Shell thickness of mussel recruits quantified in two species, Mytilus trossulus and Mytilus californianus
Project
| Contributors | Affiliation | Role |
|---|---|---|
| Sanford, Eric | University of California-Davis (UC Davis-BML) | Principal Investigator |
| Longman, Emily K. | University of California-Davis (UC Davis-BML) | Student |
| Rauch, Shannon | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
Abstract
Recruit Mytilus trossulus mussels were collected from Bob Creek, Oregon. Recruit M. californianus were collected from Bodega Marine Reserve, California and Soberanes Point, California. Recruit mussel shell thickness comparisons were made for approximately 55 mussels per mussel type across the range of mussel sizes given to juvenile N. canaliculata. Mussel tissue was removed by incubating the mussels in 15% H2O2, 0.05 M NaOH with period agitation (Gaylord et al. 2018). The mussel shells were then dried to a constant weight and dry weights were measured on a microbalance. Pictures of the shells were taken using a camera (Leica MC170) attached to a dissecting microscope (Leica M125) and were used to calculate shell area and mussel length. These pictures are in the attached Supplemental File "Mussel Recruit Images.zip". Recruit mussel shell thickness was estimated as the total dry weight of both valves divided by the total projected area of both valves (Gaylord et al. 2018).
- Imported original file "Shell thickness of mussel recruits.xlsx" into the BCO-DMO system.
- Flagged "NA" as a missing data value (missing data are empty/blank in the final CSV file).
- Added columns for site Latitude and Longitude.
- Renamed fields/columns to comply with BCO-DMO naming conventions.
- Replaced commas with semi-colons in the "Notes" column.
- Saved the final file as "918420_v1_shell_thickness_of_mussel_recruits.csv"
| File |
|---|
918420_v1_shell_thickness_of_mussel_recruits.csv (Comma Separated Values (.csv), 18.15 KB) MD5:df84466443f53c1733987cf4a8d9f441 Primary data file for dataset ID 918420, version 1 |
| File |
|---|
Mussel Recruit Images.zip (ZIP Archive (ZIP), 593.51 MB) MD5:9beafe83afcddbe477ca3b241230192c Supplemental file for dataset ID 918420. These images were used for the measurements of mussel length and area. |
Relationship Description: These datasets result from the same overarching project, in which Dogwhelks were raised on one of 4 diets for 3 months. A portion of the surviving dogwhelks were scored in the laboratory and another portion were outplanted to field cages for a year.
Relationship Description: These datasets result from the same overarching project, in which Dogwhelks were raised on one of 4 diets for 3 months. A portion of the surviving dogwhelks were scored in the laboratory and another portion were outplanted to field cages for a year.
Relationship Description: These datasets result from the same overarching project, in which Dogwhelks were raised on one of 4 diets for 3 months. A portion of the surviving dogwhelks were scored in the laboratory and another portion were outplanted to field cages for a year.
Relationship Description: These datasets result from the same overarching project, in which Dogwhelks were raised on one of 4 diets for 3 months. A portion of the surviving dogwhelks were scored in the laboratory and another portion were outplanted to field cages for a year.
Relationship Description: These datasets result from the same overarching project, in which Dogwhelks were raised on one of 4 diets for 3 months. A portion of the surviving dogwhelks were scored in the laboratory and another portion were outplanted to field cages for a year.
