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Nearshore fish communities response to habitat variability

Nearshore fish communities response to habitat variability. Terril P. Efird School of Fisheries and Ocean Sciences University of Alaska Fairbanks. Spatial distribution. Fish spatially distribute based on habitat preference Within a given habitat fish composition, size and abundance vary

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Nearshore fish communities response to habitat variability

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

  2. Spatial distribution • Fish spatially distribute based on habitat preference • Within a given habitat fish composition, size and abundance vary • Two factors • Kelp forest size • Kelp composition

  3. Thesis Objectives: • Determine how fish communities vary with kelp forest size • Determine how fish communities vary with variation in kelp species composition Parameters measured: • Fish composition and density • Fish total length (TL) • Kelp species composition and density • Kelp forest size

  4. Thesis progress • Summer 2008 • Field work • Proof of concept • Proof of methods • Fall 2008 • Data Analysis • Winter 2009 • Presented as a poster at the Kachemak Bay Science Conference

  5. Size distribution of Pacific Cod, Gadusmacrocephalus, in kelp forests of Kachemak Bay, Alaska

  6. Background: Pacific Cod • Domestic longline, trawl, and pot fishery (Thompson & Dorn 2005) • $150 million/year (ADFG 2008) • Structure communities (Livingston 1989) • Trophic link to SSL (Merrick 1997)

  7. Background: Pacific Cod • Intertidal & shallow subtidal as juveniles • Oceanic as adults • Use kelp forest during transition • Predator refuge • Foraging • High relative abundance

  8. Background: Kelp Forests • Heterogeneous • Size • Understory abundance • Rugosity

  9. Background: Kelp Forests • Temporal variability • Annual species (O’Clair & Linstrom 2000) • Kelp forest shrinking (Estes et al 2004) • Forest forming species shift (Dames & Moore 1976)

  10. Objective and Hypotheses • Objective • To determine how G. macrocephalusstratify spatially throughout kelp habitats based on fish total length (TL) and habitat characteristics. • Hypotheses • G. macrocephalusTL will positively correlate with increasing kelp forest size. • G. macrocephalus TL will negatively correlate with increasing understory abundance. • G. macrocephalus TL will negatively correlate with increasing habitat rugosity.

  11. Methods • Southern Kachemak Bay • Four sites • Fish and habitat surveys • 3 surveys per site 500 m South Yukon Outside Hesketh Sauna Inside Hesketh

  12. Fish Surveys Bodkin 1988 • Visual Transects • 30mx2mx2m • Benthic & midwater • All G. macrocephalus counted and sized

  13. Benthic Habitat Surveys Bodkin 1988 • Data collected on benthic line • Understory abundance est. with ¼ m quads • Rugosity measures taken with PVC bar and chain

  14. Surface Habitat Surveys • Forest size was measured at slack low tide • A small boat traced the outline of the forest canopy • GPS track lines were then downloaded and the area calculated

  15. Results: Forest Size

  16. Results • Hypotheses • G. macrocephalus TL will positively correlate with increase in kelp forest size.  • G. macrocephalus TL will negatively correlate with increase in understory abundance. • G. macrocephalus TL will negatively correlate with increase in habitat rugosity.

  17. Results: Understory Abundance

  18. Results • Hypotheses • G. macrocephalus TL will positively correlate with increase in kelp forest size.  • G. macrocephalus TL will negatively correlate with increase in understory abundance.  • G. macrocephalus TL will negatively correlate with increase in habitat rugosity.

  19. Results: Rugosity

  20. Results • Hypotheses • G. macrocephalus TL will positively correlate with increase in kelp forest size. • G. macrocephalus TL will negatively correlate with increase in understory abundance. • G. macrocephalus TL will negatively correlate with increase in habitat rugosity. No but…

  21. Results: Rugosity

  22. Conclusions • Bigger fish were found in bigger forests • Smaller fish were found in areas with greater cover • Rugosity?

  23. What’s next? • Kachemak Bay • July 2009 • All fish species • 20 sites • Wide range of forest sizes

  24. Alaska Aleutian Islands Fox Islands Near Islands Bering Sea Island of Four Mountains Rat Islands Andreanof Islands Pacific Ocean What’s next? • Aleutian Islands • June 2009 & 2010 • All fish species • Address generality • 2 kelp species

  25. Thank You • Funding • Rasmuson Fisheries Research Center • Advisor • Dr. Brenda Konar • Logistics • Nathan Stewart and Patrick Lane • Hans and Leila Pederson • Institutional Support

  26. Questions? References: Alaska Department of Fish and Game. 2008. Pacific Cod fisheries in Alaska. http://www.cf.adfg.state.ak.us/geninfo/finfish/grndfish/pcod/pcodhome.php Livingston PA. 1989. Interannual trends in Pacific Cod, Gadusmacrocephalus, predation on three commercially important crab species in the eastern Bering Sea. Fishery Bulletin. Vol 87(4): 807-827 Merrick RL, MK Chumbley and GV Byrd. 1997. Diet diversity of Steller sea lions (Eumetopiasjubatus) and their population decline in Alaska: a potential relationship. Canadian Journal of Fisheries and Aquatic Sciences. 54: 1342-1348 Thompson GG and MW Dorn. 2005. Assessment of the Pacific Cod stock in the Gulf of Alaska. Executive summary, National Marine Fisheries Service, National Oceanographic and Atmospheric Administration.

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