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Christopher J. Gobler

How does excessive nitrogen loading effect the health and resiliency of Long Island’s coastal ecosystems? . Christopher J. Gobler. “Nitrogen is the critical limiting factor to primary producers in Long Island coastal marine waters” – Dr. John Ryther , Woods Hole Oceanographic Institute,

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Christopher J. Gobler

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  1. How does excessive nitrogen loading effect the health and resiliency of Long Island’s coastal ecosystems? Christopher J. Gobler

  2. “Nitrogen is the critical limiting factor to primary producers in Long Island coastal marine waters” – Dr. John Ryther, Woods Hole Oceanographic Institute, Science Magazine, 1971

  3. Population, Suffolk County, NY, USA >25,000,000 lbs of nitrogen per year from human waste Long Island New York City Population

  4. Nitrogen Groundwater flow Nitrogen Loading of wastewater nitrogen to coastal waters • In Suffolk County: • 70% of homes have septic tanks or cesspools. • ~70% of N loads come from septic tanks and cesspools. Septic tank Water table / aquifer

  5. Changes in groundwater nitrogen levels in Suffolk County 40% increase 200% increase Suffolk County Comprehensive Water Resources management plan, 2010

  6. N loads to Great South Bay from watershed Fertilizer Septic tanks, cesspools Atmosphere Kinney and Valiela, 2011 • ~70% of N entering Moriches and Shinnecock Bay is from wastewater (Gobler et al, in progress for NYSDOS).

  7. Groundwater nitrogen concentrations, Eastern Bays 3.0 2.4 3.1 2.8 2.8 4.8 Shinnecock Bay 4.8 Total N mg L-1 Quantuck Bay Moriches Bay

  8. Groundwater N and buildings Shinnecock Bay Total N mg L-1 Quantuck Bay Moriches Bay

  9. Groundwater N and agriculture Pine Barrens Shinnecock Bay Quantuck Bay Total N mg L-1 Moriches Bay

  10. South shore bay nitrogen loads compared to other water bodies

  11. NYSDEC assessment of Long Island coastal waters Impaired Minor impacts No known impacts

  12. What impairments are brought about by excessive nitrogen loading? • Loss of critical habitats: Eelgrass, salt marshes • Low dissolved oxygen levels, hypoxia • Acidification, low pH • Macroalgal blooms: Sea lettuce, Ulva • Toxic algal blooms: Red, rust, brown tides • Loss or depletion of shellfisheries and finfisheries

  13. The vital role of salt marshes in coastal ecosystems and communities

  14. Salt marsh ecosystems

  15. Salt marshes protect coastlines Chris Bason, Delaware Center for the Inland Bays

  16. Salt marshes protect coastlines

  17. “Coastal eutrophication as a driver of salt marsh loss”, Deegan et al 2012, Nature Nitrogen loaded marsh Healthy marsh Nutrient weakened, roots Dense, strong roots

  18. Loss of wetlands on Long Island, since 1974 NYSDEC survey data Suffolk County, North Shore Nassau County, North Shore Suffolk County South Shore Nassau County South Shore East end

  19. Salt marsh loss, Jamaica Bay

  20. Flooding during Hurricane Sandy

  21. Flooding in Mastic – Shirley during Hurricane Sandy Salt marsh Salt marsh Each point is a home.

  22. Flooding in Mastic – Shirley, sea level rise Salt marsh Salt marsh Each point is a home. Flooding scenarios will worsen significantly with weakened or destroyed salt marshes.

  23. Eelgrass: Critical benthic habitat

  24. NYS seagrass, 1930 - 2030 Increasing Nitrogen Loading 90% loss Extinction in NY NYSDEC Seagrass Taskforce Final Report, 2010; Suffolk County assessment, 2014

  25. Take a deep breath… Oxygen (O2) Carbon dioxide (CO2)

  26. Nitrogen loading leads to low oxygen and high CO2 Nitrogen loading Phytoplankton Respiration CH2O + O2CO2+ H2O Produced Consumed

  27. Long Island Sound, August 2013 Dissolved oxygen (mg L¯¹) pCO2 (µatm)

  28. The Forge River, NY, USA

  29. Effects of high CO2 and low O2 on fish survival Larval Inland Silversides High CO2 Low O2 High CO2, low O2

  30. Harmful algal blooms across Long Island Samples for eelgrass genetic analyses Cochlodinium Ulva Brown tide DSP, red tide Toxic blue green algae PSP, red tide Cochlodinium PSP Ulva PSP PSP, DSP PSP, DSP DSP Toxic blue greens Toxic blue greens Cochlodinium PSP Brown tide Ulva Cochlodinium

  31. Samples for eelgrass genetic analyses Enhanced nutrient loading more intense &/or toxic HABs Gobler et al 2011; Gobler and Sunda 2012 Hattenrath-Lehmann 2014 Hattenrath et al 2010 Harke and Gobler, 2013 Gobler et al 2012 Alexandrium ‘Red tide – PSP’ Dinophysis ‘Red tide – DSP’ Aureococcus ‘Brown tide’ Cochlodinium ‘Rust tide’ Microcystis ‘Blue green algae’

  32. Alexandrium red tides and paralytic shellfish poisoning (PSP) Saxitoxin Alexandrium

  33. Presence of PSP-producing Alexandrium in NY: 2007-2013 = cells not detected = < 100 cells L-1 = 100 - 1,000 cells L-1 = > 1,000 cells L-1 **circles represent the highest observed densities at each site** • Alexandrium found at 47 of 63 sites samples (75%)

  34. “Sewage-derived nitrogen loading promotes intense and toxic Alexandrium blooms.” Waste water N

  35. Nitrogen impacts on shellfish • Landings of clams and scallops have declined 99% since 1980. • Linkages to nitrogen driven HABs, habitat loss, and water quality degradation. Hard clam landings (bushels) in Great South Bay

  36. Conclusion: Excessive nitrogen loading leads to… • Loss of critical habitats: Salt marshes, eelgrass • Low dissolved oxygen levels, hypoxia • Acidification, low pH • Macroalgal blooms: Sea lettuce, Ulva • Toxic algal blooms: Red, rust, brown tides • Loss or depletion of shellfisheries and finfisheries

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