ohio lake erie phosphorus task force january 9, 2013 ......ohio lake erie phosphorus task force...
TRANSCRIPT
![Page 1: Ohio Lake Erie Phosphorus Task Force January 9, 2013 ......Ohio Lake Erie Phosphorus Task Force January 9, 2013 Columbus, OH J.V. DePinto LimnoTech, Ann Arbor, MI Don Scavia University](https://reader035.vdocuments.us/reader035/viewer/2022081613/5fb362cb1d10063dc371528d/html5/thumbnails/1.jpg)
Ohio Lake Erie Phosphorus Task Force January 9, 2013 Columbus, OH
J.V. DePinto LimnoTech, Ann Arbor, MI
Don Scavia University of Michigan
Models Can Support Establishment of Phosphorus
Loading Targets for Lake Erie
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Contributors
Don Scavia, University of Michigan Dan Rucinski, LimnoTech, University of Michigan Todd Redder, LimnoTech Ed Verhamme, LimnoTech Richard Stumpf, NOAA NOS Pete Richards, Heidelberg University Tom Bridgeman, University of Toledo Anna Michalak, Stanford University
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Outline of Presentation
Review some basic concepts Algal-available phosphorus and water column cycling Internal phosphorus loading (sediment feedback)
Hypoxia modeling EcoFore SOD response to P load changes 1D Central Basin model results
Cyanobacteria blooms in Western Basin 2011-12 comparison NOAA NOS relationship WLEEM – LimnoTech process model
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Algal-availability and water column recycling
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Water Column Cycling of Phosphorus
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Assessing Availability of Particulate Phosphorus in Great Lakes Tributaries
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Algal Uptake in DCDA Corresponds to Decrease in NaOH-extractable P
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R-NaOH-P is good surrogate for ultimately available particulate phosphorus in tributaries
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Research Led to Modification of DiToro Lake Erie Model
Must treat P release from tributary solids differently from P release from in-lake produced solids (i.e., algae)
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Tested Three Versions of Lake Erie Model
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Importance of P Release from Particulates in the Water Column
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Halving SRP Load Gives Bigger Response than Halving EUP Load
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Internal loading of phosphorus from sediments
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Pathways of Internal Sediment Load
Sediment resuspension of particulate phosphorus Driven by wind-wave bottom shear stress Amount of algal available phosphorus from this
process depends on relative rate of release from resuspended sediments and rate of redeposition of resuspended sediments
Significant in shallow areas of Western Basin
Pore diffusive flux of dissolved phosphorus Rate governed by gradient of dissolved phosphorus in
surface sediments and diagenetic processes controlling that gradient
Significant in hypoxic areas of Central Basin
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Understanding of Sediment-Water Phosphorus Diffusive Flux Processes
Aerobic Layer
Water Column
Deposition of particulate organic P (POP)
Anaerobic Layer
Flux of dissolved PO4
0-10 cm Particulate
organic P Particulate
PO4 Dissolved
PO4 Sorption / desorption
Deposition of particulate inorganic PO4
Sediment Bed
Diagenesis
Fe+2
Fe+3
S-2
SO4-2
Aerobic Layer Thickness • Governs ability of DRP to diffuse from sediments • Depends on Overlying Water DO
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Overlying Water DO < 2 mg/L Causes Significant P Flux (DiToro, 2001)
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Lake Erie Model Post-audit with updated sediment diagenesis model (Fitzpatrick, 2004
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Sediment P Flux analysis (using 1D DO model)
0.0E+00
5.0E+02
1.0E+03
1.5E+03
2.0E+03
2.5E+03
3.0E+03
3.5E+03
1985 1990 1995 2000 2005 2010
Sedi
men
t P fl
ux (m
etric
tonn
es/y
ear)
Year
Estimated Sediment PO4 Flux in Central Basin
Computed from area with overlying water DO< 2 mg/L * number of days with DO< 2 mg/L * 5 mg P/m^2-d
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EcoFore Hypoxia Modeling
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Ecosystem Forecasting of Lake Erie Hypoxia
NOAA-CSCOR funded project to assess the Causes, Consequences, and Potential Remedies of Lake Erie Hypoxia?
Linked set of models to forecast: changes in nutrient loads to Lake Erie responses of central basin hypoxia to
multiple stressors P loads, hydrometeorology, dreissenids
potential ecological responses to changes in hypoxia
Approach Build models capable of identifying
non-point and/or point-source actions to achieve X load reduction
Build models capable of identifying X load reduction required to achieve Y hypoxia characteristics
Build models relating fishery goals to Y hypoxia characteristics, based on fishery manager input.
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EcoFore Research Team
Plus many grad students and postdocs. Plus many more that have come and gone!
