Dataset: Oyster morphology differences 2020
Data Citation:
Belgrad, B. A., Smee, D. L., Weissburg, M. (2023) Morphological Characteristics of Oysters from Predator Experiments at the Dauphin Island Sea Lab, AL from July to October 2020. Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 1) Version Date 2023-03-30 [if applicable, indicate subset used]. doi:10.26008/1912/bco-dmo.892206.1 [access date]
Terms of Use
This dataset is licensed under Creative Commons Attribution 4.0.
If you wish to use this dataset, it is highly recommended that you contact the original principal investigators (PI). Should the relevant PI be unavailable, please contact BCO-DMO (info@bco-dmo.org) for additional guidance. For general guidance please see the BCO-DMO Terms of Use document.
DOI:10.26008/1912/bco-dmo.892206.1
Spatial Extent: N:30.248451 E:-88.077982 S:30.248451 W:-88.077982
Temporal Extent: 2020-07 - 2020-10
Project:
Collaborative Research: Keystone chemicals: Identifying general and universal molecules of fear
(Identifying molecules of fear)
Principal Investigator:
Delbert Lee Smee (Dauphin Island Sea Lab, DISL)
Marc Weissburg (Georgia Institute of Technology, GA Tech)
Scientist:
Benjamin A. Belgrad (Dauphin Island Sea Lab, DISL)
Contact:
Marc Weissburg (Georgia Institute of Technology, GA Tech)
BCO-DMO Data Manager:
Taylor Heyl (Woods Hole Oceanographic Institution, WHOI BCO-DMO)
Version:
1
Version Date:
2023-03-30
Restricted:
No
Validated:
Yes
Current State:
Final no updates expected
Morphological Characteristics of Oysters from Predator Experiments at the Dauphin Island Sea Lab, AL from July to October 2020
Abstract:
These data include oyster morphological characteristics after oysters were settled onto tiles and either exposed to predator cues (caged blue crabs) or controls of no cues. Oysters were nursed in a flow-through seawater system at the Dauphin Island Sea Lab for one month starting in late July 2020. Afterwards, subsets of oysters were assessed for shell strength and size using a Kistler force sensor and drying oven.
Predators often produce nonconsumptive effects (NCEs) in their prey in the form of behavioral or morphological changes. Such changes often have larger or equal consequences for population dynamics as the predator directly consumes individual prey. However, it is not well understood how predators feeding across multiple trophic levels cause cascading NCEs that interact across prey trophic levels or how the prey survival benefits from these interactions change across contexts. These data help demonstrate how NCEs can influence population dynamics across space and quantify the strength of these context-dependent interactions.
Data were collected by Drs. Benjamin Belgrad, Lee Smee, and Marc Weissburg from the Dauphin Island Sea Lab and Georgia Institute of Technology.