1. Movement of Marine Organisms

2. Dispersal versus Migration DISPERSAL: UNDIRECTED MIGRATION: DIRECTED, RETURN SPECIFIC

3. Migration Scheme

4. Migration Types ANADROMOUS - fish live as adults in salt water, spawn in fresh water (shad, striped bass), more common in higher latitudes CATADROMOUS - fish live as adults in fresh water, spawn in salt water (eel), more common in lower latitudes DIADROMOUS = ANADROMOUS + CATADROMOUS FULLY OCEANIC - herring, green turtle

5. Migration

6. Migration of the herring in the North Sea

8. Larval Dispersal

9. Dispersal Types in Benthic Species PLANKTOTROPHIC DISPERSAL - female produces many (10 3 to 10 6 ) small eggs, larvae feed on plankton, long dispersal time (weeks), some are very long distance (teleplanic) larvae - cross oceans LECITHOTROPHIC LARVAE - female produces fewer eggs (10 2 to 10 3 ), larger, larvae live on yolk, short dispersal time (hrs to days usually) DIRECT RELEASE - female lays eggs or broods young, juveniles released and crawl away Combinations of above? Yes, but rare

10. Lecithotrophic larva: tadpole larva of the colonial ascidian Botryllus schlosseri Planktotrophic larva of snail Cymatium parthenopetum Pluteus larva of an urchin

11. Shore Population Longshore drift Loss to offshore waters Self-seeding eddies Wind-driven recruitment onshore Internal waves, tidal bores

12. Effect of local eddies on larval retention in a patch reef on the Great Barrier Reef, Australia

13. Two modes of beginning of larval life

14. Estuarine larval adaptations - Retention Larvae rise on the flooding tide, sink to bottom on the ebbing tide: results in retention of larvae within estuary

15. Rising Falling Fiddler Crabs - Lopez and Tankersley 2007

16. Estuarine larval adaptations - movement of larvae to coastal waters, return of later stage larvae Blue crab, Callinectes sapidus

17. Epifanio and Garvine 2001 Estuarine and Coastal Shelf Sci. v. 52: 51-77 1.Estuarine flow, southward transport 2.Mixing northward, upwelling 3.Mixing onshore from southward winds, Aug-Sept

18. Larvae onto the Shelf - the Fatal Blow? Estuarine loss to shelf - can they come back? Upwelling - loss of larvae to open sea?

19. Estuarine Loss - Problem of Loss from Estuarine Flow Buoyant flow - larvae leave estuaries for open sea, good to allow larvae to feed on plankton on shelf, perhaps to avoid predation. But will they ever come back? Possible solution - seasonal alternation of buoyant flow combined with upwelling favorable winds (summer) and shoreward favorable winds later in August and fall, bringing larvae toward shore Natunewicz et al. 2001 Marine Ecology Progress Series 222:143-154

20. Blue crab Callinectes sapidus

21. Upwelling - Guaranteed loss? Relaxation of upwelling Upwelling moves toward shore Larvae sink below surface upwelling waters Concholepas concholepas see Poulin et al. Limnology Oceanography 47:1248-55 (2002) Consuelo Montero

22. Settling Problems of Planktonic Larvae Presettling problems:  Starvation  Predation in plankton  Loss to inappropriate habitats

23. Example of Effect of Starvation: Phytoplankton variation and barnacle larval success Semibalanus balanoides settlement in a Scottish Sea Loch

24. Postsettling Problems Energetic cost of metamorphosis Predation Crowding --> mortality Expectation of life of Semibalanus balanoides as function of crowding Interindividual contacts per cm 2 Expectation of life (months) Initial 6 months 12 months 18 months

25. Two Scales of Larval Dispersal and Settlement 1.Large scale - 10-10 3 km Small scale movements to take advantage of currents, seasonal release and settlement 2. Smaller scale - 10 -2 - 10 2 m Positive, neg phototaxis, timing, near cues (< 10 -1 m)

26. Stages in the selection of substratum by planktonic larvae

27. Stages: Larvae are competent Larvae seek bottom (photo+ photo-, timing) (Melampus bidentatus) Larvae seek further cues Substratum - cracks, shade Gregarious settling - members of own species - chemical cues (oysters: peptide, Hydroides sp.), very short distances - mm Settling on other species (Proboscidactylidae, bryozoans) Larvae make final movements - find local spot, space from others (Spirorbis), currents good for adults (barnacle larvae)

28. Barnacle larvae Nauplius (feeding) Cypris (non- feeding) http://www.microscopy-uk.org.uk Instructor: Recommend that you find images from the site below

29. Why disperse? Local extinction - to export young Hedging bets - spread over habitats Not for dispersal! Feeding in plankton

30. The End