Identification_Information: Citation: Citation_Information: Originator: Dr. Jennifer Smith Originator: Ms. Emily Kelly Publication_Date: Unknown Title: Coral Reef Ecosystem Data from the 2010-2011 Kahekili Herbivore Fisheries Management Area, West Maui, Herbivore Enhancement as a Tool for Reef Restoration Project (NODC Accession 0082869) Online_Linkage: https://www.ncei.noaa.gov/archive/accession/0082869 Description: Abstract: This research targets the Hawaii Coral Reef Initiative (HCRI) Priority Area A: Kahekili, Maui: Herbivore Fisheries Management Area (KHFMA). The project goal was to evaluate the efficacy of this new management action by developing a detailed algal production/herbivore consumption budget. The KHFMA was established in an effort to promote herbivore grazing and thus reverse the decline in coral cover on the reef through increased algal consumption. Because it may take several years for monitoring programs of fish and benthic communities to detect changes associated with the recent protection from fishing at KHFMA, additional data are needed to identify benchmarks of success. By developing a growth/consumption budget for the algal and herbivore communities at KHFMA, this will enable the determination how much algae is currently being grazed and how many more herbivores would be needed to actually begin controlling algal abundance at Kahekili. Observations of fish and urchin consumption of algae were made during 2010-2011 at KHFMA. Additional observations were made at Lanai Lighthouse, which is the SW corner of the island of Lanai and Canoe Beach, which is just south of KHFMA, in 2009. Laboratory experiments were conducted at the Maui Ocean Center in 2010-2011. Purpose: The project goal was to evaluate the efficacy of this new management action by developing a detailed algal production/herbivore consumption budget. Supplemental_Information: NOAASupplemental: Entry_ID: Unknown Sensor_Name: SCUBA Project_Campaign:Hawaii Coral Reef Initiative Originating_Center: Center for Marine Biodiversity and Conservation, Scripps Institute for Oceanography Storage_Medium: MS 2007 Excel Reference: None Online_size: 11,387 kbytes Time_Period_of_Content: Time_Period_Information: Range_of_Dates/Times: Beginning_Date: 20090728 Ending_Date: 20110725 Currentness_Reference: ground condition Status: Progress: Complete Maintenance_and_Update_Frequency: None Planned Spatial_Domain: Bounding_Coordinates: West_Bounding_Coordinate: -156.967 East_Bounding_Coordinate: -156.685 North_Bounding_Coordinate: 20.951 South_Bounding_Coordinate: 20.733 Keywords: Theme: Theme_Keyword_Thesaurus: NCEI Geoportal Filter Theme_Keyword: CoRIS_Metadata Theme: Theme_Keyword_Thesaurus: None Theme_Keyword: coastal data Theme_Keyword: coral reef Theme_Keyword: biological data Theme_Keyword: species: fish, urchin, coral, and algae Theme_Keyword: weight: fish and urchin Theme_Keyword: algae consumed: grams per daylight hour, percent consumed, percent per Theme_Keyword: daylight hour, percent tissue removed, grams tissue removed, bites per Theme_Keyword: minute, bite size, rate of consumption, grazing rate Theme_Keyword: experiments: average growth rate of algae in cages and on ropes Theme: Theme_Keyword_Thesaurus: ISO 19115 Topic Category Theme_Keyword: biota Theme_Keyword: 002 Theme: Theme_Keyword_Thesaurus: CoRIS Discovery Thesaurus Theme_Keyword: Numeric Data Sets > Biology Theme: Theme_Keyword_Thesaurus: CoRIS Theme Thesaurus Theme_Keyword: EARTH SCIENCE > Biosphere > Vegetation > Algae Theme_Keyword: EARTH SCIENCE > Oceans > Marine Biology > Fish Place: Place_Keyword_Thesaurus: None Place_Keyword: North Pacific Place_Keyword: Hawaii Place_Keyword: Maui Place_Keyword: Lanai Place_Keyword: Kahekili Beach Place_Keyword: Kahekili Herbivore Fisheries Management Area Place_Keyword: Lanai Lighthouse Place_Keyword: Canoe Beach Place: Place_Keyword_Thesaurus: CoRIS Place Thesaurus Place_Keyword: OCEAN BASIN > Pacific Ocean > Central Pacific Ocean > Hawaiian Islands > Maui Island > Maui Island (20N156W0004) Place_Keyword: COUNTRY/TERRITORY > United States of America > Hawaii > Maui > Maui Island (20N156W0004) Place_Keyword: OCEAN BASIN > Pacific Ocean > Central Pacific Ocean > Hawaiian Islands > Lanai Island > Lanai Island (20N156W0002) Place_Keyword: COUNTRY/TERRITORY > United States