| Parameter | Description | Units |
| Mussel_Number | Mussel number. | unitless |
| Mussel_Type | Recruit mussel shell thickness was determined for three mussel types: (1) Mytilus trossulus (from Bob Creek, Oregon), (2) M. californianus collected from Bodega Marine Reserve (BMR), and (3) M. californianus collected from Soberanes Point (SBR). | unitless |
| Site_Latitude | Latitude of the mussel collection site. | decimal degrees |
| Site_Longitude | Longitude of the mussel collection site (negative values = West). | decimal degrees |
| Weight | Weight of both mussel valves. | grams (g) |
| Magnification | Magnification setting of Leica M125 dissecting microscope. | unitless |
| Length_L | Length of left mussel valve. | millimeters (mm) |
| Length_R | Length of right mussel valve. | millimeters (mm) |
| Area_L | Projected area of left mussel valve. | square millimeters (mm^2) |
| Area_R | Projected area of right mussel valve. | square millimeters (mm^2) |
| Total_Area | Total projected area of both mussel valves. | square millimeters (mm^2) |
| Shell_Thickness | Recruit mussel shell thickness; measured as total dry weight of both valves divided by the total projected area of both valves. | grams per square millimeter (g/(mm^2)) |
| Notes | Notes about mussel number taken during estimate of shell thickness. | unitless |
| Dataset-specific Instrument Name | Leica MC170 |
| Generic Instrument Name | Camera |
| Dataset-specific Description | Leica MC170: camera used to photograph recruit mussel shells. |
| Generic Instrument Description | All types of photographic equipment including stills, video, film and digital systems. |
| Dataset-specific Instrument Name | Leica M125 |
| Generic Instrument Name | Microscope - Optical |
| Dataset-specific Description | Leica M125: dissecting microscope used to photograph recruit mussel shells. |
| Generic Instrument Description | Instruments that generate enlarged images of samples using the phenomena of reflection and absorption of visible light. Includes conventional and inverted instruments. Also called a "light microscope". |
| Dataset-specific Instrument Name | Mettler Toledo XP2U |
| Generic Instrument Name | scale |
| Dataset-specific Description | Mettler Toledo XP2U: Microbalance used to measure shell dry weight. |
| Generic Instrument Description | An instrument used to measure weight or mass. |
Coastal mosaics of local adaptation and the eco-evolutionary dynamics of a marine predator-prey interaction (Coastal Adaptation)
NSF Award Abstract:
Historically, ecologists regarded evolution as a process that typically acts slowly over very long time scales. However, recent studies suggest that evolution might also shape the way species interact over much shorter timespans, ranging from weeks to years. Are these sorts of rapid feedbacks between evolution and ecology important in marine ecosystems? This project will address this question along the Pacific coast of the United States by studying predatory snails (Channeled Dogwhelks) that feed on California Mussels, an important habitat-forming species on rocky intertidal shores. Prior research shows that some dogwhelk populations are composed of an assortment of individuals that differ genetically in how effectively they can drill through mussel shells. This project will test whether short-term changes in the environment can impose rapid natural selection that favors some of these drilling variants over others, altering the effects that a dogwhelk population has on the surrounding mussel bed. At the same time, this project will examine whether regional differences in mussel shell thickness have influenced the evolution of drilling ability among dogwhelk populations distributed along >900 kilometers of the California and Oregon coasts. Overall, this study seeks to understand the dynamic feedbacks between evolution and ecology that might influence marine communities in the face of changing ocean conditions. This project will train diverse undergraduate and graduate students and will provide the foundation for a significant public outreach component, including the production of accessible video documentaries.
This project seeks to advance our understanding of eco-evolutionary dynamics in the sea by investigating links among oceanographic variation, natural selection, species interactions, and community succession. This project will use the interaction between the Channeled Dogwhelk (Nucella canaliculata) and the California Mussel (Mytilus californianus) as a model system to address two central objectives. (1) The research team will explore how spatial mosaics of selection drive adaptive differentiation among populations of consumers. Newly collected and archived mussels will be analyzed to characterize variation in shell thickness along the coasts of California and Oregon, and to evaluate whether this spatial mosaic has been consistent or variable over the past two decades. Laboratory experiments will test whether dogwhelk populations distributed across this mosaic have diverged in the thickness of shell that they can drill successfully. (2) The research team will examine whether temporal variation in selection on consumer phenotypes shapes predator-prey interactions, with cascading effects on ecological dynamics. In particular, the project will test whether short-term variation in prey recruitment and shell thickness can impose rapid selection on the frequency of drilling phenotypes within a dogwhelk population. A field experiment will also test whether selection on these predator phenotypes in turn alters the trajectory of mussel bed succession.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
| Funding Source | Award |
|---|---|
| NSF Division of Ocean Sciences (NSF OCE) |
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