Contributors | Affiliation | Role |
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Allgeier, Jacob | University of Michigan | Principal Investigator |
Munsterman, Katrina | University of Michigan | Student |
York, Amber D. | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
See "Related Datasets" section for access to data and metadata from other datasets from the same surveys.
During the fish surveys were also recorded large invertebrates on the reefs with particular focus on any lobster (Panulirus argus, urn:lsid:marinespecies.org:taxname:382891) for which we recorded only if the individual was of “legal” size (which is any individual with a tail > 5 inches - noted as “legal” or “not legal” in a separate column in dataset). We also recorded “crabs” – typically spider crabs (Mithrax spinosissimus, urn:lsid:marinespecies.org:taxname:421994) for which we opportunistically recorded carapace width.
* Sheet "invert data" of submitted file FishSurveys2022_FinalNSF.xlsx (submitted to BCO-DMO 2024-04-18) rows 1-198 were imported into the BCO-DMO data system for this dataset. Excel rows 199-395 were exact duplicates and not included (decision discussed with the original submitter to verify this is correct action).
* Sheet "metadata" contained multiple tables.
** The table with columns "date, notes" was exported added to the dataset as supplemental file fish_and_invert_survey_notes.csv."
** The note with heading "Survey overview" was added to the Methods & Sampling section of the metadata.
** The site information with columns "reef name,GPS data" was exported as a separate supplemental file reef_cluster_site_list.csv. Additional columns were added for the site description, and the separate lat, lon in decimal degree format.
* Column names adjusted to conform to BCO-DMO naming conventions designed to support broad re-use by a variety of research tools and scripting languages. [Only numbers, letters, and underscores. Can not start with a number]
* Date converted to ISO 8601 format, additional column ISO_DateTime_UTC added (using source columns Date,Time which were local time Abaco, Eastern Time (EST/EDT)).
* columns cluster_lat,cluster_lon added to the fish data table from the site information (using reef name provided in "Cluster" column).
* Note: These data include currently unaccepted synonyms of the accepted taxon names. The supplemental file fish_and_invert_species_list.csv which includes names and identifiers for both the names used in the dataset and the equivalent currently accepted names (as of 2024-02-26).
* One name appears only in the metadata "...typically spider crabs (Mithrax spinosissimus..." LSID (urn:lsid:marinespecies.org:taxname:421994) has the currently accepted name "Maguimithrax spinosissimus" LSID (urn:lsid:marinespecies.org:taxname:987079)
File |
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922236_v1_invert-data.csv (Comma Separated Values (.csv), 15.10 KB) MD5:1483ee2d4298346b93ce7d7bae1456e9 Primary data file for dataset ID 922236, version 1 |
File |
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Fish and Invertebrate Species List (with Taxon IDs) filename: fish_and_invert_species_list.csv (Comma Separated Values (.csv), 4.89 KB) MD5:12bf9ccb6ca461259cf841ff70c59cc8 A supplemental table containing organism identifications (common and latin names). These were matched at the World Register of Marine Species (WoRMS) and the taxon status (accepted, unaccepted) and taxon identifiers were added. Some are not the currently accepted synonyms, an additional column containing the currently accepted synonyms (as of 2024-02-26) was added.Column information (name, definition):type, organism type (fish or invert)common_name, common name as used in the main data table for the dataset.species_or_lowest_identifiable_taxon, Scientific name or lowest identifiable taxon for the common_name category.AphiaID, taxon identifier (AphiaID, see WoRMS) for the "species_or_lowest_identifiable_taxon"LSID, Lifescience Identifier (LSID) for the "species_or_lowest_identifiable_taxon" |
Fish and Invertebrate Survey Notes filename: fish_and_invert_survey_notes.csv (Comma Separated Values (.csv), 1.31 KB) MD5:9602c4f537e21ec6b78ab1fef0520d64 Notes from the fish and invertebrate survey. Columns : date, notes. |
Reef Cluster Site List filename: reef_cluster_site_list.csv (Comma Separated Values (.csv), 499 bytes) MD5:c1c109da3d9dd8eec65fca35dcf3f838 Artificial reef cluster site list for fish and invertebrate surveys conducted in 2022. Two different sites: reefs with name PN# were constructed in May 2021, and CM# were constructed in May 2022. At each site three clusters of nine reefs were constructed. Each cluster was separated by at least 150 m and were constructed at ~3 m depth.Column name, description, units:reef_name, Reef cluster identifierlat_dd, site latitude, decimal degreeslon_dd, site longitude, decimal degreesConstruction_Month, Month of reef construction (format: %b, .e.g. "May")Construction_Year, Year of reef construction (format: %Y, e.g. "2021")Site_Description, Description of the site location and island. |
