Data

Data from: It’s not all black and white: investigating colour polymorphism in manta rays across Indo-Pacific populations

Macquarie University
Andrea Marshall (Aggregated by) Anna Flam (Aggregated by) Elitza Germanov (Aggregated by) I. Gede Hendrawan (Aggregated by) Jason Kennington (Aggregated by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.5061/dryad.8444pn0&rft.title=Data from: It’s not all black and white: investigating colour polymorphism in manta rays across Indo-Pacific populations&rft.identifier=10.5061/dryad.8444pn0&rft.publisher=Macquarie University&rft.description=Intraspecific colour polymorphisms have been the focus of numerous studies, yet processes affecting melanism in the marine environment remain poorly understood. Arguably the most prominent example of melanism in marine species occurs in manta rays (Mobula birostris and M. alfredi). Here, we use photo identification catalogues to document the frequency variation of melanism across Indo-Pacific manta ray populations and test for evidence of selection by predation acting on colour morph variants. We use mark-recapture modeling to compare colour morph survivorship in three M. alfredi populations and assess the relationship between frequency variation and geographical distance. While large differences in melanism frequencies existed among populations of both species (0-40%), apparent survival estimates revealed no difference in survivorship between morphs. We found a significant association between phenotypic and geographical distance in M. birostris, but not in M. alfredi. Our results suggest melanism is not under selection by predation in the tested M. alfredi populations, and that frequency differences across populations of both species are a consequence of neutral genetic processes. As colour polymorphisms are often subjected to complex selection mechanisms, our findings only begin to elucidate the underlying evolutionary processes responsible for the maintenance and frequency variation of melanism in manta ray populations.Usage NotesMark.KomodoNPcsv file with .inp formatted sightings data for Program MARK - Komodo, IndonesiaMark.NusaPenidacsv file with .inp formatted sightings data for Program MARK - Nusa Penida, IndonesiaMark.RajaAmpatcsv file with .inp formatted sightings data for Program MARK - Raja Ampat, West Papua, IndonesiaMark.Mozambiquecsv file with .inp formatted sightings data for Program MARK - Praia do Tofo, MozambiqueventralcolourationQuantification of ventral pigmentation data - M. alfredi and M. birostris&rft.creator=Andrea Marshall&rft.creator=Anna Flam&rft.creator=Elitza Germanov&rft.creator=I. Gede Hendrawan&rft.creator=Jason Kennington&rft.creator=Joseph Tomkins&rft.creator=Mike van Keulen&rft.creator=Ricardo Tapilatu&rft.creator=Robert Perryman&rft.creator=Stephanie Venables&rft.date=2020&rft_rights= https://creativecommons.org/publicdomain/zero/1.0/&rft_subject=Other education not elsewhere classified&rft_subject=colour polymorphism&rft_subject=manta ray&rft_subject=mobula birostris&rft_subject=melanism&rft.type=dataset&rft.language=English Access the data
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Full description

Intraspecific colour polymorphisms have been the focus of numerous studies, yet processes affecting melanism in the marine environment remain poorly understood. Arguably the most prominent example of melanism in marine species occurs in manta rays (Mobula birostris and M. alfredi). Here, we use photo identification catalogues to document the frequency variation of melanism across Indo-Pacific manta ray populations and test for evidence of selection by predation acting on colour morph variants. We use mark-recapture modeling to compare colour morph survivorship in three M. alfredi populations and assess the relationship between frequency variation and geographical distance. While large differences in melanism frequencies existed among populations of both species (0-40%), apparent survival estimates revealed no difference in survivorship between morphs. We found a significant association between phenotypic and geographical distance in M. birostris, but not in M. alfredi. Our results suggest melanism is not under selection by predation in the tested M. alfredi populations, and that frequency differences across populations of both species are a consequence of neutral genetic processes. As colour polymorphisms are often subjected to complex selection mechanisms, our findings only begin to elucidate the underlying evolutionary processes responsible for the maintenance and frequency variation of melanism in manta ray populations.

Usage Notes


Mark.KomodoNPcsv file with .inp formatted sightings data for Program MARK - Komodo, IndonesiaMark.NusaPenidacsv file with .inp formatted sightings data for Program MARK - Nusa Penida, IndonesiaMark.RajaAmpatcsv file with .inp formatted sightings data for Program MARK - Raja Ampat, West Papua, IndonesiaMark.Mozambiquecsv file with .inp formatted sightings data for Program MARK - Praia do Tofo, MozambiqueventralcolourationQuantification of ventral pigmentation data - M. alfredi and M. birostris

Issued: 07 04 2020

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Other education not elsewhere classified | colour polymorphism | manta ray | melanism | mobula birostris |

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