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== Comparison with other data collection methods ==
== Comparison with other data collection methods ==
[[File:150_kV_3-Phase_Submarine_Cable.jpg|thumb|273x273px|Example of submarine cable. Cross section view of a 150 kV 3-phase submarine power cable. Image captured at Deutsches Museum Munich.]]
Cabled observatories are ideal for use in complex regions of the [[ocean]] where continuous data sampling is required for understanding the area of interest. Such areas include the complex [[Biosphere|biospheres]] of the temperate coasts and polar regions, which are sensitive to [[climate change]].<ref name=":0" /> Conventional methods for oceanographic data collection, such as by ship, are often limited by the harsh typical weather conditions and cannot sample data continuously.<ref name=":04">{{Cite journal |last=Fischer |first=Philipp |last2=Brix |first2=Holger |last3=Baschek |first3=Burkard |last4=Kraberg |first4=Alexandra |last5=Brand |first5=Markus |last6=Cisewski |first6=Boris |last7=Riethmüller |first7=Rolf |last8=Breitbach |first8=Gisbert |last9=Möller |first9=Klas Ove |last10=Gattuso |first10=Jean-Pierre |last11=Alliouane |first11=Samir |last12=van de Poll |first12=Willem H. |last13=Witbaard |first13=Rob |date=2020 |title=Operating Cabled Underwater Observatories in Rough Shelf-Sea Environments: A Technological Challenge |url=https://www.frontiersin.org/articles/10.3389/fmars.2020.00551 |journal=Frontiers in Marine Science |volume=7 |doi=10.3389/fmars.2020.00551/full |issn=2296-7745}}</ref> [[Mooring|Mooring systems]] have also been a common method for long-term ocean data sampling, however they require scientific cruises for scientists to receive data or to discover damage to the mooring system and carry out repairs.<ref name=":0" /> Data collection by ship and by mooring system in complex or harsh environments has historically led to data losses and inaccurate conclusions.<ref name=":0" /> By eliminating the need for regular ship use and bolstered with extensive sensor sets, enabled by direct power connections, cabled observatories have the capability to provide continuous and detailed data sampling for regions of the ocean that are otherwise inaccessible.<ref name=":0" />
Cabled observatories are ideal for use in complex regions of the [[ocean]] where continuous data sampling is required for understanding the area of interest. Such areas include the complex [[Biosphere|biospheres]] of the temperate coasts and polar regions, which are sensitive to [[climate change]].<ref name=":0" /> Conventional methods for oceanographic data collection, such as by ship, are often limited by the harsh typical weather conditions and cannot sample data continuously.<ref name=":04">{{Cite journal |last=Fischer |first=Philipp |last2=Brix |first2=Holger |last3=Baschek |first3=Burkard |last4=Kraberg |first4=Alexandra |last5=Brand |first5=Markus |last6=Cisewski |first6=Boris |last7=Riethmüller |first7=Rolf |last8=Breitbach |first8=Gisbert |last9=Möller |first9=Klas Ove |last10=Gattuso |first10=Jean-Pierre |last11=Alliouane |first11=Samir |last12=van de Poll |first12=Willem H. |last13=Witbaard |first13=Rob |date=2020 |title=Operating Cabled Underwater Observatories in Rough Shelf-Sea Environments: A Technological Challenge |url=https://www.frontiersin.org/articles/10.3389/fmars.2020.00551 |journal=Frontiers in Marine Science |volume=7 |doi=10.3389/fmars.2020.00551/full |issn=2296-7745}}</ref> [[Mooring|Mooring systems]] have also been a common method for long-term ocean data sampling, however they require scientific cruises for scientists to receive data or to discover damage to the mooring system and carry out repairs.<ref name=":0" /> Data collection by ship and by mooring system in complex or harsh environments has historically led to data losses and inaccurate conclusions.<ref name=":0" /> By eliminating the need for regular ship use and bolstered with extensive sensor sets, enabled by direct power connections, cabled observatories have the capability to provide continuous and detailed data sampling for regions of the ocean that are otherwise inaccessible.<ref name=":0" />


Revision as of 04:37, 29 November 2023

OOI's Regional Cabled and Endurance Arrays in the Northern Pacific Ocean. Credit: Center for Environmental Visualization, University of Washington

A cabled observatory is a seabed oceanographic research platform connected to land by cables that provide power and communication. Observatories are outfitted with a multitude of scientific instruments that can collect many kinds of data from the seafloor and water column.[1][2] By removing the limitations of undersea power sources and sonar or RF communications, cabled observatories allow persistent study of underwater phenomena.[2] Data from these instruments is relayed to a land station and data networks, such as Ocean Networks Canada, in real time.[1][2]

On-board sensors

Cabled observatories have the benefit of high-power cable connections that can support a variety of instrumentation at any time. Such instrumentation can include cameras and microphones that can take high-definition audio and video, standard sensors that measure pressure, temperature, oxygen content, conductivity, turbidity, and chlorophyll-a fluorescence, and custom sensors for specialized purposes.[2][1] Over 200 instruments can be installed on a cabled observatory at a time, as seen on the NEPTUNE and VENUS observatories.[3]

Comparison with other data collection methods

Example of submarine cable. Cross section view of a 150 kV 3-phase submarine power cable. Image captured at Deutsches Museum Munich.