of America > Hawaii > Maui > Lanai Island (20N156W0002) Place: Place_Keyword_Thesaurus: CoRIS Region Place_Keyword: MHI Stratum: Stratum_Keyword_Thesaurus: None Stratum_Keyword: shallow coastal area < 20m Access_Constraints: None Use_Constraints: Dataset credit required Point_of_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Ms. Emily Kelly Contact_Organization: Scripps Institution of Oceanography Contact_Position: graduate student Contact_Address: Address_Type: Mailing and physical address Address: Center for Marine Biodiversity and Conservation Address: 8750 Biological Grade Address: Rm. 2255 Hubbs Hall City: La Jolla State_or_Province: CA Postal_Code: 92037-0202 Country: USA Contact_Voice_Telephone: (919) 949-7399 Contact_Electronic_Mail_Address: elkelly@ucsd.edu Data_Set_Credit: Hawaii Coral Reef Initiative Center for Marine Biodiversity and Conservation Scripps Institution of Oceanography University of California, San Diego Native_Data_Set_Environment: MS Office Excel 2007 Data_Quality_Information: Logical_Consistency_Report: see methodology Completeness_Report: quality control completed Lineage: Process_Step: Process_Description: METHODOLOGY: (1) Identify the consumption/production budget for herbivorous fishes & sea urchins and benthic algae at the Kahekili Herbivore Fisheries Management Area (KHFMA). To determine the growth rates of common species of macroalgae on the reef, a growth assay composed of mesh cages (plastic 1 cm diameter mesh cylinders with samples of representative algae from Kahekili was deployed at 10m intervals along 150m shallow (6ft) and deep (20ft) transects at each site. Algal species included turf algae and common macroalgae found on the reef including: Acanthophora spicifera, Ulva fasciata, Amansia glomerata, and Turbinaria ornata. Prior to establishing cages, algal fragments (not including holdfast) were collected and transferred to baggies for transport to the lab. Algae were gently spun, blotted, and reef with algae samples to determine consumption and weighed to obtain initial wet weight and then replaced in mesh pockets for overnight bubbling and return to the reef. After 4 to 7 days, algae were removed and transported via labeled baggies to the lab to obtain final wet weight of algae. Changes in weight were compared to determine growth over the period of deployment. In combination with the cages, ropes were also deployed with algae attached (i.e. exposed to grazers) at 10m intervals along 150m shallow and deep transects at each site. Algae species were the same as those used in the growth assay cages and similarly weighed before and after deployment. Changes in weight over the period of deployment were combined with algae growth data from growth assays to calculate the herbivorous fish community grazing rate on each species of macroalgae. To determine the grazing preferences and grazing rates of individual species of herbivorous fish, divers performed fish behavior observational surveys. Divers followed individuals of the families Scaridae (parrotfish, uhu) and Acanthuridae (surgeonfish, tangs, manini, kole, etc.) to record bite rates and type of substrate (different types of algae, coral, sand, etc.) consumed by fish during 3-5 minute timed swims. If fish behavior appeared to be altered by diver observation, observation of that fish was terminated and the data excluded from analysis. At least 10 observations were made for each of the most common species of herbivorous fishes as determined from DAR fish survey data. To verify observational data, gut contents were analyzed from a small sample of representative Acanthurids speared at Kapalua Bay (a somewhat analogous reef to Kahekili that is not protected) and Scarids purchased at a fish market. Fish were dissected within hours of being caught or frozen immediately for later dissection with minimal enzymatic activity degrading gut contents. Contents were analyzed in the lab to algae functional group and compared to observation data. (2) Examine the differential effects of urchin versus fish grazing on benthic community structure In order to discern grazing rates of urchins on common macroalgae species on Maui reefs and to determine whether urchins and fish are functionally redundant grazers on the reef, urchin grazing experiments were conducted at the Maui