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for_bco-dmo_raw_nucella_behavior_data_with_mussel_size.csv (13.37 KB) | Comma Separated Values (.csv) | Primary data file for dataset ID 869563 | Download |
To investigate anti-predatory and foraging behaviors of whelks, we conducted laboratory experiments at Bodega Marine Laboratory in 2017 to test whether previous predator exposure had a sustained effect on prey foraging and in turn on a basal resource, even after the predator was removed. We tested for both behavioral and morphological legacies of prior predation. The study system consisted of a tri-trophic food chain, using the red rock crab, Cancer productus, as the predator, the carnivorous wh...
Show moreThis dataset represents laboratory experiments to test whether previous predator exposure had a sustained effect on prey foraging and in turn on a basal resource, even after the predator was removed. We tested for both behavioral and morphological legacies of prior predation. The study system consisted of a tri-trophic food chain, using the red rock crab, Cancer productus, as the predator, the carnivorous whelk, Nucella ostrina, as the prey species, and the California mussel, Mytilus californianus, as the basal resource.
The first step of the experiment consisted of conditioning the intermediate consumer (Nucella ostrina) in the tri-trophic food web to the presence of predators or not. The above conditioning period lasted 75 days, a duration that has been documented in previous studies to cause a morphological change in Nucella. Then we tested for proportional changes in the length and weight of our snails that may have occurred during the conditioning phase and the weight:length ratio by repeating the measurements we had made at the outset of our experiments. Using a subset of the conditioned and naïve snails (n=80 each), we next tested how predator conditioning affected their behavior and foraging when they were subsequently exposed to predator cues or not (Ng & Gaylord (2020), Fig. 2). If predator conditioning altered Nucella morphology and their foraging, we also wanted to examine whether a snail's size might alter its response to predator cues and its foraging on mussels. We therefore first grouped the Nucella into five size classes of 16 Nucella each, from smallest to largest, creating a size gradient. We created this array of multiple size classes for both predator-conditioned and naïve snails. We then divided each set of 16 snails into two containers (33 mm × 20 mm × 11.5 mm) with eight Nucella individuals per container; half of the containers received outflow from sumps containing crabs and half received seawater free of predator cue (this overall protocol thus yielded 2 conditioning exposures x 5 size classes x 2 cue treatments = 20 containers total). All 20 containers were then supplied with 20 juvenile mussel individuals each, as a basal food source for the carnivorous snails. This configuration created a 2 × 2 design stratified by size with conditioning history as one treatment and predator cue as the second treatment. We then measured the number of mussels consumed by the snails daily over the course of the next 15 days, without replacement of consumed mussels, along with the number of snails above or below the waterline within each container as a metric of anti-predatory escape behavior.
Further methods are detailed in Ng and Gaylord (2020). This dataset includes the behavioral and consumption data for Nucella during the feeding trials. Observations are taken once a day over a two-week period for 20 distinct containers. There are 4 treatment levels, which include a fully factorial combination of snails previously induced by crab cue or not and whether snails are exposed to crab cue during the feeding trial or not. The behavioral data involve noting the number of snails above the waterline (Out) or below/touching the waterline (In). In addition, we also noted the number of snails feeding on mussels at each time point, and if a mussel was consumed, what the size of the mussel was.
Known Issues:
There is a missing timestamp for the data collected on 2017-08-17.
Ng, G., Gaylord, B. (2022) Anti-predatory and foraging behaviors of whelks from laboratory experiments at Bodega Marine Laboratory in 2017. Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 1) Version Date 2022-03-16 [if applicable, indicate subset used]. doi:10.26008/1912/bco-dmo.869563.1 [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.