Cabled observatories are ideal for use in complex regions of the ocean where continuous data sampling is required for understanding the area of interest. Such areas include the complex biospheres of the temperate coasts and polar regions, which are sensitive to climate change.[2] Conventional methods for oceanographic data collection, such as by ship, are often limited by the harsh typical weather conditions and cannot sample data continuously.[4] Mooring systems have also been a common method for long-term ocean data sampling, however they require scientific cruises for scientists to receive data or to discover damage to the mooring system and carry out repairs.[2] Data collection by ship and by mooring system in complex or harsh environments has historically led to data losses and inaccurate conclusions.[2] By eliminating the need for regular ship use and bolstered with extensive sensor sets, enabled by direct power connections, cabled observatories have the capability to provide continuous and detailed data sampling for regions of the ocean that are otherwise inaccessible.[2]

Usage locations

Cabled observatories are permanently fixed in one area and cannot take measurements beyond that area, however they can support sensors and apparatuses that can travel vertically in the water column and observatory data can be combined with ship data to create a more complete understanding of the area as well.[2] An observatory can be placed as far as 300 km from shore if the conditions permit.[5] Observatories can be placed in waters as deep as 2500 meters and as shallow as 10 meters, even when the wave height is greater than the water depth.[2][5]


Despite their advantages, cabled observatories can (and do) relay compromised data to scientists, particularly when located in remote parts of the ocean. Factors such as instrumental malfunction and biofouling are often responsible for this.[2] Systematic improvements, to lessen the impacts of such factors, are currently being studied by groups such as Ocean Networks Canada.[6]

List of cabled observatories

See also

References

  1. ^ a b c Mirimin, Luca; Desmet, Sam; Romero, David López; Fernandez, Sara Fernandez; Miller, Dulaney L.; Mynott, Sebastian; Brincau, Alejandro Gonzalez; Stefanni, Sergio; Berry, Alan; Gaughan, Paul; Aguzzi, Jacopo (2021-06-15). "Don't catch me if you can – Using cabled observatories as multidisciplinary platforms for marine fish community monitoring: An in situ case study combining Underwater Video and environmental DNA data". Science of The Total Environment. 773: 145351. doi:10.1016/j.scitotenv.2021.145351. ISSN 0048-9697.
  2. ^ a b c d e f g h i j k Fischer, Philipp; Brix, Holger; Baschek, Burkard; Kraberg, Alexandra; Brand, Markus; Cisewski, Boris; Riethmüller, Rolf; Breitbach, Gisbert; Möller, Klas Ove; Gattuso, Jean-Pierre; Alliouane, Samir; van de Poll, Willem H.; Witbaard, Rob (2020). "Operating Cabled Underwater Observatories in Rough Shelf-Sea Environments: A Technological Challenge". Frontiers in Marine Science. 7. doi:10.3389/fmars.2020.00551/full. ISSN 2296-7745.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  3. ^ Morley, Michael G.; Jeffries, Marlene A.; Mihály, Steven F.; Jenkyns, Reyna; Biffard, Ben R. (2016-05-01). "Detecting and Correcting Biases in Long-Term Ocean Observatory Time Series: Case Study on Current Directions Estimated From Acoustic Doppler Current Profiler Data". Marine Technology Society Journal. 50 (3): 109–113. doi:10.4031/MTSJ.50.3.9.
  4. ^ Fischer, Philipp; Brix, Holger; Baschek, Burkard; Kraberg, Alexandra; Brand, Markus; Cisewski, Boris; Riethmüller, Rolf; Breitbach, Gisbert; Möller, Klas Ove; Gattuso, Jean-Pierre; Alliouane, Samir; van de Poll, Willem H.; Witbaard, Rob (2020). "Operating Cabled Underwater Observatories in Rough Shelf-Sea Environments: A Technological Challenge". Frontiers in Marine Science. 7. doi:10.3389/fmars.2020.00551/full. ISSN 2296-7745.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  5. ^ a b "Observatories". Ocean Networks Canada. Retrieved 2023-11-29.
  6. ^ Jeffries, Marlene A.; Mihaly, Steven F.; Jenkyns, Reyna; Biffard, Ben R. (2016). "Detecting and Correcting Biases in Long-Term Ocean Observatory Time Series: Case Study on Current Directions Estimated From Acoustic Doppler Current Profiler Data". Marine Technology Society Journal. 50.3 (2016) (3): 109–113. doi:10.4031/MTSJ.50.3.9.
  7. ^ "ERIS".


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