Washington Cooperative Fish & Wildlife Research Unit

Slides:

Advertisements

Similar presentations

Resident Fish Stock Status in the Palouse River and upper Crab Creek watersheds, Washington. Jason McLellan Washington Department of Fish and Wildlife.

Advertisements

Salmonid Population and Habitat Monitoring in the Lower Columbia/Columbia Estuary Provinces Oregon Department of Fish and Wildlife.

David McCormick & Simon Harrison

Geoscience and Ocean Management: Queen Charlotte Basin western Canada GeoHab 2003 May 2, 2003 J. Vaughn Barrie 1, Kim Conway 1, Manfred Krautter 2 and.

Bottom Lines: ENGOs and Groundfish Trawlers Develop Innovative Conservation Measures Scott Wallace Senior Research Scientist David Suzuki Foundation Deepsea.

Apex predators and human populations as structuring agents on coral reefs Jonathan L.W. Ruppert, Laurent Vigliola, Marie-Josée Fortin and Mark G. Meekan.

Long-Term Studies in Port Valdez, Alaska Long-Term Studies in Port Valdez, Alaska A. L. Blanchard, Howard. M. Feder, Carrie Parris and Hilary Nichols Institute.

Investigating the relationship between species richness and wilderness in the coastal temperate rainforest of Southeast Alaska. This poster represents.

The Discovery Corridor Concept and its Applicability January 13/14, 2004 workshop St. Andrews Biological Station, St. Andrews, N.B.

Seafloor mapping for fisheries management: MSA requirements and the NEFMC’s SASI model Chad Demarest Integrating Seafloor Mapping & Benthic Ecology Into.

Characterization of mesophotic benthic habitats and associated reef communities at Lang Bank, St. Croix Jorge (Reni) García-Sais, Rene Esteves, Stacey.

Analyses of Bering Sea bottom- trawl surveys in Norton Sound: Absence of regime shift effect on epifauna and demersal fish Toshihide “Hamachan” Hamazaki.

ODFW Marine Data Collection Efforts Northwest Area Committee Meeting November 2011 David Fox Oregon Department of Fish & Wildlife Marine Resources Program.

Global Mapping Technology Corvallis, Oregon Products and Training for GPS/GIS/SURVEY Tel:

Water column structure and zooplankton distribution along Trevor Channel, Barkley Sound Andrew Hamilton.

The relationship between riparian areas and biological diversity A comparison of streams in eastern Colorado and southwestern Virginia By Ann Widmer

ACTIVITY 2: SIZE AND SCALE MATTER! Original drawings by John Tenniel.

Using Climate Information in Fisheries Stock Assessments (with a focus on Pacific Whiting) Ian Taylor SMA 550: Climate Impacts on the Pacific Northwest.

Introduction to Mapping Sciences: Lecture #5 (Form and Structure) Form and Structure Describing primary and secondary spatial elements Explanation of spatial.

Port Orford Ocean Resource Team: Partnering Local and Scientific Knowledge With GIS for Community-based Management Vicki A. Wedell, Oregon State University.

1 Underwater video for observing the ecosystem: results and future developments Verena Trenkel, IFREMER, France.

Age-structured assessment of three Aleutian fish stocks with predator-prey interactions Doug Kinzey School of Aquatic and Fishery Sciences University of.

Using U.S. and Canadian Atlantic Research Trawl Surveys to Lead Development of a Standards Based Ocean Observing System R. Branton 1, J. Black 1, J. McRuer.

Science Behind Sustainable Seafood Population Estimation Alaska Fisheries Science Center.

To what extent is there excess sediment in the Middle Truckee River that impairs aquatic life use? Application of benthic macroinvertebrate bioassessment.

Northwest National Marine Renewable Energy Center Presentation before Washington State House Committee on Technology, Energy, and Communications Northwest.

Pacific Coast Groundfish Bycatch Management for Protected Species Implementing NOAA Fisheries’ Biological Opinion West Coast Region Alison Agness 1, Steve.

DFO National Workshop on survey design, database design and analysis of underwater video/photographic surveys. Stephen J. Smith 1, Peter Lawton 2 Pierre.

Nicole Hill*, E Lawrence, J Dambacher, A Williams, N Barrett, J Hulls, B Barker, S Nichol, V Lucieer, F Althaus, J Kool and K R Hayes Designing long-term.

Nearshore fish communities response to habitat variability Terril P. Efird School of Fisheries and Ocean Sciences University of Alaska Fairbanks.

OCEAN Modeling the linkages between marine ecology, fishing economy and coastal communities Astrid Scholz AAAS meeting, Seattle 13 February 2004.

Understanding Instream Flow Incremental Methodology (IFIM) Joey Kleiner.

Spatial Fisheries Values in the Gulf of Alaska Matthew Berman Institute of Social and Economic Research University of Alaska Anchorage Ed Gregr Ryan Coatta.

