1. Dunes and Slacks Dune: Mound of wind blown sand often influenced by vegetation Slack: Low depression formed during dune development or by blowouts in the dune field

2. Barrier Island Dunes and Slacks Vegetation Zones: Strandline Foredune Dunefield Reardune Mesic slack Xeric slack

3. Strand Line seaward line of vegetation occurring between the spring tidal elevation and the foredunes

4. Strand Line transient zone- eroded by wave action or may develop into foredunes on accreting shorelines seedbed for plants on foredunes wrack material enhances germination and growth salt aerosol levels are high sea rocket, euphorbia, sea elder, croton, and sea oats

5. Strand Line Community Plants: trap wind-blown sand and form embryonic dunes Sea rocket is most common species along Atlantic coast Other species: Eelgrass (dead stems and leaves), smooth cordgrass (dead stems and leaves), Russian thistle, and seasside broomspurge Sea Rocket

6. Formation of Embryonic Dune

7. Strand Line Community Over time: Nutrient source becomes limited Environmental conditions change Vegetation cover begins to change: Strand Line species replaced by  Dune Pioneers Russian ThistleSea Elder Evening PrimroseSea Oats Sea RocketAm. Beachgrass

8. Dune Pioneer Sea Oats- restricted to dunes: extreme conditions of wind-blown salt shifting sand- allows for burial and excludes competition

9. Foredune occur directly behind the strand line often receive large quantities of blowing sand sea oats, sea elder, bitter panicum and American beachgrass salt aerosol levels are high

10. Dunefield may consist of many dune ridges that were once foredunes sand accretion is low reduced salt spray intensity camphorweed, pennywort, evening primrose, and horseweed

11. Reardune often a transition zone to woody vegetation salt spray effect diminished catbrier, live oak, wax myrtle, and red bay destruction of the dunefield/foredune zones will severely impact vegetation in the reardune

12. Slacks low depressions formed during dune ridge development or by blowouts in the dune field salt spray intensity is low greater diversity of species increased plant cover density may be destroyed by migrating sand dunes

13. Mesic Slack water table is at or near the surface during part of the year pennywort, little blue stem, seaside goldenrod and wax myrtle

14. Xeric Slack water table close to surface compared to dunes allowing a greater number of species to develop pennywort, saltmeadow cordgrass, and camphorweed

15. Coastal Plant Geography Distribution influenced by climate: Tº and precipitation Adapted for rapid dispersal and colonization Most occur over broad geographical range Seaside goldenrod Evening primrose

16. Vascular Plant Families Families most represented: Poaceae- Sea Oats Cyperaceae- Saltmarsh Bulrush Asteraceae- Salt Marsh Aster

17. Coastal Plant Geography cont... Small (1929) Southern New Jersey and Delmarva Peninsula is meeting ground for N & S plants Supported by: Higgins et al. 1971- found bitter panic grass near its northern limit on Assateague Island, VA Martin (1959)- Panic grass absent at Island Beach, NJ

18. Coastal Plant Geography cont... Oosting (1954) and Godfrey (1977): - Consider NC the dividing line for N &S strand communities - Godfrey notes a Tº break at Cape Hatteras, NC and: Northern limit: Sea oats Southern limit: American beachgrass

19. Coastal Plant Geography cont... Art (1976)- Opposed Small’s viewpoint Atlantic coast plant species are gradually replaced along a latitudinal gradient Northern beach pea  southward Sea elder  southward

20. Coastal Plant Geography cont... Lazell and Musick (1973) Intra-Capes ecological zone- b/w Cape Lookout and Cape Hatteras, NC; transition zone for many species Prickly pear cactus- found here but not to the north Northern bayberry- absent but common to the north

21. Rare and Endangered Plants New Jersey: Seaside broomspurge- rare in NJ, yet abundant in southeast Seabeach sandwort- endangered in NJ, more common to the north

22. Rare and Endangered Plants North Carolina: Seaside knotwood- candidate for listing as either threatened or endangered Massachusetts: Seaside knotwood- common species Knotweed, Polygonum glaucum

23. Non-vascular Plants More important in slacks Microorganisms have an important role in soil formation Aggregates found in dune and slack soils: Fungi, bacteria, actinomycetes, and algae These plants bind soil particles and increase soil fertility Little is known of these plants- future research warranted

24. Non-vascular Plants Microbial aggregations Increase in number and complexity as dunes mature Bacteria binds sand particles to  water-holding capacity 2 types: Root microbial aggregates- Sand grains trap in root surface and hairs Debris microbial aggregates- Sand grains adhere to decaying organic matter to form these

25. Non-vascular Plants Algae Often aggregate with bacteria Hold water within their cell walls Interact with microbial aggregates and improve stability Blue green algae enhance nitrogen content of soils Ulothrix sp. Oedogonium sp.