Ocean Center in large flow-through tanks. Similarly to fish assays, algae were weighed before and after deployment to determine grazing over time. Each experiment had three controls to account for growth over deployment. Algae thalli were rubber-banded to a fishing weight at the bottom of each enclosure. Experiments included common fleshy algae at Kahekili: Acanthophora spicifera, Ulva fasciata, and Amansia glomerata, as well as Hypnea musciformis, a common invasive alga around Maui though not present at Kahekili. Choice experiments involved three species of algae in a given enclosure and lasted 24 hours. In addition to explicit grazing experiments, we further examined the role of urchins and fish in situ. This work involved four caging treatments including 1) closed cage excluding fish and urchins, 2) closed cage including urchins only, 3) open-top cage including urchins and open to fish, and 4) open-top cage excluding urchins and open to fish. There were six replicates of these four cage treatments plus six control quadrats marked by two stakes. Cages were made of vinyl-coated chicken wire (1-in mesh) and measured 0.5 x 0.5 m. Cages were established on areas composed of algae and coral cover, with care taken to prevent injury to coral. Cages with urchins had one urchin per cage (similar to natural densities on the reef), collected from the site of the experiment and released back on to the reef after the completion of the experiment. Data were collected every two weeks for the first three months and every three months thereafter. The experiment ran for one year. Measurements included photoquads for composition analysis, height of algae, and benthic composition. Percent cover of benthic species and an algal index were calculated from these measurements. The algal index is the height of algae multiplied by the percent cover of the species. (3) Determine if relationships exist between grazing intensity and benthic community composition around Maui Island Through collaboration with DAR and NOAA CRED, data from CRAMP benthic cover and WHAP fish biomass data were collected for sites around Maui to compare grazing intensity at each site with benthic composition. Fish bite rate data (from Obj 1) was used in this analysis to compare grazing preference and intensity v. benthic cover. Fish biomass data at WHAP sites were combined with fish bite data collected at KHFMA and compared to benthic cover at CRAMP sites. Comparison of grazing intensity and benthic cover occurred at those locations where fish and benthic data are taken. (4) Determine how nutrient enrichment may affect grazing susceptibility on different algal taxa To identify whether herbivores preferentially consume algae with higher tissue nutrient levels, species of algae that were most highly favored by herbivores, Acanthophora spicifera and Ulva fasciata, were collected from a naturally high nutrient site (Waipulani) and divided into treatments to be grown in full sun in aquariums of high or low nutrient water over the following ten days. Water was collected from Olowalu, West Maui (low nutrient water) and was supplemented with .05 g / gallon crushed Osmocote pellets in seawater to increase water nutrients for high nutrient treatments. Water samples were taken daily to confirm elevated nutrient levels. High and low nutrient samples for Ulva and Acanthophora were deployed on the reef for up to 3 days as in the grazing assays in Objective 1. Urchin assays were conducted as in Objective 2. Nutrient-enrichment grazing assays for fish and urchins were repeated using naturally enriched and unenriched algae samples to control for the potential of laboratory manipulation during enrichment / desaturation altering the outcome of grazing preferences. Samples were collected, weighed, and deployed on the reef within 24 hours of collection. High nutrient samples were collected at Waipulani. Low nutrient samples were collected at Olowalu (Acanthophora) and Puamana (Ulva). INSTRUMENT TYPES: SCUBA, collection bags, cages, ropes Process_Date: Unknown Process_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Ms. Emily Kelly Contact_Organization: Scripps Institution of Oceanography Contact_Position: graduate student Contact_Address: Address_Type: Mailing and physical address Address: Center for Marine