Fish and Fisheries in Estuaries. Группа авторов

Чтение книги онлайн.

Читать онлайн книгу Fish and Fisheries in Estuaries - Группа авторов страница 102

Fish and Fisheries in Estuaries - Группа авторов

Скачать книгу

E.T., Lwiza, K.M.M., Fencil, M.C., et al. 2003. Mechanisms promoting upriver transport of larvae of two fish species in the Hudson River estuary. Marine Ecology Progress Series 251, 263–267.

      686 Schultz, E.T., Lwiza, K.M.M., Young, J.R., et al. 2005b. The dynamics of bay anchovy in the Hudson River estuary: process‐oriented studies and long‐term changes. University of Connecticut, Ecology and Evolution Articles 34. https://opencommons.uconn.edu/eeb_articles/34.

      687 Schultz, E.T., Young, J., Martin, J.M., et al. 2005a. Tracking cohorts: analysis of migration in the early life stages of an estuarine fish. Estuaries 28, 394–405.

      688 Secor, D.H. 1999. Specifying divergent migrations in the concept of stock: the contingent hypothesis. Fisheries Research 43, 13–34.

      689 Secor, D.H. 2000. Spawning in the nick of time? Effect of adult demographics on spawning behaviour and recruitment in Chesapeake Bay striped bass. ICES Journal of Marine Science 57, 403–411.

      690 Secor, D.H. 2002. Historical roots of the migration triangle. ICES Marine Science Symposia 215, 323–329.

      691 Secor, D.H. 2015. Migration Ecology of Marine Fishes. Johns Hopkins University Press, Baltimore.

      692 Secor, D.H., Anders, P.J., Van Winkle, W., et al. 2002. Can we study sturgeons to extinction? What we do and don’t know about the conservation of North American sturgeons. American Fisheries Society Symposium 28, 3–10.

      693 Secor, D.H. & Gunderson, T.E. 1998. Effects of hypoxia and temperature on survival, growth, and respiration of juvenile Atlantic sturgeon, Acipenser oxyrinchus . Fishery Bulletin U.S. 96, 603–613.

      694 Secor, D.H. & Houde, E.D. 1995. Temperature effects on the timing of striped bass egg production, larval viability, and recruitment potential in the Patuxent River (Chesapeake Bay). Estuaries 18, 527–544.

      695 Secor, D.H., Houde, E.D. & Kellogg, L.L. 2017. Estuarine retention and production of striped bass larvae: a mark‐recapture experiment. ICES Journal of Marine Science 74, 1735–1748.

      696 Secor, D.H., Houde, E.D. & Monteleone, D.M. 1995. A mark‐release experiment on larval striped bass, Morone saxatilis, in a Chesapeake Bay tributary. ICES Journal of Marine Science 52, 87–101.

      697 Secor, D.H. & Kerr, L.A. 2009. A lexicon of life cycle diversity in diadromous and other fishes. American Fisheries Society Symposium 69, 537–556.

      698 Secor D.H. & Piccoli, P.M. 2007. Oceanic migration rates of upper Chesapeake Bay striped bass (Morone saxatilis), determined by otolith microchemical analysis. Fishery Bulletin U.S. 105, 62–73.

      699 Secor D.H., Rooker, J.R., Zlokovitz, E.R., et al. 2001. Identification of riverine, estuarine and coastal contingents of Hudson River striped bass based upon otolith elemental finger‐prints. Marine Ecology Progress Series 211, 245–253.

      700  Sharma, R., Porch, C.E., Babcock, E.A., et al. 2019. Recruitment: theory, estimation, and application in fishery stock assessment models. Fisheries Research 217, 1–4.

      701 Shaw, R.F., Rogers, B.D., Cowan, J.H., Jr., et al. 1988. Ocean‐estuary coupling of ichthyoplankton and nekton in the northern Gulf of Mexico. American Fisheries Society Symposium 3, 77–89.

      702 Sheaves, M. 2001. Are there really few piscivorous fishes in shallow estuarine habitats? Marine Ecology Progress Series 222, 279–290.

      703 Sheaves, M. 2009. Consequences of ecological connectivity: the coastal ecosystem mosaic. Marine Ecology Progress Series 391, 107–115.

      704 Sheaves, M., Baker, R. & Johnston, R. 2006. Marine nurseries and effective juvenile habitats: an alternative view. Marine Ecology Progress Series 318, 303–306.