Partnership for Interdisciplinary Studies of Coastal Oceans PISCO.

P a c i f i c W e s t R e g i o n PWR: Benthic Habitat Mapping Status & Comments from the Field Penny Latham, Sandy Margriter, Marie Denn, Larry Basch.

Identifying Information Needs and Research Priorities for the North Aleutian Basin of Alaska Kirk LaGory North Aleutian Basin Information Status and Research.

Impacts of hypoxia on key benthic infauna and their predators in Chesapeake Bay Rochelle D. Seitz & W. Chris Long Virginia Institute of Marine Science,

Assessing Linkages between Nearshore Habitat and Estuarine Fish Communities in the Chesapeake Bay Donna Marie Bilkovic*, Carl H. Hershner, Kirk J. Havens,

U.S. Beaufort Sea Fish Communities Brenda L. Norcross and Lorena E. Edenfield School of Fisheries and Ocean Sciences University of Alaska Fairbanks Photo.

The Marine Regions of Canada. The Atlantic Marine Landforms Large southern shelf areas (Grand Banks, Soctian Shelf) as well as the Northwest Atlantic.

4/24/2017 Juvenile Salmon Ecology in the Lower Columbia River and Estuary: Tidal Freshwater Research Presented by Nichole K. Sather Northwest Power &

Marine Protected Areas (MPA) Project Overview of project and Geoprocessing.

Chesapeake Bay Fishery- Independent Multispecies Survey (CHESFIMS) T. J. Miller 1, C. J. Heyer 1, E. D. Houde 1,A. F. Sharov 2, B. Muffley 2, M. C. Christman.

© Phil Hurvitz, Introduction to Geographic Information Systems and their Potential Uses as Management Tools in Commercial Shellfish Farming Introduction.

SCM 330 Ocean Discovery through Technology Area F GE.

Groundfish Essential Fish Habitat (EFH) GIS Mapping Van Hare Pacific States Marine Fisheries Commission.

Marine Biology Where have we been, and where are we going?

Spatial Reasoning for “Terra Incognita” Challenges and Progress of Coastal/Marine GIS Dawn Wright Department of Geosciences Oregon State University.

Modelling the distribution of sub- Antarctic demersal fish communities: An application of new community –modelling method 1 Nicole Hill, Scott Foster,

Laemonema melanurumLaemonema barbatulum Helicolenus dactylopterus Pontinus rathbuni Idiastion kyphos Neomerinthe hemingwayi Table 2. Dominant species by.

Hydrographic Services Review Panel October 2010 David Fox Oregon Department of Fish & Wildlife Marine Resources Program Use of seafloor mapping data in.

OMSAP Public Meeting September 1999 Nearfield Hard-bottom Benthic Communities Barbara Hecker Hecker Environmental September 23, 1999.

WhaleWatch: Using Satellite Data and Habitat Models to Assist Management in Reducing Human Impacts on Whales Helen Bailey B. Mate, E. Hazen, L. Irvine,

Dramatic declines in Euphausia pacifica abundance in the East China Sea: response to global warming? Zhaoli XU, Dong ZHANG East China Sea Fisheries Research.

Empirical comparison of historical data and age- structured assessment models for Prince William Sound and Sitka Sound Pacific herring Peter-John F. Hulson,

GULF OF MAINE MAPPING INITIATIVE: A FRAMEWORK FOR REGIONAL FISHERIES RESEARCH AND MANAGEMENT Sara Ellis 1, Thomas Noji 2, Susan Snow-Cotter 3, Brian Todd.

Coastal and marine ecosystems are endowed with unique habitats with a rich biodiversity and abundance of species. Information on the habitat preference.

Time Series Observations along Line P Frank Whitney Emeritus, Fisheries and Oceans Canada.

Cool tributary 26°C Subsurface inputs 25°C Coldwater refugia in high desert streams Thalweg 27°C.

Science-based “rules of thumb” for the design of marine protected area networks Mark H. Carr Dept. of Ecology and Evolutionary Biology, University of.

Sea Surface Temperature as a Trigger of Butterfish Migration: A Study of Fall Phenology Amelia Snow1, John Manderson2, Josh Kohut1, Laura Palamara1, Oscar.

Developments in Seabed Mapping

Charlotte Levy1 & Eloise Brown2

Puget Sound Coastal Geomorphology

Applying GIS to Santa Cruz Island:

Ken Coyle, Russ Hopcroft & Alexei Pinchuk

Hypotheses (motivate these in your introduction, discuss them in your discussion in the context of the results) There are patterns of association between.

Questions Do fish species differ in relative abundance as a function of zone (shallow, deep) This should be in the context of a specific set of predictions.

Hypotheses (motivate these in your introduction, discuss them in your discussion in the context of the results) There are patterns of association between.

Sampling Design.

