Data

Elevated CO2 affects reproduction and embryonic development in the pygmy squid, Idiosepius pygmaeus

James Cook University
Spady, Blake
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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:doi10.25903/5c89bb8aba60f&rft.title=Elevated CO2 affects reproduction and embryonic development in the pygmy squid, Idiosepius pygmaeus&rft.identifier=10.25903/5c89bb8aba60f&rft.publisher=James Cook University&rft.description=This is a study on the effects parental exposure of elevated CO2 on the reproduction and embryonic development of the two-toned pygmy squid (Idiosepius pygmaeus). Adult squid were exposed to either control or elevated CO2 conditions for 14 days prior to being paired together to breed. After eggs were spawned, they were counted and photographed under microscope. The development of the embryos was then recorded with photographs (every 24 hours) until all embryos had hatched. From the photographs and count data, variables of development and reproduction were collected including number of eggs per clutch, percent of eggs that were fertile, percent of embryos that were deformed, number of embryos to hatch, time it took them to hatch from spawning, as well as size of the egg cases and embryos during distinct stages of embryonic development. These variables were compared to determine if there was an effect of elevated CO2.Abstract [Related Publication]: The oceans continue to absorb atmospheric carbon dioxide (CO2) and projected future CO2 levels could have negative implications for many marine organisms, especially during early life stages. Cephalopods are ecologically important in marine ecosystems, yet the potential effects of elevated CO2 on cephalopod reproduction and embryonic development are little studied. We allowed adult two-toned pygmy squid (Idiosepius pygmaeus) to breed in ambient control (~445 µatm) or elevated CO2 conditions (~940 µatm) and compared reproductive traits in adults and developmental characteristics of their eggs between treatments. Breeding pairs at elevated CO2 produced clutches with 40% fewer eggs, embryos that were 14% smaller directly after spawning and 5% smaller upon hatching, and an 8% increase in late-stage egg swelling compared with pairs at control conditions. Elevated CO2 did not affect fertility, time to hatch, or hatching success. Eggs were laid 40% closer together in elevated CO2 compared with control conditions, indicating a possible effect of elevated CO2 on reproductive behaviour. These results show that elevated CO2 can adversely affect reproduction and embryonic development of the two-toned pygmy squid. As the potential for adaptation is influenced by reproductive success, testing the capacity for squid to adapt to future ocean conditions should be a priority for future research.  &rft.creator=Spady, Blake &rft.date=2019&rft.relation=https://doi.org/10.1016/j.marenvres.2019.104812&rft.coverage=&rft_rights=&rft_rights=CC BY 4.0: Attribution 4.0 International http://creativecommons.org/licenses/by/4.0&rft_subject=cephalopods&rft_subject=ocean acidification&rft_subject=reproduction&rft_subject=development&rft_subject=ARC Centre of Excellence for Coral Reef Studies&rft.type=dataset&rft.language=English Access the data

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This is a study on the effects parental exposure of elevated CO2 on the reproduction and embryonic development of the two-toned pygmy squid (Idiosepius pygmaeus). Adult squid were exposed to either control or elevated CO2 conditions for 14 days prior to being paired together to breed. After eggs were spawned, they were counted and photographed under microscope. The development of the embryos was then recorded with photographs (every 24 hours) until all embryos had hatched. From the photographs and count data, variables of development and reproduction were collected including number of eggs per clutch, percent of eggs that were fertile, percent of embryos that were deformed, number of embryos to hatch, time it took them to hatch from spawning, as well as size of the egg cases and embryos during distinct stages of embryonic development. These variables were compared to determine if there was an effect of elevated CO2.

Abstract [Related Publication]: The oceans continue to absorb atmospheric carbon dioxide (CO2) and projected future CO2 levels could have negative implications for many marine organisms, especially during early life stages. Cephalopods are ecologically important in marine ecosystems, yet the potential effects of elevated CO2 on cephalopod reproduction and embryonic development are little studied. We allowed adult two-toned pygmy squid (Idiosepius pygmaeus) to breed in ambient control (~445 µatm) or elevated CO2 conditions (~940 µatm) and compared reproductive traits in adults and developmental characteristics of their eggs between treatments. Breeding pairs at elevated CO2 produced clutches with 40% fewer eggs, embryos that were 14% smaller directly after spawning and 5% smaller upon hatching, and an 8% increase in late-stage egg swelling compared with pairs at control conditions. Elevated CO2 did not affect fertility, time to hatch, or hatching success. Eggs were laid 40% closer together in elevated CO2 compared with control conditions, indicating a possible effect of elevated CO2 on reproductive behaviour. These results show that elevated CO2 can adversely affect reproduction and embryonic development of the two-toned pygmy squid. As the potential for adaptation is influenced by reproductive success, testing the capacity for squid to adapt to future ocean conditions should be a priority for future research. 

 

Notes

This dataset is available as 3 files in comma-separated values (.csv) format:

  • CH4-R-count.data.csv - data organised for analyses of reproductive traits and parental measurements
  • CH4-R-individual-data.csv - data organised for analyses of traits measured in individual eggs and embryos
  • CH4-CaseSize.csv - data organised for analyses of case size comparisions between treatment and developmental stage

A data dictionary in plain text format is also attached as supporting documentation.

Created: 2019-03-14

Data time period: 09 2017 to 12 03 2019

This dataset is part of a larger collection

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Identifiers
  • DOI : 10.25903/5C89BB8ABA60F
  • Local : researchdata.jcu.edu.au//published/746827e7e85d26513341f71cc6825121
  • Local : ffd25fc18aa83f2815ce7ba34fce4421