      705 Sheaves, M. & Johnston, R. 2008. Influence of marine and freshwater connectivity on the dynamics of subtropical estuarine wetland fish metapopulations. Marine Ecology Progress Series 357, 225–243.

      706 Shideler, A.C. & Houde, E.D. 2014. Spatio‐temporal variability in larval‐stage feeding and nutritional sources as factors influencing striped bass (Morone saxatilis) recruitment success. Estuaries and Coasts 37, 561–575.

      707 Shimps, E.L., Rice, J.A. & Osborne, J.A. 2005. Hypoxia tolerance in two juvenile estuary dependent fishes. Marine Biology and Ecology 325, 146–162.

      708 Shoji, J., Masuda, R., Yamashita, Y., et al. 2005a. Effect of low dissolved oxygen concentrations on behavior and predation rates on red sea bream Pagrus major larvae by the jellyfish Aurelia aurita and by juvenile Spanish mackerel Scomberomorus niphonius . Marine Biology 147, 863–868.

      709 Shoji, J., North, E.W. & Houde, E.D. 2005b. The feeding ecology of Morone americana larvae in the Chesapeake Bay estuarine turbidity maximum: the influence of physical conditions and prey concentrations. Journal of Fish Biology 66, 1328–1341.

      710 Shoji, J., Ohta, T. & Tanaka, M. 2006. Effects of river flow on larval growth and survival of Japanese seaperch Lateolabrax japonicus (Pisces) in the Chikugo River estuary, upper Ariake Bay. Journal of Fish Biology 69, 1662–1674.

      711 Shoji, J. & Tanaka, M. 2007a. Density‐dependence in post‐recruit Japanese seaperch Lateolabrax japonicus in the Chikugo River, Japan. Marine Ecology Progress Series 334, 255–262.

      712 Shoji, J. & Tanaka, M. 2007b. Growth and mortality of larval and juvenile Japanese seaperch Lateolabrax japonicus in relation to seasonal changes in temperature and prey abundance in the Chikugo estuary. Estuarine, Coastal and Shelf Science 73, 423–430.

      713 Shoji, J. & Tanaka, M. 2008. Recruitment processes of Japanese sea bass in the Chikugo Estuary, Japan: shift from density‐independence to density‐dependence during the early life stages. Journal of Northwest Atlantic Fisheries Science 41, 85–91.

      714 Simenstad, C.A., Fresh, K.I. & Salo, E.O. 1982. The role of puget sound and Washington coastal estuaries in the life history of Pacific salmon: an unappreciated function. In: Estuarine Comparisons (ed., Kennedy, V.S. ), pp. 343–364. Academic Press, New York.

      715 Simenstad, C.A., Morgan, C.A., Cordell, J.R., et al. 1994. Flux, passive retention, and active residence of zooplankton in Columbia River estuarine turbidity maxima. In: Changes in Fluxes in Estuaries: Implications from Science to Management (ed., Dyer K.R. & Orth, R.J. ), pp. 473–482. Olsen & Olsen, Fredensborg, Denmark.

      716 Simpson, C.A., Bi, H., Liang, D., et al. 2017. Spawning locations and larval dispersal ofAtlantic menhaden during 1977–2013. ICES Journal of Marine Science 74, 1574–1586.

      717 Sirois, P. & Dodson, J.J. 2000. Influence of turbidity, food density and parasites on the ingestion and growth of larval rainbow smelt Osmerus mordax in an estuarine turbidity maximum. Marine Ecology Progress Series 193, 167–179.

      718 Sissenwine, M.P. 1984. Why do fish populations vary? In: Exploitation of Marine Communities (ed., May, R.M. ), pp. 59–94. Springer‐Verlag, Berlin.

      719  Smit, T., Lemley, D.A., Adams, J.B., et al. 2022. Preliminary insights on the fine‐scale responses in larval Gilchristella aestuaria (Family Clupeidae) and dominant zooplankton to estuarine harmful algal blooms. Estuarine, Coastal and Shelf Science 249, 107072.

      720 Smith, G.M. & Weis, J.S. 1997. Predator‐prey relationships in mummichogs (Fundulus heteroclitus (L.)): effects of living in a polluted environment. Journal of

Скачать книгу