Biodiversity and Conservation Address: 8750 Biological Grade Address: Rm. 2255 Hubbs Hall City: La Jolla State_or_Province: CA Postal_Code: 92037-0202 Country: USA Contact_Voice_Telephone: (919) 949-7399 Contact_Electronic_Mail_Address: elkelly@ucsd.edu Entity_and_Attribute_Information: Overview_Description: Entity_and_Attribute_Overview: DIRECTORY ORGANIZATION, FILE NAMES AND FORMATS: about/ Metadata file: HCRI_finalreport_SMITH.pdf format: PDF-archive content: Final report to the Hawaii Coral Reef Initiative. file: JenniferSmithHCRI2011.pdf format: PDF-archive content: A progress report to the Hawaii Coral Reef Initiative. data/ holds data subdirectories: 0-data/ This directory contains the original files as provided by the contributor filename: Enrichment_fishurchins_100511_SMITH_HCRI_submitted.xlsx format: MS Office Excel 2007 content: metadata and data on fish, urchins, and algae by category of environment (enriched vs. unenriched) filename: Fish_bite_datasheet_100511_SMITH_HCRI_submitted.xlsx format: MS Office Excel 2007 content: metadata and data on fish consumption (coral, turf, algae, etc). filename: Fish_urchin_expt_100511_SMITH_HCRI_submitted.xlsx format: MS Office Excel 2007 content: metadata and data on fish and urchin species, sizes, bites per minute by food type (turf, coral, algae, etc). filename: Grazing_assays_100511_SMITH_HCRI_submitted.xlsx format: MS Office Excel 2007 content: metadata and data on grazing assays 1-data/ This directory contains files generated by NODC. These files are comma-separated version (CSV) text exports of the unique sheets of the original MS Excel files in 0-data/. There is one file for each sheet within each original MS Excel file. The file name is the original MS Excel filename root appended with the individual sheet name. file: Enrichment_fishurchins_100511_SMITH_HCRI_ALL_FISH.csv content: Nutrient Enrichment Experiment, roof enriched fish at KHFMA 1) Percent Tissue Removed as a function of depth (shallow: 5-8 ft, deep: 16-18 ft), algae (Acanthaphora, Ulva) and category (naturally unenriched, naturally enriched, unenriched, 0.2g or 0.4g enriched). 2) G Tissue Removed as function of same variables file: Enrichment_fishurchins_100511_SMITH_HCRI_Natural_fish.csv content: Specifics for fish naturally enriched at KHFMA. Specimens from Waipulani, Puamana, and Olowalu. Columns clarified in discussion of Methods above. file: Enrichment_fishurchins_100511_SMITH_HCRI_Roof_fish.csv content: Specifics for roof enriched fish at KHFMA as a function of depth, algal type, enrichment type file: Enrichment_fishurchins_100511_SMITH_HCRI_Roof_urchins_Expt_1.csv content: Nutrient Enrichment Experiment, part 1 of experiment, roof enriched, urchins at the Maui Ocean Center (MOC), as a function similar to fish experiments. See Methodology for an explanation. file: Enrichment_fishurchins_100511_SMITH_HCRI_Roof_urchins_Expt_2.csv content: Nutrient Enrichment Experiment, part 2 of experiment, roof enriched, urchins at the Maui Ocean Center (MOC), as a function similar to fish experiments. See Methodology for an explanation. file: Enrichment_fishurchins_100511_SMITH_HCRI_submitted_metadata.csv content: metadata associated with the project file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_avg_bites_min_g.csv content: independent variables: date, time, depth, fish family, species, common name, species code dependent variables: acquire average rate of consumption of algae column: sizecm content: size of fish (cm) column: Bio(g)Record content: weight in grams column: TL to SL_FL factor content: size ratio factor column: A content: calculation parameter column: B content: calculation parameter column: sex content: m: male f: female column: min content: how many minutes recored column: bites/min content: how many bites of turf occurred per minute column: /min/g content: estimated grams of turf in each bite Note: can be turf, CCA, Halymenia, Triclecarpa, Asparagopsis, Turbinaria, Tolypiocladia, other macroalgae, Sand, coral, other file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_bites_per_minute_per_g_herb.csv content: independent variable: species, sex, and size of herbivore fish and duration (seconds or minutes) of observation dependent variables: bites per minute of each as above