factors and changes in zooplankton community structure. International Council for the Exploration of the Sea, ICES Document CM 2006/F:03.
497 Marshall, C.T. 2016. Implementing information on stock reproductive potential in fisheries management: the motivation, challenges and opportunities. In: Fish Reproductive Biology: Implications for Assessment and Management, 2nd Edition (ed., Jakobsen, T., Fogarty, M.J., Megrey, B.A., et al.), pp. 438–464. John Wiley & Sons, Ltd., Chichester, UK.
498 Martinho, F., Cabral, H.N., Azeiteiro, U.M., et al. 2012. Estuarine nurseries for marine fish. Connecting recruitment variability with sustainable fisheries management. Management of Environmental Quality 23, 414–433.
499 Martino, E.J. & Houde, E.D. 2004. Environmental controls and density dependent constraints in the recruitment process of striped bass Morone saxatilis in the estuarine transition zone of Chesapeake Bay. ICES CM 2004/J:05.
500 Martino, E.J. & Houde, E.D. 2010. Recruitment of striped bass in Chesapeake Bay: spatial and temporal environmental variability and availability of zooplankton prey. Marine Ecology Progress Series 409, 213–228.
501 Martino, E.J. & Houde, E.D. 2012. Density‐dependent regulation of year‐class strength in age‐0 juvenile striped bass (Morone saxatilis). Canadian Journal of Fisheries and Aquatic Sciences 69, 430–446.
502 Massie, J.A., Strickland, B.A., Santos, R.O., et al. 2019. Going downriver: patterns and cues in hurricane‐driven movements of common snook in a subtropical coastal river. Estuaries and Coasts. https://doi.org/10.1007/s12237‐019‐00617‐y.
503 Masuda, R. & Tsukamoto, K. 1996. Morphological development in relation to phototaxis and rheotaxis in the striped jack, Pseudocaranx dentes . Marine and Freshwater Behaviour and Physiology 28, 75–90.
504 Matsumiya, Y., Kaminosono, S., Tanaka, M., et al. 1981. Studies on the juvenile Japanese sea bass in the Chikugo estuary of Ariake Bay‐1. Bulletin of the Japanese Society of Fisheries Oceanography 38, 6–13.
505 Matsumiya, Y., Masumoto, H. & Tanaka, M. 1985. Ecology of ascending larval and early juvenile Japanese sea bass in the Chikugo River estuary. Nippon Suisan Gakkaishi 51, 1955–1961.
506 Matsumiya, Y., Mitani, T. & Tanaka, M. 1982. Changes in distribution pattern and condition coefficient of the juvenile Japanese sea bass with the Chikugo River ascending. Bulletin of the Japanese Society of Scientific Fisheries 48, 129–138.
507 Matthäus, W. & Schinke, H. 1994. Mean atmospheric circulation patterns associated with major Baltic inflow. Deutsche Hydrographische Zeitung 46, 321–338.
508 Mattocks, S., Hall, C.J. & Jordaan, A. 2017. Damming, lost connectivity, and the historical role of anadromous fish in freshwater ecosystem dynamics. BioScience 67, 713–728.
509 Maunder, M.N. 2012. Evaluating the stock‐recruitment relationship and management reference points: application to summer flounder (Paralichthys dentatus) in the U.S. mid‐Atlantic. Fisheries Research 125–126, 20–26.
510 May, H.M.A. & Jenkins, G.P. 1992. Patterns of settlement and growth of juvenile flounder Rhombosolea tapirina determined from otolith microstructure. Marine Ecology Progress Series 79, 203–214.
511 May, R.C. 1974. Larval mortality in marine fishes and the critical period concept. In: The Early Life History of Fish (ed., Blaxter, J.H.S. ), pp. 3–19. Springer, New York.
512 McBride, R.S. & Able, K.W. 1998. Ecology and fate of butterflyfishes, Chaetodon spp., in the temperate, western north Atlantic. Bulletin of Marine Science 63, 401–416.
513 McBride, R.S., MacDonald, T.C., Matheson, R.E., Jr., et al. 2001. Nursery habitats for ladyfish, Elops saurus, along salinity gradients in two Florida estuaries. Fishery Bulletin US 99, 443–458.
514 McBride, R.S., Somarakis, S., Fitzhugh, G.R., et al. 2015. Energy acquisition and allocation to egg production in relation to fish reproductive strategies. Fish and Fisheries 16, 23–57.
