| Contributors | Affiliation | Role |
|---|---|---|
| Osenberg, Craig | University of Georgia (UGA) | Principal Investigator, Contact |
| Frazer, Thomas | University of Florida (UF) | Co-Principal Investigator |
| Shima, Jeffrey | Victoria University of Wellington | International Collaborator |
| Gegg, Stephen R. | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
| York, Amber D. | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
Reef morphological dimensions (physical characteristics) were measured specifically for the long term vermetid removal reefs (129-144 and 193-198) beginning in January of 2012. Physical characteristic surveys are meant to characterize the size dimensions of each reef. We ultimately hope to use these data to inform how vermetids influence reef size and shape and benthic composition.
Long Term Vermetid Removal (LTVR) Reef sites in this project are manipulated reefs characterized in the Long Term Reef Physical Characteristics dataset.
Reefs labeled "TOW" in this dataset, numbered 129-144, are a subset of a larger number of Long Term Reefs (LTR) that were monitored as part of the project "Cryptic density dependence: the effects of spatial, ontogenetic, and individual variation in reef fish" beginning in 2003. This long term study continues to monitor those reefs in addition to reefs 193-198 starting in 2012. Data for these reefs between the years 2003 and 2009 can be found on the project site http://www.bco-dmo.org/project/540423.
Location: Moorea, French Polynesia (17.48 degrees S, 149.82 degrees W)
Other associated LTVR datasets:
LTVR - Fate of Reefs - Contains latitude and longitude of reefs used in this dataset
LTVR - Fish Survey
LTVR - Percent Cover Point Contact
LTVR - Percent Visual Cover
LTVR - Pomacentrids
LTVR - Thalasssoma
LTVR - Vermetid Counts
LTVR - Vermetid Removal
LTVR - Vermetid Sizes in Quadrat
Sampling and Analytical Methodology:
Data were collected in 2012 for all reefs that are monitored. A diver swims up to one of the reefs. Using a transect tape, the diver determines the maximum length and perpendicular width. Three height measurements are taken: typical height, max height and water column depth. Using a transect tape, the diver determines the maximum length and perpendicular width. Three height measurements are taken. After 2003, measurements were made by dropping a weighted transect tape from the water surface to an average high point on the reef (typical height), to the highest point on a reef (max height), and to the seafloor (H20 max height). The percent cover and direction of the nearest neighbor reefs were also measured during certain years. These “Nearest Neighbor (NN)” estimates are conducted by visually estimating the percent area within 2 meters of the edge of the sampled reef that is comprised of hard/other substrate (in other words, it is the percent hard/other substrate cover surrounding the sampled reef within a 2 meter radius).
Materials: Transect tape
Data Processing:
“NNAVGEST” was calculated as the average of each observer’s estimate (NNJEST, NNCWOEST, NNJSWETS, NNTAEST). When only one observer who was not originally listed in a column heading (i.e., JS, CWO, JSW, TA) made observations, data was recorded directly into the NNAVGEST column.
NA- Not applicable (never recorded) to this data set
NR- Not recorded at certain times throughout the data set
BCO-DMO Processing Notes
- Generated from original file "LTVR_PhysicalCharacteristics.csv" contributed by Rebecca Atkins
- Parameter names edited to conform to BCO-DMO naming convention found at Choosing Parameter Name
- Any blank rows removed
Data version 2: 2017-12-20 replaces data version 1: 2016-05-23
BCO-DMO Data Manager Processing Notes for version 2017-12-20:
* Added a conventional header with dataset name, PI name, version date
* Modified parameter names to conform with BCO-DMO naming conventions
* added name "COMMENT" to un-named column with a comment in it.