file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_bites_per_minute_pivot.csv content: as previous file yet for pivot fish file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_CALC_g_per_min.csv content: Bite rates per minute with bite size (from bite size spreadsheet 842411). file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_g_alg_min_g_fish.csv content: INCOMPLETE, please ignore this file file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_metadata.csv content: metadata associated with the project file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_Original_data.csv content: Fish bite observations from Kahekili area independent variables: site, GPS (no data), date, time, diver, species, sex, size, average depth (feet), End time (length of observation, as minutes:seconds and total seconds) dependent variables: of what was bitten file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_Sheet1.csv content: please ignore, a working table file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_sp.csv content: fish species common name, family, and general species file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_total_bite_min_m2_C.csv content: a comparison with Division of Aquatic Resources fish bite data made in 2008-2009 for select species at Canoe Beach and also DAR sites on Maui and Lanai file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_total_bite_min_m2_K.csv content: same as above yet for Kahekili file: Fish_bite_datasheet_100511_SMITH_HCRI_submitted_total_bite_min_m2_LL.csv content: same as above yet for Lanai Lighthouse file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_algal_index.csv content: an algal index is defined for open areas versus KHFMA for cases of : urchins only, fish plus urchins, fish only, no herbivores. file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_code_key.csv content: code names for select species as well as nicknames file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_Heights_FG.csv content: measurements of submitted heights (mm*10) of bites from urchins for select species and file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_height_with_percent_cover.csv content: calculated percent cover of substrate versus file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_metadata.csv content: metadata associated with the project file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_Primer.csv content: Pictures used as basis for estimating height of bite (mm*10) as a function of substrate and file: Fish_urchin_expt_100511_SMITH_HCRI_submitted_Turf_and_As.csv content: heights of bites (mm*10) as a function of substrate and file: Grazing_assays_100511_SMITH_HCRI_submitted_4_sp_grazing.csv content: laboratory tests at the Maui Ocean Center Species, sampling period, weight (grams), amount consumed (grams) file: Grazing_assays_100511_SMITH_HCRI_submitted_grazed_ggday.csv content: Grazing rates (rope growth grams, grams/day-growth, grams/day-grazed ) for select species at Kahekili, Canoe Beach and Lanai file: Grazing_assays_100511_SMITH_HCRI_submitted_metadata.csv content: general metadata for project file: Grazing_assays_100511_SMITH_HCRI_submitted_Summer_2010_grazing_assays.csv content: Kahekili, Lanai, and Canoe Beach grazing assays as function of sampling period, depth, treatment and select species, initial and final wet weight (grams), initial and final dry weight (grams). 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Caldwell Contact_Organization: NOAA/NESDIS/NODC/NCDDC Contact_Position: Hawaii/US Pacific Liaison Contact_Address: Address_Type: mailing Address: 1000 Pope Road, MSB 316 Address: Dept. of Oceanography Address: University of Hawaii at Manoa City: Honolulu State_or_Province: Hawaii Postal_Code: 96822 Country: USA Contact_Voice_Telephone: (808)-956-4105 Contact_Facsimile_Telephone: (808) 956-2352 Contact_Electronic_Mail_Address: caldwell@hawaii.edu Hours_of_Service: 8 AM to 5 PM weekdays Contact_Instructions: check services@nodc.noaa.gov if not available Metadata_Standard_Name: FGDC CSDGM Metadata_Standard_Version: FGDC-STD-001-1998 CoRIS: CoRIS_ID: 20111230060211 CoRIS_Children: None CoRIS_Beginning_Date: 20090728 CoRIS_Ending_Date: 20110725 CoRIS_Metadata_Link: https://www.coris.noaa.gov/metadata/records/html/fgdc_metadata_0082869.html CoRIS_Tracking_ID: 6433