515 McCleave, J.D. & Kleckner, R.C. 1982. Selective tidal stream transport in the estuarine migration of glass eels of the American eel (Anguilla rostrata). Journal du Conseil International pour l’Exploration de la Mer 40, 262–271.
516 McCleave, J.D. & Wippelhauser, G.S. 1987. Behavioral aspects of selective tidal stream transport in juvenile American eels. In: Common Strategies of Anadromous and Catadromous Fishes (ed., Dadswell, M.J., Klauda, R.J., Moffitt, C.M., et al.), pp. 138–150. American Fisheries Society Symposium 1.
517 McDowall, R.M. 2007. On amphidromy, a distinct form of diadromy in aquatic organisms. Fish and Fisheries 8, 1–13.
518 McDowall, R.M. 2010. Why be amphidromous: expatrial dispersal and the place of source and sink population dynamics? Reviews in Fish Biology and Fisheries 20, 87–100.
519 McDowell, R.M. 2004. Ancestry and amphidromy in island freshwater fish faunas. Fish and Fisheries 5, 75–85.
520 McEwan, A. & Hecht, T. 1984. Age and growth of the longfin eel, Anguilla mossambica Peters, 1852 (Pisces: Anguillidae). African Zoology 19, 280–285.
521 McGregor, S. & Strydom, N.A. 2020. Feeding ecology and microplastic ingestion in Chelon richardsonii (Mugilidae) associated with surf diatom Anaulus australis accumulations in a warm temperate South African surf zone. Marine Pollution Bulletin 158. https://doi.org/10.1016/j.marpolbul.2020.111430.
522 McLusky, D.S. & Elliott, M. 2004. The Estuarine Ecosystem: Ecology, Threats and Management, 3rd Edition. Oxford University Press, Oxford.
523 McNatt, R.A. & Rice, J.A. 2004. Hypoxia‐induced growth rate reduction in two juvenile estuary‐dependent fishes. Journal of Experimental Marine Biology and Ecology 311, 147–156.
524 MDSG. 2009. Ecosystem‐based fisheries management for Chesapeake Bay: Menhaden species team background and issue briefs. Maryland Sea Grant, UM‐‐SG‐‐TS‐‐2009‐‐08. https://www.mdseagrant.org/store/pdfs/EBFM‐Menhaden‐Briefs.pdf
525 Melville‐Smith, R., Baird, D. & Wooldridge, T. 1981. The utilization of tidal currents by the larvae of an estuarine fish. South African Journal of Zoology 16, 10–13.
526 Merson, R.R. & Pratt, H.L., Jr. 2007. Sandbar shark nurseries in New Jersey and New York: Evidence of northern pupping grounds along the United States east coast. In: Shark Nursery Grounds of the Gulf of Mexico and the East Coast Waters of the United States (ed., McCandless, C.T., Kohler, N.E. & Pratt, H.L., Jr .), pp. 35–43. American Fisheries Society Symposium 50, Bethesda, Maryland.
527 Metzger, C.V., Duffy‐Anderson, J.T. & Able, K.W. 2001. Effects of a municipal pier on growth of young‐of‐the‐year Atlantic tomcod (Microgadus tomcod): A study in the Hudson River estuary. Bulletin of the New Jersey Academy of Science 46, 5–10.
528 Milbrandt, E.C., Bartleson, R.D., Coen, L.D., et al. 2012. Local and regional effects of reopening a tidal inlet on estuarine water quality, seagrass habitat, and fish assemblages. Continental Shelf Research 41, 1–16.
529 Miller, B.S. & Kendall, A.W., Jr. 2009. Early Life History of Marine Fishes. University of California Press, Los Angeles.
530 Mirimin, L., Kerwath, S.E., Macey, B.M., et al. 2014. Identification of naturally occurring hybrids between two overexploited sciaenid species along the South African coast. Molecular Phylogenetics and Evolution 76, 30–33.
531 Miskiewicz, A.G. 1986. The season and length of entry into a temperate Australian estuary of the larvae of Acanthopagrus australis, Rhabdosargus sarba and Chrysophrys auratus (Teleostei: Sparidae). In: Indo‐Pacific Fish Biology (ed., Uyeno, T., Arai, R., Taniuchi, T., et al.), pp. 740–747. Ichthyological Society of Japan, Tokyo, Japan.
532 Momigliano, P., Denys, G.P.J., Jokinen, H., et al. 2018. A new flounder species from the Baltic Sea. Frontiers in Marine Science 5. 10.3389/fmars.2018.00225.
533 Montane,