Parameter | Description | Units |
Observer | observer | unitless |
Date | start date of survey (local time zone, Eastern Time EST/EDT) | unitless |
Time | start time of survey (local time zone, Eastern Time EST/EDT) | unitless |
Assembly_day | days after being built | unitless |
Cluster | unique cluster ID | unitless |
cluster_lat | latitude of cluster location | decimal degrees |
cluster_lon | longitude of cluster location | decimal degrees |
Reef | unique reef ID | unitless |
Species | Organism identification category (this is the "common_name" column in Supplemental File: "Fish and Invertebrate Species List (with Taxon IDs)" ) | unitless |
Count | Abundance (count per individual) | unitless |
Legal | “Legal” and “Not-legal” refer to the legal harvest size of lobster in the surveys which is any individual with a tail > 5 inches. | unitless |
Not_legal | “Legal” and “Not-legal” refer to the legal harvest size of lobster in the surveys which is any individual with a tail > 5 inches. | unitless |
Notes | notes from datasheet, etc | unitless |
ISO_DateTime_UTC | Survey start DateTime with timezone (UTC, ISO 8601 format) | unitless |
NSF Award Abstract:
Tropical coastal marine ecosystems (e.g., coral reefs, seagrass beds, and mangroves) are among the most productive ecosystems in the world providing important services, such as fisheries, to millions of people. Despite this, they are also among the most impaired ecosystems, necessitating improved understanding of the mechanisms that underpin their productivity. This project seeks to understand the key factors that drive ecosystem production in a degraded coastal ecosystem in Haiti using artificial reefs. Past research has shown that artificial reefs have substantial potential to increase the number and diversity of plants and animals, but the extent to which this can be achieved at scales relevant to society remains unknown. This project is constructing clusters of artificial reefs to test how (1) spatial arrangement and (2) fishing pressure (fished/not fished) influence the productivity of seagrass, coral, and fish over the course of four years. The fishing treatment is being implemented through collaborations with local fishers whereby small-scale no-take zones are created around three of the six artificial reef clusters. A unique aspect of the research is that it capitalizes on the experimental design to simultaneously achieve an important conservation initiative, while testing ecological theory. Community engagement and outreach are integrated directly into the research and local fishers are being surveyed to assess the extent to which fishing occurred on any of the artificial reefs. This research represents a novel effort to integrate experimentation with cutting-edge community-based conservation initiatives in one of the most impoverished regions of the world. The project is improving strategies for conservation and reef management.
Identifying the factors that regulate the structure and function of ecosystems is a fundamental challenge for ecological theory and applied science. This challenge is often framed within the context of Top-Down (TD) versus Bottom-Up (BU) regulation, but the extent to which this framework can predict processes in complex, real-world ecosystems is not fully understood. It is now widely recognized that TD/BU factors do not act in isolation. For example, in many ecosystems, consumers contribute to both TD (via consumption) and BU (via excretion) pathways. Environmental factors, including human-induced change, can further alter the nature of these interactions. Quantifying the strength of TD and BU pathways and the extent to which they regulate the structure and function in highly dynamic ecosystems requires an experimental system that is sufficiently tractable that all its components can be quantified, while still being representative of real ecosystems. To address this challenge, this research project creates a unique ecosystem-scale artificial reef (AR) experiment in Haiti to test how two factors (AR structure, and fishing pressure) alter the strength of independent and interactive TD and BU pathways to regulate the structure and function of real-world reef ecosystems. Over the course of four years, the production of seagrass (surrounding the ARs), coral (transplanted onto the ARs), and fish (in and around the ARs) is being measured, providing a quantitative assessment of ecosystem-level production across the two treatments. Linear and structural equation models are used to measure the independent and interactive strengths TD and BU pathways, and to identify the suite of directional relationships between each trophic level that best predict overall ecosystem production. Harnessing the ability to use ecosystem-scale experiments and quantify production across all trophic levels in a highly complex, real-world system enables an unprecedented test of TD/BU theory.
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 |
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NSF Division of Ocean Sciences (NSF OCE) |