Experimental results on swimming behaviors of four species of cnidarian hydromedusae at Friday Harbor in 2012 (Jellyfish predation in turbulence project)

Website: https://www.bco-dmo.org/dataset/650306
Data Type: experimental
Version:
Version Date: 2016-06-29

Project
» Influence of organism-scale turbulence on the predatory impacts of a suite of cnidarian medusae (jellyfish predation in turbulence)
ContributorsAffiliationRole
Sutherland, Kelly RakowUniversity of Oregon (OIMB)Principal Investigator
Copley, NancyWoods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager


Dataset Description

Swimming behaviors of four species of cnidarian hydromedusae (Aequorea victoria, Mitrocoma cellularia, Stomotoca atra, Aglantha digitale) exposed to two flow conditions in a laboratory turbulence generator - still water and turbulent (ε ~10-7 m2 s-3) were examined.

A two-way ANOVA was used to test for significant effects of species, flow level (still and turbulent) and their interaction on swimming behavior parameters, including depth in the tank, observed speed, acceleration, NGDR, and time spent swimming. Raw data that did not meet the assumption of normality were square root transformed. Proportion data (NGDR, and time spent swimming) that did not meet the assumption of normality were arcsine square root transformed, which is appropriate for proportion data (Zar, 1999).

Related Datasets:
HydroSwimParams_N
HydroSwimParams_IndStats


Data Processing Description

BCO-DMO Processing:

- added conventional header with dataset name, PI name, version date
- renamed parameters to BCO-DMO and BODC standards
- added column 'id'
- shortened post-decimal sigificant digits from 15 to 4


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Data Files

File
ANOVA_means.csv
(Comma Separated Values (.csv), 5.90 KB)
MD5:fdd92c7d59e983f480eb90c008ddf1be
Primary data file for dataset ID 650306

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Parameters

ParameterDescriptionUnits
species

hydromedusa genus

unitless
treatment

treatment: still or turbulent water

unitless
id

add by BCO-DMO to distinguish records

unitless
tank

tank identification

unitless
speed_mean

mean swimming speed

cm/sec
speed_max

maximum swimming speed

cm/sec
accel_mean

mean acceleration

cm/sec^2
swimtime_pcent_mean

mean time spent swimming

percent
NGDR_mean

mean net-to-gross displacement ratio

unitless
depth_mean

mean depth of swimming

cm


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Instruments

Dataset-specific Instrument Name
Generic Instrument Name
Camera
Dataset-specific Description
Sony HDR-HC9 camcorder (1920 x 1080 pixels, 30 frames s-1; Sony Electronics Inc., Fort Myers, FL, USA) with a 16 x 9 cm field-of view.
Generic Instrument Description
All types of photographic equipment including stills, video, film and digital systems.


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Deployments

FHL_Sutherland

Website
Platform
Friday_Harbor
Start Date
2012-06-01
End Date
2016-06-30


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Project Information

Influence of organism-scale turbulence on the predatory impacts of a suite of cnidarian medusae (jellyfish predation in turbulence)

Coverage: Friday Harbor Labs, WA


Bloom-forming jellyfish are increasing in number, frequency and magnitude, in part due to anthropogenic impacts, underscoring a need for enhanced understanding of trophic exchanges in jellyfish-dominated ecosystems. Interactions between jellyfish and their prey are driven by morphology, behavior, and unique fluid signatures that result in species-specific prey selection patterns. Fluid signatures generated by predators entrain prey, and motile prey organisms have evolved to sense and respond to these stereotyped fluid signatures. The shape and coherence of these unique fluid signatures are strongly mediated by turbulence, which is ubiquitous in the ocean. Yet, the effects of turbulence are almost always neglected in feeding studies. This three-year project will investigate the influence of turbulence on predator-prey interactions using a suite of cnidarian hydromedusae with unique morphologies, fluid signatures and prey selection patterns collected in the region of Friday Harbor Laboratory, WA.

This project seeks to establish a detailed, mechanistic understanding of the effects of turbulence on organism-scale predator-prey interactions using gelatinous zooplankton predators with contrasting predation modes. The PI will investigate prey selection under varying levels of turbulence by studying swimming behavior, wake structure, and predator-prey interactions in a laboratory turbulence generator designed for fragile plankton. The PI will also make in situ measurements of turbulence and observations of organism behavior using a Self-contained Underwater Velocimetry Apparatus (SCUVA). This is a fully submersible instrument for flow visualization, and its use will provide a cross-calibration of field and laboratory rates and behaviors. The influence of turbulence on trophic position among the different species of hydromedusae will be quantified through field studies of prey selection patterns. The proposed comparative approach using species with distinct predation modes will provide insights applicable to other planktonic predators that can be similarly grouped.

 



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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)

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