Real time monitoring bivalve behavior

ReMoBiB (remote monitoring of bivalve behavior). The project aimed at deploying a so called valve gape monitor and connect it to a underwater node to generate an continuous online accesible data stream of valve gape measurement. The project aimed to demonstrate the possibility to use shell valve gap...

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Bibliographic Details
Main Authors: Witbaard, Rob, Fischer, Philipp
Format: Dataset
Language:unknown
Published: SEANOE 2019
Subjects:
Valve Gape
On-Line
Monitoring
Helgoland
Behaviour
Bivalve
Arctica islandica
Online Access:https://doi.org/10.17882/62277
https://www.seanoe.org/data/00511/62277/
id ftseanoe:oai:seanoe.org:62277
record_format openpolar
spelling ftseanoe:oai:seanoe.org:62277 2023-05-15T15:22:33+02:00 Real time monitoring bivalve behavior Witbaard, Rob Fischer, Philipp North 54.205416, South 54.159125, East 7.934331, West 7.84644 2019-08-30 https://doi.org/10.17882/62277 https://www.seanoe.org/data/00511/62277/ unknown SEANOE info:eu-repo/grantAgreement/EC/FP7/654410/EU//JERICO-NEXT doi:10.17882/62277 https://doi.org/10.17882/62277 https://www.seanoe.org/data/00511/62277/ CC-BY-NC-ND CC-BY-NC-ND Valve Gape On-Line Monitoring Helgoland Behaviour Bivalve Arctica islandica dataset 2019 ftseanoe https://doi.org/10.17882/62277 2022-03-09T17:21:15Z ReMoBiB (remote monitoring of bivalve behavior). The project aimed at deploying a so called valve gape monitor and connect it to a underwater node to generate an continuous online accesible data stream of valve gape measurement. The project aimed to demonstrate the possibility to use shell valve gape as a bio-monitor in addition to monitoring of more traditional environmental monitoring techniques. At the same time we wanted to test the possibility to connect this equipment to the COSYNA underwater node at Helgoland. For this, the existing stand alone equipment developed by NIOZ had to be adapted to enable connection and data tranfer. The scientific aim of the project was to establish the relationship between shell gape (filtration activity) of Arctica islandica and environmental factors (Salinity, Temperature, Chlorophyll, light) at the southern limit of its distribution. This is done by collecting a continuous observational time series on shell gaping behaviour covering at least an entire year, while at the same time high resolution environmental data are being collected from the underwater node to which the gape recorder is connected. Within the project it is aimed to develop an online visualisation of real time valve gape activity on the NIOZ and AWI website as means to raise awareness about sea life among the broader public and show that the shells are living creatures reacting to their environment.On the longer term the online monitoring of the gaping behaviour of bivalves adds an extra dimension to environmental monitoring especially for ecological studies. Results are likely to illustrate the role of (extreme) environmental conditions on the feeding behaviour of individuals and the variation therein. It is anticipated that this project will lead to intensified cooperation and joint benthic ecological studies between NIOZ and AWI. Valve gape has been determined by measuring the electromagnetical field between two electronic coils glued on to the shell at the siphon side of the shell. The strength of the electromagnetic field between the coils is a measure for the distance that the coils are separated and thus how far the both valves are apart from each other. Valve gape is expressed as fraction open, i.e. for comparison of different animals the signals are rescaled to vary between 0 and 1. Valve gape opening has been measured with a ~1 second frequency. These ultra high resolution data have been saved and collected in data files representing 1 hour periods. For data analyses the "seconds" data have been aggregated to minute data by calculating the average valve gape in that minute. Dataset Arctica islandica SEANOE (Sea scientific open data publication) Helgoland
institution Open Polar
collection SEANOE (Sea scientific open data publication)
op_collection_id ftseanoe
language unknown
topic Valve Gape
On-Line
Monitoring
Helgoland
Behaviour
Bivalve
Arctica islandica
spellingShingle Valve Gape
On-Line
Monitoring
Helgoland
Behaviour
Bivalve
Arctica islandica
Witbaard, Rob
Fischer, Philipp
Real time monitoring bivalve behavior
topic_facet Valve Gape
On-Line
Monitoring
Helgoland
Behaviour
Bivalve
Arctica islandica
description ReMoBiB (remote monitoring of bivalve behavior). The project aimed at deploying a so called valve gape monitor and connect it to a underwater node to generate an continuous online accesible data stream of valve gape measurement. The project aimed to demonstrate the possibility to use shell valve gape as a bio-monitor in addition to monitoring of more traditional environmental monitoring techniques. At the same time we wanted to test the possibility to connect this equipment to the COSYNA underwater node at Helgoland. For this, the existing stand alone equipment developed by NIOZ had to be adapted to enable connection and data tranfer. The scientific aim of the project was to establish the relationship between shell gape (filtration activity) of Arctica islandica and environmental factors (Salinity, Temperature, Chlorophyll, light) at the southern limit of its distribution. This is done by collecting a continuous observational time series on shell gaping behaviour covering at least an entire year, while at the same time high resolution environmental data are being collected from the underwater node to which the gape recorder is connected. Within the project it is aimed to develop an online visualisation of real time valve gape activity on the NIOZ and AWI website as means to raise awareness about sea life among the broader public and show that the shells are living creatures reacting to their environment.On the longer term the online monitoring of the gaping behaviour of bivalves adds an extra dimension to environmental monitoring especially for ecological studies. Results are likely to illustrate the role of (extreme) environmental conditions on the feeding behaviour of individuals and the variation therein. It is anticipated that this project will lead to intensified cooperation and joint benthic ecological studies between NIOZ and AWI. Valve gape has been determined by measuring the electromagnetical field between two electronic coils glued on to the shell at the siphon side of the shell. The strength of the electromagnetic field between the coils is a measure for the distance that the coils are separated and thus how far the both valves are apart from each other. Valve gape is expressed as fraction open, i.e. for comparison of different animals the signals are rescaled to vary between 0 and 1. Valve gape opening has been measured with a ~1 second frequency. These ultra high resolution data have been saved and collected in data files representing 1 hour periods. For data analyses the "seconds" data have been aggregated to minute data by calculating the average valve gape in that minute.
format Dataset
author Witbaard, Rob
Fischer, Philipp
author_facet Witbaard, Rob
Fischer, Philipp
author_sort Witbaard, Rob
title Real time monitoring bivalve behavior
title_short Real time monitoring bivalve behavior
title_full Real time monitoring bivalve behavior
title_fullStr Real time monitoring bivalve behavior
title_full_unstemmed Real time monitoring bivalve behavior
title_sort real time monitoring bivalve behavior
publisher SEANOE
publishDate 2019
url https://doi.org/10.17882/62277
https://www.seanoe.org/data/00511/62277/
op_coverage North 54.205416, South 54.159125, East 7.934331, West 7.84644
geographic Helgoland
geographic_facet Helgoland
genre Arctica islandica
genre_facet Arctica islandica
op_relation info:eu-repo/grantAgreement/EC/FP7/654410/EU//JERICO-NEXT
doi:10.17882/62277
https://doi.org/10.17882/62277
https://www.seanoe.org/data/00511/62277/
op_rights CC-BY-NC-ND
op_rightsnorm CC-BY-NC-ND
op_doi https://doi.org/10.17882/62277
_version_ 1766353204367327232

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