Abstract
Up to 90% of global coral reefs are predicted to be severely degraded by 2050 under “business-as-usual” scenarios. To meet the scale and scope of this challenge, we propose designing and demonstrating a multi-modal system that can incorporate data from remote sensing (satellites, aircraft, and aerial drones), acoustics, genetics, sensor arrays, and low-cost imaging systems. The latter will be collected by low-cost smart sensing and autonomous underwater vehicles (AUVs) guided by adaptive sampling modeling software and rapidly analyzed using automated machine learning systems. Development and deployment will be linked to extensive and diversity-enhancing training programs. The Coral Sentinel System will be globally deployed to enable rapid-response adaptive management and to build public engagement in conservation interventions to save coral reefs. Phase 1 (Year 1) will involve testing assumptions, coalition building, fundraising, and initial system development. Phase 2 (Years 2-4) will focus on engineering and development with a pilot deployment in the Caribbean. Phase 3 (Years 5-6) will involve system expansion and iteration along the Tropical Eastern Pacific corridor. Phase 4 (Years 7-10) will involve global deployment to over 50 reef sites. This will lead during the following decade (Phase 5) to provisioning of low-cost Sentinel systems to coastal communities globally.
Original language | English |
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Pages (from-to) | 118-119 |
Number of pages | 2 |
Journal | Marine Technology Society Journal |
Volume | 55 |
Issue number | 3 |
DOIs | |
State | Published - 1 May 2021 |
Bibliographical note
Publisher Copyright:© 2021, Marine Technology Society Inc.. All rights reserved.
Funding
Funding for this work was provided by the Rohr Family Foundation, The Rohr Reef Resilience Program: Drivers of Coral Reef Resilience across the Tropical Eastern Pacific Corridor (DIK, SS, LL, SC); Schmidt Marine Technology Partners (AD); and the Moore Foundation (AD, PB, SS, ll). FluidCam was supported by NASA Earth Science Technology Office (ESTO) Grant ATI-QRS-14-0010; MiDAR was funded in part by NASA 2015, 2016, and 2017 Center Innovation Fund (CIF) grants, and NASA ESTO Advanced Information Systems Technology (AIST) Grant AIST-QRS-16-0004 and AIST-16-0031; NeMO-Net was supported through ESTO AIST-16-0046 (VC). NOAA, CoralNet: Tackling Bottlenecks in Coral Reef Image Analysis with Next Gen Deep Networks for Photographs to Large Mosaics (DK). NOAA, Quantifying Coral Reef Net Calcification Capacity and Vulnerability in the Context of Ocean Acidification (DK, AA). Summit Foundation: “General Program Support for the Healthy Reefs for Healthy People Initiative” (MM). Tennenbaum Marine Observatories Network (JED). for this work was provided by the Rohr Family Foundation, The Rohr Reef Resilience Program: Drivers of Coral Reef Resilience across the Tropical Eastern Pacific Corridor (DIK, SS, LL, SC); Schmidt Marine Technology Partners (AD); and the Moore Foundation (AD, PB, SS, ll). FluidCam was supported by NASA Earth Science Technology Office (ESTO) Grant ATI-QRS-14-0010; MiDAR was funded in part by NASA 2015, 2016, and 2017 Center Innovation Fund (CIF) grants, and NASA ESTO Advanced Information Systems Technology (AIST) Grant AIST-QRS-16-0004 and AIST-16-0031; NeMO-Net was supported through ESTO AIST-16-0046 (VC). NOAA, CoralNet: Tackling Bottlenecks in Coral Reef Image Analysis with Next Gen Deep Networks for Photographs to Large Mosaics (DK). NOAA, Quantifying Coral Reef Net Calcification Capacity and Vulnerability in the Context of Ocean Acidification (DK, AA). Summit Foundation: “General Program Support for the Healthy Reefs for Healthy People Initiative” (MM). Tennenbaum Marine Observatories Network (JED).
Funders | Funder number |
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2017 Center Innovation Fund | |
DIK | |
ESTO | ATI-QRS-14-0010 |
NASA Earth Science Technology Office | |
Rohr Family Foundation | |
Schmidt Marine Technology Partners | |
Tropical Eastern Pacific Corridor | |
National Aeronautics and Space Administration | |
National Oceanic and Atmospheric Administration | |
Blanche Moore Foundation | |
Centrum för idrottsforskning | AIST-16-0031, AIST-16-0046, AIST-QRS-16-0004 |