Elkhorn Slough in the Past:

1. Elkhorn Slough in the Past: Evidence from sediment cores and historical records

2. Glacial Maximum 20,000 years B.P.

3. Global Sea Level Rise • 18,000 to 7,000 years B.P. Sea level rises rapidly • 11,000 – 10,000 years B.P. Sea water invades Elkhorn Valley and Moro Cojo • 8,000 years B.P. Elkhorn Slough is a high-energy tidal inlet

4. Evolution of mudflats and salt marsh • 7,000 years B.P. Sea level rise slows • Energy level of water decreasing in Elkhorn Slough • Mudflats and salt marshes begin to develop as sediment deposition equals or exceeds sea level rise

5. Freshwater marsh develops in northeastern reaches of Slough

6. Expanding Salt Marsh

7. Freshwater Events Pollen core from upper Slough – fluctuating pickleweed and sedge

8. A brackish, quiet-water estuary 2000 - 1000 years B.P., sediments at mouth indicate: • Relatively low energy system – may indicate an indirect opening to the ocean • Salinity between ~ 5 and 20 ppt

9. Portola Expedition, 1769 • Expedition, in search of Monterey, follows Salinas River to coast • Lost, they continue north, through Elkhorn watershed, to San Francisco Bay Miguel Costanso, 1770

10. Elkhorn Salinas River Father Crespi’s Account, 1769: Mulligan Hill “The [Salinas] river here . . . empties into this great embayment and along its rim turns into a good-sized estuary reaching about two leagues inland, and causing the river here to rise and fall with the tide. It becomes very full-flowing and deep, down close to the sea, so that it cannot be forded, seemingly being all one very deep pool with a great deal of water in it. It is not very wide, some dozen yards it must be.” Monterey Bay, 1853

11. Mexican Land Grants Diseño 1830s

12. Diseño 1830s River Mouth Tembladero Slough Salinas River

13. American Accounts1850s – 1880s • 1854 U.S. Coast and Geodetic Survey shows salt marsh, salt ponds, tidal creeks, and tide lines in lower Elkhorn Slough • 1854: geologist John Trask says that the sloughs near the coast “contain sufficient depth of water to float a medium sized vessel” Mouth of Salinas River and Elkhorn Slough. USCGS, 1854

14. U.S Surveyor, A.T. Herrmann, 1879 Bennett or Northfork Moro Cojo or “Castroville” Elkhorn Dunes Salinas River Moss Landing wharf Monterey Bay N

15. Moss Landing, 1919 Views from the train, 1870s “The upper end of [the Salinas Valley] rests upon Monterey Bay, and has some worthless salt marsh lands. Running through these tide water marshes, one can see along the indentations of the bay hundreds of solemn-looking pelicans, with bills bowed on their baggy • throats, appearing to take a most unfavorable view of affairs generally. As we ran along the inlets of the bay, ducks, gulls and other fowl, in great flocks, took to wing and got away. . .”

16. View from the Train, 1880s [From Hudson’s Landing] “the course of the railroad. . .is now parallel with the general line of the coast, and crosses the tide-lands that skirt the eastern shore of Monterey Bay” Railroad 1880

17. Conclusions • Elkhorn Slough is part of an regional estuarine network that formed about 10,000 years ago • These wetlands received variable amounts of tidal and freshwater influence over the last 5000 years – usually functioning as a true estuaries: influenced significantly by tidal waters and freshwater input • In the past, the Salinas river mouth moved frequently

18. Conclusions, continued • Over the past 5000 years, these sloughs were dominated by salt marshes and mudflats flanking channels; their upper margins of harbored brackish or freshwater marshes • Like many others on this coast, the estuarine system was depositional, gradually filling in, with mudflats and channels getting narrower and salt marshes expanding

19. Thanks to: David Schwartz Robert Curry Doug Smith John Oliver Peter Slattery Bryan Largay Stanley Stevens Michael Fineman The Pajaronian 1868