The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array

The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array

The “Little MonSta” benthic lander array consists of 8 ROV-deployable (remotely operated vehicle) instrumented lander platforms for monitoring physical and chemical oceanographic properties and particle sampling developed as part of the MMMonKey_Pro program (mapping, modeling, and monitoring key pro...

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Bibliographic Details
Main Authors: Andrew J. Wheeler, Aaron Lim, Felix Butschek, Luke O’Reilly, Kimberley Harris, Paddy O’Driscoll
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Sensors
Subjects:
benthic lander
seabed monitoring
ADCP
sediment trap
cold-water coral
submarine canyon
Online Access:https://www.mdpi.com/1424-8220/21/10/3355
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spelling doaj-a399694eaede42fbbab2c46de11b72df2021-05-31T23:47:58ZengMDPI AGSensors1424-82202021-05-01213355335510.3390/s21103355The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander ArrayAndrew J. Wheeler0Aaron Lim1Felix Butschek2Luke O’Reilly3Kimberley Harris4Paddy O’Driscoll5School of Biological, Earth & Environmental Sciences/Environmental Research Institute, Distillery Fields, North Mall Campus, University College Cork, Cork, IrelandSchool of Biological, Earth & Environmental Sciences/Environmental Research Institute, Distillery Fields, North Mall Campus, University College Cork, Cork, IrelandSchool of Biological, Earth & Environmental Sciences/Environmental Research Institute, Distillery Fields, North Mall Campus, University College Cork, Cork, IrelandSchool of Biological, Earth & Environmental Sciences/Environmental Research Institute, Distillery Fields, North Mall Campus, University College Cork, Cork, IrelandSchool of Biological, Earth & Environmental Sciences/Environmental Research Institute, Distillery Fields, North Mall Campus, University College Cork, Cork, IrelandP&O Maritime Logistics, Parkmore Business Park West, Galway, IrelandThe “Little MonSta” benthic lander array consists of 8 ROV-deployable (remotely operated vehicle) instrumented lander platforms for monitoring physical and chemical oceanographic properties and particle sampling developed as part of the MMMonKey_Pro program (mapping, modeling, and monitoring key processes and controls in cold-water coral habitats in submarine canyons). The Little MonStas offer flexible solutions to meet the need to monitor marine benthic environments during a historically unprecedented time of climate-driven oceanic change, develop an understanding of meso-scale benthic processes (natural and man-made), and to calibrate geological environmental archives. Equipped with acoustic Doppler current profilers (ADCPs), sediment traps, nylon settlement plates and homing beacons, the compact and upgradable lander platforms can be deployed by ROVs to precise locations in extreme terrains to a water depth of 3000 m. The array allows cluster-monitoring in heterogeneous environments or simultaneous monitoring over wider areas. A proof-of-concept case study was presented from the cold-water coral habitable zone in the upper Porcupine Bank Canyon, where the Little MonStas collected 868.8 h of current speed, direction, temperature, and benthic particulate flux records, as well as 192 particle samples subsequently analyzed for particular organic carbon (POC), lithic sediment, live foraminifera, and microplastics. The potential to upgrade the Little MonStas with additional sensors and acoustic releases offers greater and more flexible operational capabilities.https://www.mdpi.com/1424-8220/21/10/3355benthic landerseabed monitoringADCPsediment trapcold-water coralsubmarine canyon
collection DOAJ
language English
format Article
sources DOAJ
author Andrew J. Wheeler
Aaron Lim
Felix Butschek
Luke O’Reilly
Kimberley Harris
Paddy O’Driscoll
spellingShingle Andrew J. Wheeler
Aaron Lim
Felix Butschek
Luke O’Reilly
Kimberley Harris
Paddy O’Driscoll
The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
Sensors
benthic lander
seabed monitoring
ADCP
sediment trap
cold-water coral
submarine canyon
author_facet Andrew J. Wheeler
Aaron Lim
Felix Butschek
Luke O’Reilly
Kimberley Harris
Paddy O’Driscoll
author_sort Andrew J. Wheeler
title The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
title_short The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
title_full The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
title_fullStr The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
title_full_unstemmed The “Little MonSta” Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array
title_sort “little monsta” deep-sea benthic, precision deployable, multi-sensor and sampling lander array
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2021-05-01
description The “Little MonSta” benthic lander array consists of 8 ROV-deployable (remotely operated vehicle) instrumented lander platforms for monitoring physical and chemical oceanographic properties and particle sampling developed as part of the MMMonKey_Pro program (mapping, modeling, and monitoring key processes and controls in cold-water coral habitats in submarine canyons). The Little MonStas offer flexible solutions to meet the need to monitor marine benthic environments during a historically unprecedented time of climate-driven oceanic change, develop an understanding of meso-scale benthic processes (natural and man-made), and to calibrate geological environmental archives. Equipped with acoustic Doppler current profilers (ADCPs), sediment traps, nylon settlement plates and homing beacons, the compact and upgradable lander platforms can be deployed by ROVs to precise locations in extreme terrains to a water depth of 3000 m. The array allows cluster-monitoring in heterogeneous environments or simultaneous monitoring over wider areas. A proof-of-concept case study was presented from the cold-water coral habitable zone in the upper Porcupine Bank Canyon, where the Little MonStas collected 868.8 h of current speed, direction, temperature, and benthic particulate flux records, as well as 192 particle samples subsequently analyzed for particular organic carbon (POC), lithic sediment, live foraminifera, and microplastics. The potential to upgrade the Little MonStas with additional sensors and acoustic releases offers greater and more flexible operational capabilities.
topic benthic lander
seabed monitoring
ADCP
sediment trap
cold-water coral
submarine canyon
url https://www.mdpi.com/1424-8220/21/10/3355
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