Data

The fiddler crab Uca mjoebergi uses colour vision in mate choice

Australian Ocean Data Network
Detto, Tanya ; Backwell, Patricia, Dr ; Zeil, Jochen, Dr ; Hemmi, Jan, Dr
Viewed: [[ro.stat.viewed]] Cited: [[ro.stat.cited]] Accessed: [[ro.stat.accessed]]
ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=https://catalogue.aodn.org.au:443/geonetwork/srv/api/records/0434a880-89c7-11dd-991d-00188b4c0af8&rft.title=The fiddler crab Uca mjoebergi uses colour vision in mate choice&rft.identifier=https://catalogue.aodn.org.au:443/geonetwork/srv/api/records/0434a880-89c7-11dd-991d-00188b4c0af8&rft.description=The walking legs, carapaces and chelae of ocypodid crabs, particularly the well-studied fiddler crabs, are often brilliantly coloured. However, despite this array of colours there is still some debate over whether ocypodid crabs are actually capable of colour vision and what role it might play. The aim of this experiment was to test the colour vision capabilities of fiddler crabs in a biologically significant context. To determine whether Uca mjoebergi use differences in spectral composition to discriminate between colours, and thus possess colour vision, I tested their ability to consistently discriminate yellow from various shades of grey. Experiments were conducted in October 2005 on an intertidal mudflat in the East Point Reserve, Darwin. When the crabs were reproductively active, during neap tide, wandering females were caught and placed under a container 15 cm from two identical plaster casts of a U. mjoebergi male's 21.8 mm claw. Females were given a choice between a yellow claw (Dulux Tiny Tin yellow enamel) and a claw painted white, 75% grey, 50% grey, 25% grey or black (made by mixing appropriate amounts of white and black Dulux Tiny Tin enamel paint). It was recorded which claw the female approached within 2 cm. Each combination was tested until 15 females successfully made a choice. The same experiment was conducted with two tethered, size matched (within 1 mm claw length), and handedness-matched males in place of the plaster claws. The males were tethered with 1 cm of cotton super-glued to their carapace and tied to a nail stuck in the ground, allowing some restricted movement. I painted the males' claw either with the same yellow paint as above or with the light yellow paint, made by mixing one part yellow to 14 parts white paint. The experiment was repeated 25 times using different pairs of males and new females each time.Statement: It was recorded which claw the female touched or approached to within approximately 2cm, after being remotely released from the container. Females that left the area without approaching either claw were considered not to have made a choice. The data collected when the plaster claws were replaced with male crabs is not available online. Those interested in this data need to contact the principal investigator directly. Parameters used for spectral reflectance dataset: Wavelength (nm), paint colour (white, yellow, 25% grey, 50% grey, 75% grey, black, red, little yellow), normalised reflectance. Parameters recorded in main dataset: Colour of claw on left and right of focal female, date, carapace size of tested female, number of trials until female chose, choice (colour of claw approached).Statement: I measured the spectral reflectance of the yellow and grey paints relative to a white 'Spectralon' standard with a USB2000 UV-VIS portable spectrophotometer (Ocean Optics, Inc., Dunedin, FL, USA).&rft.creator=Detto, Tanya &rft.creator=Backwell, Patricia, Dr &rft.creator=Zeil, Jochen, Dr &rft.creator=Hemmi, Jan, Dr &rft.date=2007&rft.coverage=130.83298,-12.40969 130.83297,-12.40975 130.83302,-12.40975 130.83303,-12.40970 130.83298,-12.40969&rft.coverage=westlimit=130.5; southlimit=-13; eastlimit=131; northlimit=-12&rft.coverage=westlimit=130.5; southlimit=-13; eastlimit=131; northlimit=-12&rft.coverage=uplimit=0; downlimit=0&rft.coverage=uplimit=0; downlimit=0&rft_rights=Creative Commons Attribution 2.5 Australia License http://creativecommons.org/licenses/by/2.5/au/&rft_rights=The citation in a list of references is: citation author name/s (year metadata published), metadata title. Citation author organisation/s. File identifier and Data accessed at (add http link).&rft_rights=Users are kindly requested to contact the principal investigator for authorisation before utilising or reproducing any material&rft_rights=Thumbnail may not be reproduced without prior consent from the principal investigator&rft_subject=biota&rft_subject=28 960043&rft_subject=CRUSTACEANS&rft_subject=EARTH SCIENCE&rft_subject=BIOLOGICAL CLASSIFICATION&rft_subject=ANIMALS/INVERTEBRATES&rft_subject=ARTHROPODS&rft_subject=Colour Vision&rft_subject=Mate Choice&rft_subject=Behavioural Ecology&rft_subject=Ocypodidae&rft_subject=Fiddler Crab&rft_subject=Uca mjoebergi&rft_subject=wavelength&rft_subject=paint_colour&rft_subject=normalised_reflectance&rft_subject=colour_of_claw&rft_subject=date&rft_subject=carapace_size&rft_subject=number_of_trials&rft_subject=choice&rft.type=dataset&rft.language=English Access the data
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The citation in a list of references is: citation author name/s (year metadata published), metadata title. Citation author organisation/s. File identifier and Data accessed at (add http link).

