• 
  • AFSC Home
  • About the AFSC
    • AFSC Overview
    • Administration
    • Organizational Chart
  • Current Research
  • Directory
  • Divisions & Labs
    • Divisions & Labs Overview
    • Auke Bay Lab
    • FMA Division
    • National Marine Mammal Lab
    • RACE Division
    • REFM Division
  • Facilities
    • AFSC Facilities Overview
    • Western Regional Center (Seattle)
    • Auke Bay Laboratories
    • Ted Stevens Marine Research Institute
    • Kodiak Laboratory
    • Little Port Walter
    • Dutch Harbor (Observers)
    • Anchorage (Observers)
    • Newport Laboratory
  • Jobs
    • NOAA
    • Observers
    • Internships
  • Libraries
    • Montlake (AFSC-NWFSC)
    • NOAA (West)
    • NMML
  • Links
  • Map & Directions
  • News Releases
  • Seminar Series
  • Site Map
• 
  • Flatfish
    • Arrowtooth Flounder
    • Rock Sole
    • Yellowfin Sole
  • Forage Species
  • Groundfish
    • Walleye Pollock
    • Pacific Cod
    • Atka Mackerel
    • Sablefish
    • Halibut
    • Lingcod
  • Grenadiers
  • Rockfish
    • Pacific Ocean Perch
    • Northern Rockfish
    • Shortraker Rockfish
    • Rougheye Rockfish
    • Pelagic Shelf Rockfish
    • Other Slope Rockfish
  • Salmonids
  • Sharks
  • Skates
  • Invertebrates
    • Deep-sea Corals
    • Crabs
    • HAPC Fauna
  • Seals, Sea Lions, Fur Seals
    • Steller Sea Lion
    • California Sea Lion
    • Northern Fur Seal
    • Harbor Seal
    • Ribbon Seal
    • Ringed Seal
    • Bearded Seal
    • Spotted Seal
    • Northern Elephant Seal
  • Whales, Dolphins, Porpoises
    • Beluga Whale
    • Gray Whale
    • Harbor Porpoise
    • North Pacific Right Whale
    • Bowhead Whale
    • Humpback Whale
    • Blue Whale
    • Killer Whale
  • Seabirds
  • Unusual Species
• 
  • Auke Bay Lab
    • Marine Ecology & Stock Assessment
    • - Stock Assessment
    • - Surveys & Field Studies
    • - Marine Ecology
    • Habitat Assessment & Marine Chemistry
    •   - Nutritional Ecology
    •   - Contaminants & Oil
    •   - Nearshore Habitats
    • Marine Salmon Interactions
    •   - Early Marine Ecology
    •   - Stock Assessment & Enhancement
    • Ocean Carrying Capacity
    •   - BASIS Int'l Salmon Survey
    •   - Global Ocean Ecoystems Dynamics
    •   - Ecosystem Monitoring & Analysis
    •   - Stock Identification & Analysis
  • FMA Division (Observer Program)
  • National Marine Mammal Laboratory
    • Alaska Ecosystems
    • California Current Ecosystems
    • Cetacean Assessment Ecology
    • Polar Ecosystems
    • Systemic Management
  • RACE Division
    • Fish Behavioral Ecology
    • Groundfish Assessment
    •   - Assessment Surveys
    •   - Habitat Research
    •   - POP Habitat Studies
    • Midwater Assessment &
      Conservation Engineering
    • Recruitment Processes
    •   - Biological Oceanography
    •   - ELH & Taxonomy
    •   - Forage Fish Ecology
    •   - Ichthyoplankton Dynamics
    •   - Modeling and Analysis
    • Shellfish Assessment
    •   - EBS Annual Crab Survey
    •   - EFH for Blue King Crab
    •   - Larval Cultivation
    •   - Other Kodiak Research
    •   - Pathobiology
    • Research Fishing Gear
  • REFM Division
    • Age & Growth Studies
    •   - Ageing Statistics
    •   - Otolith Collections
    •   - Species Aged
    • Resource Ecology & Ecosystems
      Modeling
    •   - Ecosystem Assessments
    •   - Ecosystem Modeling
    •   - Food Habits
    •   - Seabird Interactions
    • Status of Stocks & Multispecies
      Assessments
    •   - Stock Assessments
    •   - Fisheries Interactions
    • Socioeconomic Assessment
    •   - Economic Status Reports
    •   - Research Projects
  • Habitat & Ecological Processes
    • Essential Fish Habitat
    • Loss of Sea Ice
    • Ocean Acidification
  • Kodiak Lab
  • International Research
• 
  • New Publications by AFSC Authors
  • Publications Overview
  • Publications Database
  • Poster Presentations
  • Processed Reports
  • Quarterly Report
    • Archives
    • Index
    • Feature Articles
    • Feature Archives
  • RACE Cruise Report Archives
  • Reports to Industry
  • Stock Assessments
  • Tech Memos
  • Yearly Lists
  • Fur Seal Bibliography Database
• 
  • Data & Tools Overview
  • Age & Growth
    • Age & Growth Statistics
    • Age Requests
    • Age Reading Interactive Demo
    • Otolith Collections
  • Catch & Surveys
    • RACE Groundfish Survey Data
    • Data Maps: Domestic, Foreign,
      Surveys
    • Historical EBS Bottom Trawl Index
    • Historical Groundfish Estimates
    • Ichthyoplankton Cruise Data
    • Observer Data
    • Observer Maps
  • Exxon Valdez Hydrocarbons
  • Life History
    • Ichthyoplankton Information
      System
    • REEM Life History Data (Fish)
  • Marine Mammals
    • Fur Seal Bibliography Database
    • Juneau Humpback Whale Catalog
    • Steller Sea Lion Database
    • Steller Sea Lion Telemetry
  • Ocean Currents
  • Publications
    • AFSC Publications
    • AFSC Poster Presentations
    • Fur Seal Bibliography
  • Spatial Data & Maps
    • Domestic & Foreign Harvests,
      EBS Surveys
    • Essential Fish Habitat (EFH)
    • GIS at NMFS
    • Nearshore Fish Atlas of Alaska
    • RACE Groundfish Survey Data
    • Regulatory Areas
    • Shorezones
    • Steller Sea Lion Protection
  • Software
    • AD Modeling
    • Distance
    • Excel Geometry Functions
    • RMark
    • SPlus GEE Code
  • Stock Assessments
    • Ecosystem Considerations
    • Fisheries
    • Marine Mammals
  • Trophic Interactions
    • Ecosystem Modeling
    • Food Habits
• 
  • Fish
    • By Family
    • By Species
    • Fish of Chiniak Bay
    • Rockfish Guide
    • Rockfish Game
    • Rockfishes of Alaska (pdf)
    • Skates of Alaska (pdf)
  • Invertebrates
    • By Family
    • By Species
    • Crabs of Chiniak Bay
    • Seastars of Chiniak Bay
    • Others of Chiniak Bay
    • HAPC Fauna
  • Field Season Photos
    • Icebergs and Glaciers
    • Harbor Seals and Glacial Ice
    • Corals Survey
    • Field Surveys
    • Whale Survey
  • Kodiak Gallery
  • Marine Mammals
    • Seals, Sea Lions, Fur Seals
    • Whales, Dolphins, Porpoises
    • Illustrations
  • NOAA Photo Gallery
  • Posters Database
  • Video
    • Atka Mackerel
    • Catch Processing
    • Coral Gardens
    • Demersal Habitat
    • Field Gear
    • Species
    • Steller Sea Lions
    • Vessels & Seas
• 
  • Community Outreach
  • Internships
  • Kodiak Lab Touch Tank
  • Marine Mammal Education
  • Rockfish Game
  • Marine Science Resource Guide (K-6)
  • Sea Week at ABL
  • Species ID
  • NOAA's 200 Years
• 