* NA values changed to "nd" for "no data"
* NR values unchanged. NR indicates "not recorded" at certain times throughout the data set
| File |
|---|
LTVR_PhysicalCharacteristics.csv (Comma Separated Values (.csv), 6.55 KB) MD5:50a7dff8651477609d6d58a2a74c0968 Primary data file for dataset ID 645827 |
| Parameter | Description | Units |
| DATE | Date Data Collected (2003-2005) | DD-MMM-YYYY |
| OBSERV | Name of observer (AS-Amanda Strong; TF-Tom Frazer; JS-Jeff Shima) | text |
| SITE | Name of site | text |
| REEF_let | Letter corresponding to reef ID | text |
| REEF_NUMBER | Number corresponding to reef ID (129-144; 193-198) | dimensionless |
| TREATMENT | Treatment type (Control; Removal) | text |
| COMPON | Component of the reef (individual bommies all joined to form a larger patch reef) | text |
| LENGTH | Max Length | meters |
| WIDTH | Perpendicular Width | meters |
| THEIGHT | Typical height of reef | meters |
| MHEIGHT | Maximum Height | meters |
| H20MHEIG | Water depth to maximum height | meters |
| NNAVGEST | Average of Nearest Neighbor Estimate (% cover of “donut” from reef edge out 2 meters) | percentage |
| NNJSEST | Jeff Shima’s estimate of Nearest Neighbor Cover; 0-100 or NA (= did not estimate) | number of individuals |
| NNCWOEST | Craig Osenberg’s estimate of Nearest Neighbor Cover; 0-100 or NA (= did not estimate) | number of individuals |
| NNJSWEST | Jada White’s estimates of Nearest Neighbor Cover; 0-100 or NA (= did not estimate) | number of individuals |
| NNTAEST | Tom Adam’s estimate of Nearest Neighbor Cover; 0-100 or NA (= did not estimate) | number of individuals |
| Dataset-specific Instrument Name | Transect Tape |
| Generic Instrument Name | Measuring Tape |
| Dataset-specific Description | Materials: transect tape and slates |
| Generic Instrument Description | A tape measure or measuring tape is a flexible ruler. It consists of a ribbon of cloth, plastic, fibre glass, or metal strip with linear-measurement markings. It is a common tool for measuring distance or length. |
| Dataset-specific Instrument Name | Slate |
| Generic Instrument Name | Underwater Writing Slate |
| Dataset-specific Description | Materials: transect tape and slates |
| Generic Instrument Description | Underwater writing slates and pencils are used to transport pre-dive plans underwater, to record facts whilst underwater and to aid communication with other divers. |
| Dataset-specific Instrument Name | Mask and snorkel |
| Generic Instrument Name | Diving Mask and Snorkel |
| Generic Instrument Description | A diving mask (also half mask, dive mask or scuba mask) is an item of diving equipment that allows underwater divers, including, scuba divers, free-divers, and snorkelers to see clearly underwater.
Snorkel: A breathing apparatus for swimmers and surface divers that allows swimming or continuous use of a face mask without lifting the head to breathe, consisting of a tube that curves out of the mouth and extends above the surface of the water. |
| Website | |
| Platform | Osenberg et al Moorea |
| Start Date | 2003-05-19 |
| End Date | 2015-07-12 |
Description from NSF abstract:
Ecological surprises are most likely to be manifest in diverse communities where many interactions remain uninvestigated. Coral reefs harbor much of the world's biodiversity, and recent studies by the investigators suggest that one overlooked, but potentially important, biological interaction involves vermetid gastropods. Vermetid gastropods are nonmobile, tube-building snails that feed via an extensive mucus net. Vermetids reduce coral growth by up to 80%, and coral survival by as much as 60%. Because effects vary among coral taxa, vermetids may substantially alter the structure of coral communities as well as the community of fishes and invertebrates that inhabit the coral reef.
The investigators will conduct a suite of experimental and observational studies that: 1) quantify the effects of four species of vermetids across coral species to assess if species effects and responses are concordant or idiosyncratic; 2) use meta-analysis to compare effects of vermetids relative to other coral stressors and determine the factors that influence variation in coral responses; 3) determine the role of coral commensals that inhabit the branching coral, Pocillopora, and evaluate how the development of the commensal assemblage modifies the deleterious effects of vermetids; 4) determine how vermetid mucus nets affect the local environment of corals and evaluate several hypotheses about proposed mechanisms; and 5) assess the long-term implications of vermetids on coral communities and the fishes and invertebrates that depend on the coral.
Note: The Principal Investigator, Dr. Craig W. Osenberg, was at the University of Florida at the time the NSF award was granted. Dr. Osenberg moved to the University of Georgia during the summer of 2014 (current contact information).
| Funding Source | Award |
|---|---|
| NSF Division of Ocean Sciences (NSF OCE) |