Presentation transcript:

Washington Cooperative Fish & Wildlife Research Unit Groundfish habitat associations from video survey with a submersible off the Washington state coast Susan Wang, Tom Jagielo, Farron Wallace, Jack Tagart, Glenn VanBlaricom, Dave Beauchamp Washington Cooperative Fish & Wildlife Research Unit April 20, 2005

Background Pacific Coast groundfish populations: Management concerns: Include a diversity of species (rockfish, flatfish, hexagrammids) Are a major resource in commercial and recreational fisheries Have experienced significant declines Management concerns: Magnuson-Stevens Act (amended 1996) mandates designation of Essential Fish habitat for all managed species Limited knowledge of habitat use for groundfish populations Fisheries & Oceans Canada http://db.id.ucsd.edu

Background Benthic groundfish habitat studies: California, Oregon, Alaska, British Columbia coasts Describe relationships between groundfish and substrate types Provide information for survey design, essential fish habitat, and management plans Washington coast continental shelf: Need more information on fish habitat outside of Puget Sound August 2002 visual survey in ‘untrawlable’ areas http://db.id.ucsd.edu

Survey site Transect Designated untrawlable areas: gridded areas Sample stations: grid cells Surveyed sample stations: shaded grid cells Transect

Survey Methods August 2002 Survey: Visual strip-transects using Delta submersible Sampled 50 stations All dives during daylight Depths between 102 to 225m

Survey Objectives Project Objectives Field test new visual survey gear Estimate fish density within untrawlable areas to compare with trawl survey estimates Greenstriped rockfish, Sebastes elongatus By Rick Starr http://db.id.ucsb.edu Project Objectives Characterize habitat within ‘untrawlable areas’ Physical substrate Benthic macroinvertebrates Characterize fish-habitat associations Community level distribution and associations Species specific distribution and associations Associations with habitat features Associations at different spatial scales

Habitat characterization Bottom habitat classification (Stein et al., 1992): Two-letter code: Primary (>50% of viewed area) substrate Secondary (>20% of viewed area) substrate Substrate Types: Sand/mud Pebble Bedrock Cobble Boulder -scattered -contiguous -stacked Ridges “Trawlable” “Untrawlable” Other features: relief, surface complexity or features, number of crevices, slope, biological attributes, invertebrate species/groups

Flat sand-mud habitat (SM) Lasers provide a measure of scale to distinguish size of habitat features 2 feet

Cobble-scattered boulders (CB1)

Stacked Boulders (BB3)

Habitat Characterization Dominated by low complexity habitat : Sand/pebble/cobble: 81% Scattered boulder: 13% Boulder patches: 6% Survey area characterized by: Heterogeneous mix of substrates Patches of habitat types and invertebrates

Habitat Characterization

Invertebrates Crinoids Providing structure and relief Sponge garden Crinoids encrusting on boulders Sponge gardens on flat sandy bottoms Other invertebrates: Other sponges, basket stars, anemones Sponge garden

Fish Distribution

Total Fish Distributed across all regions, with lowest density in low relief region Regions (105 m) Transects (104 m) Transect level: significantly greater density in mixed transects Within transect (10-100 m) Within transect: significantly greater density over boulder substrates

Yelloweye rockfish Identified and counted 59 individuals www.pcouncil.org/groundfish/gfavoidyellow.html Sebastes ruberrimus Identified and counted 59 individuals Observed at depths of 102 to 164 meters Occupied all but the most nearshore region

Yelloweye rockfish Regional distribution Transect level Regions (105 m) Regional distribution General increase in density with increasing proportion of boulder habitat Transects (104 m) Transect level Significantly greater density in mixed substrate transects compared to low relief transects

Yelloweye rockfish Macroscale (10-100 m) Microscale (1-10 m) Within transect (10-100 m) Macroscale (10-100 m) Significantly greater density within boulder patches compared to other habitat types Microhabitat (1-10 m) Microscale (1-10 m) Preference for contiguous to stacked boulder substrates (Chesson’s alpha electivity index)

Yelloweye Habitat Associations Trend in association with boulder substrates consistent across spatial scales

Summary – Habitat associations Majority of survey area characterized by low relief substrates Patchiness within regions and transects – boulder patches Fish-Habitat Associations Diversity of species observed and counted Greatest fish density observed in boulder habitat Yelloweye rockfish associated with complex boulder habitat, similar to observations in other areas off the US West coast. Further Work and Applications Community level associations Quantitative models to compare relationships across habitat types Application to survey design, EFH, management concerns

Acknowledgements Funding & Support: National Marine Fisheries Service Washington Department of Fish and Wildlife Washington Cooperative Fish & Wildlife Research Unit Beauchamp Lab VanBlaricom Lab UW School of Aquatic and Fishery Sciences Egtvedt Scholarship ARCS Fellowship: Candice Rosenberg Endowment UW Department of Biology and Department of Oceanography Equipment & Field support: Delta Oceanographics Velero IV Research Vessel