Deep Sea - From Unknown to Intended - Deep Sea Observatories, a Tool to Monitor Human Activities
| Autor: | Ana Colaço, Marina Carreiro-Silva |
|---|---|
| Rok vydání: | 2018 |
| Předmět: |
observatories
Fixed-point Open Ocean Observatories Marine Ecosystem Restoration in Changing European Seas Grant Agreement No 312463 A transatlantic assessment and deep-water ecosystem-based management plan for Europe SponGES Grant Agreement No 676555 Grant Agreement No 689518 14. Life underwater Grant Agreement No 603418 impacts FP7 Horizon 2020 Implementation and operation: development of instrument module Managing Impacts of Deep-Sea Resources Deep-sea Sponge Grounds Ecosystems of the North Atlantic: an integrated approach towards their preservation and sustainable exploitation Deep-sea Grant Agreement No 679849 ATLAS MERCES EMSODEV 13. Climate action European Union (EU) FIXO3 MIDAS Grant Agreement No 678760 |
| Zdroj: | Desenvolvimento Sustentável do Oceano: uma Utopia Útil / Sustainable Development of the Ocean: a Necessity |
| DOI: | 10.5281/zenodo.2600713 |
| Popis: | The deep-sea environment is the largest ecosystem on earth and poorly study. The lack of affordable technology and the immense size of this ecosystem, with all its different environments and habitats, such as the pelagic realm, the benthos with abyssal planes, ridges, vents, seamounts, cold seeps, sponge aggregations, cold-water corals gardens and reefs, to name just a few, contribute to the lack of knowledge. With the increase technological development, and with the overexploitation of land and shallow water resources, humanity is migrating deeper in the sea, by extracting oil and gas, fishing on deeper grounds, extracting minerals from the continental slopes and discussing the possibility to mine seafloor massive sulphides (SMS), nodules and cobalt crusts. In order to understand human impacts on deep-sea ecosystems and to propose strategies to mitigate these impacts, we need to comprehend the nature of the environment. Time series are crucial, for the continuous measurement of the environmental characteristics of the deep. However, studying the deep-sea is expensive. There is the need of oceanographic vessels, underwater vehicles and sensors that cannot be continuously at sea. To bridge this gap, the scientific community has been working together with engineers to develop continuous observation systems that will allow to have time series, and to understand the natural fluctuations of the en- vironment. Fixed-point observatories exist in several key places around the globe. They can be cabled, tethered or autonomous, measuring con- tinuously or at a high frequency, and sending the data to shore, to warn about potential tsunamis, seismic crises at the bottom of the ocean, or even an increase in the deep-water turbidity. Portugal has been involved in this effort, through the participation and usage of a fixed-point observatory installed as part of the EMSO network, Like the EMSO-Azores in the Lucky Strike hydrothermal vent(main- tained by EMSO-France) , and raising funds to install other nodes at the Gulf of Cadiz and on the Condor seamount (Azores). Observatories are used to detect climate change, monitor mining and contribute to Global Ocean Observation System. |
| Databáze: | OpenAIRE |
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