighttime satellite SST). However, there was also a consistent positive systematic difference in the satellite against satellite mean biases indicating a thermal adjacency effect from the land (e.g., mean bias between daytime Aqua satellite SST from the UBPC cell minus the respective adjacent cell’s data is δ = 0.02). Nevertheless, if improvements are made in the in situ sensors and their calibration and uncertainty evaluation, these initial results indicate that near-shore autonomous coastal underwater temperature arrays, such as the one at UBPC, could in the future provide valuable in situ data for the validation of satellite coastal SST measurements.
Highlights
The coastal zone has had a key-role since antiquity in every human activity
Since the two instruments were deployed at nearly the same depth (CTD at ~17.5 m and HOBO3 at ~17 m), their data were compared for the whole duration of this study
If one assumes that they were both measuring a uniformly well-mixed water mass, and if the CTD is considered “truth,” the HOBO3 had a measurement bias of ~0.1–0.2 ◦C
Summary
The coastal zone has had a key-role since antiquity in every human activity. It continues to be an area of major human interaction, such as commercial trading and cultural exchange, providing food supplies, serving transportation via sea routes, and most recently, providing places for leisure resorts and the tourist economy to grow [1]. The Global Climate Observing System (GCOS) considers Sea Surface Temperature (SST), including that of the coastal zone, a vital component of the climate system since it largely controls the atmospheric response to the ocean at both weather and climate time scales and it exerts a major influence on the exchanges of energy, momentum, and gases between the ocean and atmosphere [17]
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