26. Non-vascular Plants Bryophytes- Moul (1969) and Gimingham (1948) Little research has been done Found in both dunes and slacks Relatively intolerant to aerosol salt spray Important colonizers of secondary dunes

27. Non-vascular Plants Fungi- Nicholson and Johnston (1979) Little research has been done Increase in incidence as dunes mature Some play a role in nutrition of higher plants Some plants are susceptible to fungal attacks

28. Fungi Azospirillium induces proliferation at root hair Mycorrhizal fungi of root system

29. Exotic Species Plants: may establish breeding populations Accidentally introduced by tourists Few survive and thrive in dunes and slacks Japanese sedge French tamarisk

30. Animals Invertebrates Amphibians Reptiles Birds Mammals Rare and endangered species Exotics

31. Invertebrates Nematodes: Suppress growth and cause root damage to plants Cause die offs of American Beachgrass Arthropods: McLachlan et al. (1987) found 7 orders of insects in study along African coast Insects most common in mature dunes Mostly found in open sand habitat

32. Nematodes and Arthropods Beachgrass root-knot nematode Ground beetle

33. More invertebrates... Monarch Butterfly Ghost Crab

34. Amphibians Least represented vertebrate in dunes and slacks Found primarily in slacks Common species: Southern toad- southward of Cape Hatteras, NC Fowler’s toad- common in dunes and slacks near Shackleford Banks, NC

35. Reptiles Poorly represented on barrier beaches Most common species from Cape Cod to Georgia: Snakes: Black racer snake Common garter snake Eastern ribbon snake

36. Reptiles Turtles: Those seen are probably transients Diamondback terrapin Loggerhead sea turtle Common box turtle

37. Birds Many species use dune and slack resources Few live entire lifespan in this area Mostly use dunes and slacks for nesting or feeding sites Terns and gulls use strand line and sand flats Willit- nest in clumps of dune grasses Piping Plover- federally threatened forages along beach for small inverts

38. Birds Royal Tern Willit Piping Plover

39. Mammals Species diversity is typically low Most are inhabitants of marshes, forests, or old fields As shrub cover  density and diversity of small mammals also  White footed mouse Meadow vole

40. Rare and Endangered Animals Not typical inhabitants of dunes and slacks Loggerhead sea turtles- use resources to nest Coastal development decreases number of suitable nesting beaches

41. Rare and Endangered Animals Piping plovers and least tern- Recreation impacts nesting and foraging success Storms and predators lower nesting success Piping Plover Least tern

42. Exotic Species Animals: Introduced domestics Overgraze and alter substrates Hogs persist on Back Bay area, VA and Cumberland Island, GA Cattle, sheep, and goats were common until the 1950’s Feral horses persist on islands from MD to GA

43. References Amos, W. H. and S. H. Amos. 1985. National Audobon Society Nature Guides: Atlantic and Gulf coasts. Random House: New York, NY: 670p. Graetz, K. E., 1973. Seacoast Plants of the Carolinas. U. S. Department of Agriculture Soil Conservation Service, Raleigh, North Carolina, 206 pp. Environmental Inventory of Kiawah Island, 1975. Environmental Research Center, Inc., Columbia, South Carolina. Kraus, E. Jean Wilson, 1988. A Guide to Ocean Dune Plants Common to North Carolina. The University of North Carolina Press, Chapel Hill, North Carolina, 72 pp. Packham, J. R., and A.J. Willis. 1997. Ecology of dunes, saltmarsh and shingle. Chapman and Hall: Cambridge: 335pp. Shumway, Scott W., 2000. Facilitative effects of a sand dune shrub on species growing beneath the shrub canopy. Oecologia (2000) 124: 138- 148. Will, M. E., D. M. Sylvia, 1990. Interaction of Rhizosphere Bacteria, Fertilizer, and Vesicular-Arbuscular Mycorrhizal Fungi with Sea Oats. Appl. Environ. Microbiol., July 1990, p. 2073-2079.

44. References cont... http://birch.incolsa.net/~drigg/snakes.htm http://bonita.mbnms.nos.noaa.gov/sitechar/sandy.html http://cedar.evansville.edu/~ck6/bstud/mouse.html http://entweb.clemson.edu/cuentres/cesheets/benefici/ce172.htm http://mbgnet.mobot.org/pfg/diverse/biomes/grasslnd/animals/vole.htm http://www.chias.org/www/diorama/w1.html http://www.csc.noaa.gov/otter/htmls/mainmenu.htm http://www.csdl.tamu.edu/FLORA/gallery.htm http://www.environment.gov.au/ http://www.epa.gov/owow/oceans/lagoon/foredune.html http://www.gcw.nl/nieuws/art/a99_1/a99_1_1.htm http://www.helsinki.fi/kmus/botpics.html http://www.marshall.edu/herp/anurans.htm http://www.nceet.snre.umich.edu/EndSpp/oldfilerequested.html http://www.ohiokids.org/ohc/nature/animals/reptile/bracer.html http://www.seafriends.org.nz/oceano/beach.htm#beach http://www/uncwil.edu/people/hosier/BIE/bieclschd/present/adapthuman.htm http://www.yates.clara.net/photos.html