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Brief description

The walking legs, carapaces and chelae of ocypodid crabs, particularly the well-studied fiddler crabs, are often brilliantly coloured. However, despite this array of colours there is still some debate over whether ocypodid crabs are actually capable of colour vision and what role it might play. The aim of this experiment was to test the colour vision capabilities of fiddler crabs in a biologically significant context. To determine whether Uca mjoebergi use differences in spectral composition to discriminate between colours, and thus possess colour vision, I tested their ability to consistently discriminate yellow from various shades of grey. Experiments were conducted in October 2005 on an intertidal mudflat in the East Point Reserve, Darwin. When the crabs were reproductively active, during neap tide, wandering females were caught and placed under a container 15 cm from two identical plaster casts of a U. mjoebergi male's 21.8 mm claw. Females were given a choice between a yellow claw (Dulux Tiny Tin yellow enamel) and a claw painted white, 75% grey, 50% grey, 25% grey or black (made by mixing appropriate amounts of white and black Dulux Tiny Tin enamel paint). It was recorded which claw the female approached within 2 cm. Each combination was tested until 15 females successfully made a choice. The same experiment was conducted with two tethered, size matched (within 1 mm claw length), and handedness-matched males in place of the plaster claws. The males were tethered with 1 cm of cotton super-glued to their carapace and tied to a nail stuck in the ground, allowing some restricted movement. I painted the males' claw either with the same yellow paint as above or with the light yellow paint, made by mixing one part yellow to 14 parts white paint. The experiment was repeated 25 times using different pairs of males and new females each time.

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Statement: It was recorded which claw the female touched or approached to within approximately 2cm, after being remotely released from the container. Females that left the area without approaching either claw were considered not to have made a choice. The data collected when the plaster claws were replaced with male crabs is not available online. Those interested in this data need to contact the principal investigator directly. Parameters used for spectral reflectance dataset: Wavelength (nm), paint colour (white, yellow, 25% grey, 50% grey, 75% grey, black, red, little yellow), normalised reflectance. Parameters recorded in main dataset: Colour of claw on left and right of focal female, date, carapace size of tested female, number of trials until female chose, choice (colour of claw approached).
Statement: I measured the spectral reflectance of the yellow and grey paints relative to a white 'Spectralon' standard with a USB2000 UV-VIS portable spectrophotometer (Ocean Optics, Inc., Dunedin, FL, USA).

Notes

Credit
Australian Research Council (ARC) Centre for Excellence for Vision Science
Credit
Australian Research Council (ARC) Discovery Grant
Credit
The Centre of Visual Sciences (CVS, The Australian National University)
Credit
The Australian National University PhD Scholarship
Purpose
To test the colour vision capabilities of fiddler crabs in a biologically significant context.

Issued: 01 08 2007

Data time period: 2005-10 to 2005-10

This dataset is part of a larger collection

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130.83298,-12.40969 130.83297,-12.40975 130.83302,-12.40975 130.83303,-12.4097 130.83298,-12.40969

130.833,-12.40972

131,-12 131,-13 130.5,-13 130.5,-12 131,-12

130.75,-12.5

text: westlimit=130.5; southlimit=-13; eastlimit=131; northlimit=-12

text: uplimit=0; downlimit=0

Subjects
28 960043 | ANIMALS/INVERTEBRATES | ARTHROPODS | BIOLOGICAL CLASSIFICATION | Behavioural Ecology | Crustaceans | Colour Vision | EARTH SCIENCE | Fiddler Crab | Mate Choice | Ocypodidae | Uca mjoebergi | biota | carapace_size | choice | colour_of_claw | date | normalised_reflectance | number_of_trials | paint_colour | wavelength |

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Other Information
Spectral reflectance of coloured paints used during the experiment (mjoebergi spectrograph data.xls)

uri : https://catalogue.aodn.org.au:443/geonetwork/srv/api/records/0434a880-89c7-11dd-991d-00188b4c0af8/attachments/mjoebergi spectrograph data.xls

Female choice when faced with plaster colours of different colours (mjoebergi colour vision.xls)

uri : https://catalogue.aodn.org.au:443/geonetwork/srv/api/records/0434a880-89c7-11dd-991d-00188b4c0af8/attachments/mjoebergi colour vision.xls

Identifiers
  • global : 0434a880-89c7-11dd-991d-00188b4c0af8
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