Water Quality in Little Lagoon. Prior Projects MacIntyre, H.L., “Little Lagoon as an Incubator...
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Transcript of Water Quality in Little Lagoon. Prior Projects MacIntyre, H.L., “Little Lagoon as an Incubator...
Water Quality in Little Lagoon
Prior Projects
MacIntyre, H.L., “Little Lagoon as an Incubator Site for the Harmful Bloom-Forming Diatom, Pseudo-nitzschia sp.”, Alabama Department of Conservation and Natural Resources, 2005-2006 $24,500
MacIntyre, H.L.: “Purchase and Testing of an AutoLab Underway Nutrient Analyzer for Real-Time Mapping during Harmful Algal Blooms”, Alabama Department of Conservation and Natural Resources, 2006 - 2007 $28,360
MacIntyre, H.L., “A Volunteer Phytoplankon Monitoring Network”, NOAA National Coastal Data Development Center/NOAA Northern Gulf Institute, 2007-2009$34,000
MacIntyre, H.L.: “Potential anthropogenic triggers for toxicity in the Harmful Algal Bloom diatom Pseudo-nitzschia sp. in Little Lagoon, Alabama”, Alabama Center for Estuarine Studies, 2007-2009 $63,185
Total: $150,075
Monitoring program with LLPS
Biweekly monitoring of physical characteristics, nutrients, microalgae and fecal coliform bacteria
Persistent gradients in water quality descriptors
1: Microalgal biomass varies with nutrientsMicroalgal biomass is
highly correlated with total nitrogen and phosphorus
High correlation suggests flushing low relative to growth
No hypoxia yet detected in surface waters
2: Strong seasonal cycle in nutrientsTotal nitrogen (TN) and
phosphorus (TP) are correlated with temperature
Total N and P are not correlated with salinity except at east end of lagoon (Site 1)
3: Nitrate is correlated with freshwater inputsNitrate is available for
plant growth (most TN is not)
Concentrations are highest at east end of lagoon by canal
Freshwater pulses are a source of nitrate
4: Nitrate is high in groundwater
Nitrate concentrations in groundwater are very high
Estimated transport by groundwater to Gulf of Mexico is 50% of transport through Mobile Bay (Dowling et al. 2004)
Murgulet and Tick (2009)
5: Nutrients are also very high in the sedimentsSediment concentrations
are about 1,000 times higher than in water
Annual temperature-dependence in water is typical of release from sediment
6: Lagoon is a hot-spot for a toxic diatom, Pseudo-nitzschia spp.Blooms in lagoon have been toxic but no obvious
domoic acid intoxication/mortality detected
Bloom density is correlated with discharge from Baldwin County aquifer
Liefer et al. (2009)
7: Fecal coliform bacteria are often highA quarter of samples are
over the regulatory threshold (200 colony forming units L-1). Highest values were c. 2,500 CFU L-1
No correlation with temperature, salinity, nutrients, microalgae
Summary
Water quality in Little Lagoon is not seriously compromised. Nutrient levels are comparable to Mobile Bay but there is no evidence for widespread hypoxia.
Microalgal biomass is correlated with nutrient levels. Both groundwater and sediments are likely sources of nutrients.
The lagoon is a hot-spot for a toxic diatom (Pseudo-nitzschia spp.), The blooms are toxic but there is no evidence for intoxication/ecological consequences.
Fecal coliform bacteria are frequently well above regulatory thresholds. Abundance is not correlated with any parameter measured to date.
Questions
What mechanisms underlie variability in nutrients in the lagoon?
What are the most likely origins of the nutrients?
What is the relationship between nutrients, flushing and microalgal community composition (i.e. Pseudo-nitzschia spp. vs other species)?
What are the causes and consequences of toxicity in Pseudo-nitzschia spp?
What are the likely origins of the fecal coliform bacteria?
New Funding
MacIntyre, H.L. and R. Carmichael: “Harmful Algal Bloom Study, Little Lagoon, Baldwin County, Alabama”, Alabama Department of Conservation and Natural Resources, 2005-2006 $25,000
MacIntyre, H.L., A. Ortmann and K. Park: “Residence time as a factor controlling HABs and fecal coliform bacteria in Little Lagoon, Alabama”, NOAA MS/AL Sea Grant, 2010-2012 $441,549
MacIntyre, H.L., W.C. Burnett and B. Mortazavi: “Groundwater discharge, benthic coupling and microalgal community structure in a shallow coastal lagoon”, National Science Foundation (Bio. Oce.), 2010-2013 $752,399
Liefer, J.D.: “Toxicity of Pseudo-nitzschia spp. in Little Lagoon, Alabama”, FDA Gulf Coast Seafood Laboratory, 2010-2011 $40,967
Total: $1,237,415
1: Nutrient Inputs and Cycling
Dr William Burnett (Florida State University) and student: trace groundwater discharge using Ra and Rn radioisotopes
Dr Bezhad Mortazavi (University of Alabama) and student: measure benthic fluxes
…and Microalgal Taxonomy
Dr Hugh MacIntyre (Dauphin Island Sea Lab), Justin Liefer & Lucie Novoveska (University of South Alabama), LLPS: continued monitoring of nutrients and microalgal community composition
2: Nutrient Source
Dr Ruth Carmichael (Dauphin Island Sea Lab): measure 15N/14N (15N) signatures of particulate and dissolved nitrogen to assess likelihood of fertilizer vs other origin
3: Pseudo-nitzschia spp toxicity
Justin Liefer and Dr Alison Roberston (FDA Gulf Seafood Lab): conduct bio-assays for triggers of toxicity and exposure experiments for transport of toxin into food-chain
4: Microbial Source Tracking
Dr Alice Ortmann (University of South Alabama): assay species-specific ribosomal RNA sequences to determine most probable origin of fecal coliforms
Kildare et al. (2007)
5: Circulation and flushing
Dr Kyeong Park (University of South Alabama): mass balance box model of lagoon to estimate residence time and conduct scenario runs
Dr Hugh MacIntyre & Justin Liefer: couple algal growth model to circulation/flushing model
Exchange with GOM (E)
Groundwater input (G)
Fluxes (F)
F + E + G= Change in concentration
Fluxes (F)
Thanks
To:
State and Federal agencies for support
Justin Liefer and Lucie Novoveska
LLPS volunteers
Note: Inputs from other stakeholders to be solicited in a workshop at end of May