Sogard, S.M., K.W. Able, and S.M. Hagan. 2001. Long-term assessment of settlement and growth of juvenile winter flounder (Pseudopleuronectes americanus) in New Jersey estuaries. Journal of Sea Research 45:189-204.

Abstract

We examined patterns of metamorphosis, settlement, and growth for young-of-the-year winter flounder over a ten year period (1990–1999) in four estuaries spanning the coast of New Jersey, USA, with the objective to determine the spatial and temporal coherence in these processes. We hypothesised [sic] that these processes could be influenced by large-scale climatic factors such as temperature and small-scale, local factors such as predator and prey abundances and differences associated with the localised [sic] population structure of winter flounder. Newly settled juveniles were collected in late May/early June each year. Increment counts on sagittal otoliths were used to determine the date of metamorphosis, and increment widths were used to estimate growth rates at two times, just after settlement and just prior to capture. A high level of consistency in spatial patterns among four individual estuaries was evident, and was largely driven by the northernmost site, Sandy Hook, which had higher fish densities and later metamorphosis than the three other sites, and faster growth rates than the two mid-coast sites (Barnegat Bay and Great Bay). In contrast to spatial patterns, consistent temporal patterns were evident only in the timing of metamorphosis, which was delayed in colder years at all sites. Weekly plankton sampling over the same ten year period at one site (Great Bay) yielded winter flounder larvae during a relatively narrow period in spring, with a later peak of abundance in colder years, in agreement with back-calculated dates of metamorphosis for settled juveniles. These patterns suggest that the timing of settlement is driven by large-scale climatic factors that influence the timing of spawning and/or larval development. Interannual variability in densities and growth rates, however, appeared to be independent at each site, indicating control by local environmental factors or genetic differences among local populations. The spatial consistency of growth rates suggests that appropriate nursery areas can be readily identified for juvenile winter flounder. However, subsequent recruitment needs to be verified at the level of local populations to identify contributing source habitats.

Last updated 26 April, 2007
FBE Webmaster