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Thickness of Central Basin Bottom Layer Air temperature, winds, length of season
Organic Matter Flux to the Bottom Algal production and settling – Algal-available P supply – Length of season
Sediment Oxygen Demand - contributes an average of 60% of hypolimnetic oxygen
demand
Drivers of Hypoxia in Central Basin
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Simple 1D DO Model for Central Basin
1D Vertical Dynamic Model for Central Basin
Hydrodynamic model is physically driven Air temp, wind speed, solar
radiation
Static Surface Level, varying thermocline depth
48 Vertical Layers of 0.5m thickness
Simple Dissolved Oxygen Model linked to Hydrodynamic Model DO rate term (WCOD) is
aggregate of production and consumption processes in the water column
SOD in bottom layer
Hypolimnion
Epilimnion
Diffusion WCOD SOD
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Time-Series of Annual Calibrated WCOD Values
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Rucinski et al 2010
SRP Load
O2 depletion rate
Suggested that P load is important for Central Basin oxygen depletion rate
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Eutrophication Model Projects
1D models Level 1 - 1D hydrodynamics with specified DO consumption rates
• Vertical thermal and mixing profiles from hydrodynamic model • Calibrate with DO loss from water column and sediment demand
Level 2 - 1D hydrodynamics with simple process WQ model
• Replace DO loss, etc. with “Standard” eutrophication model
3D models Level 3 - 3D hydrodynamics with simple Level 2 WQ model
• Physics from full hydrodynamic model
Level 4 - 3D hydrodynamics with complex WQ model • Multi-class phyto-zoo, organic/inorganic nutrients, sediment digenesis, etc • Dreissenid; Benthic algae
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Dissolved Oxygen
Available Phosphorus
Basin
Loading Phytoplankton
Detrital Carbon
Sediments
Atmosphere
Unavailable Phosphorus
Zooplankton
mineralization
settling
settling Sediment Oxygen Demand
death death
settling
uptake
photosyn. respiration
reaeration
grazing
D. Rucinski
Eutrophication Model
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Borsuk et al. (2000) Ecological Modeling
0
0.25
0.5
0.75
1
1.25
1.5
1.75
0 100 200 300 400 500 600 700 800
SOD
(gO
2/m
2/d)
Deposited Organic Carbon
Borsuk et al. Calibrated Function
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Michaelis–Menten function
0
0.2
0.4
0.6
0.8
1
1.2
0 5000 10000 15000 20000 25000 30000 35000
SOD
(gO
2/m
2/d)
Annual TP Load
SOD Response to TP Load
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0 00
2.00
4.00
6.00
8.00
10.00
12.00
14.00
16.00Di
ssol
ved
Oxyg
en (m
g/L)
1987-1992
0 00
2.00
4.00
6.00
8.00
10.00
12.00
14.00
16.00
Diss
olve
d Ox
ygen
(mg/
L)
1993-1999
2000-2005
Rucinski et al.
Hypolimnetic Dissolved Oxygen
Model Calibration
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Central Basin Hypoxic Days as function of TP Load
y = 0.0029x + 8.7989R² = 0.4215
0
10
20
30
40
50
60
0 2000 4000 6000 8000 10000 12000 14000
Hyp
oxic
Day
s
Annual TP Load (MT)
Hypoxic days = number of days with hypolimnetic DO < 2 mg/L
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Depth (m)45-6030-4515-300-15
Western Central
Eastern
How do you get from 1D Oxygen Concentration to Hypoxia Area?
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Geostatistical Conditional Realizations of Central Basin Hypoxic Area
Zhou and Michalak .
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Central Basin Hypoxic Area as function of TP Load
Hypoxic area determined using the Zhou concentration-to-area conversion
y = 0.5313x - 731.58R² = 0.4578
0
1000
2000
3000
4000
5000
6000
7000
8000
0 2000 4000 6000 8000 10000 12000 14000
Hyp
oxic
Are
a (k
m2 )
Annual TP Load (MT)
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2011-2012 contrast Load – response Models
Cyanobacteria Blooms in Western Basin
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August 11, 2011
Microcystis Bloom of 2011
MODIS images
September 3, 2011
October 7, 2011
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Maumee phosphorus load fueled 2011 bloom
Several large events from March – May, followed by very low flows for rest of the summer. Very little Detroit River dilution; main plume moved to Central Basin north of Pelee Island.
Note apparent diluting effect of
Detroit River
Flow-weighted SRP concentration ≈85 ug/L
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Maumee River Discharge
Data obtain from USGS gage at Waterville, OH
120 billion cu ft difference or 3.4 km3
(Western Basin volume = 22 Km3)
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Maumee River TP Load
Data obtain from Heidelberg College
2,000 MT difference (equivalent to ~30% of total TP load to entire WBLE for most years in this decade)
2003-2012 water year averages: annual load = 2437 mt/yr FWMC = 402 ug/L
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Maumee River SRP Load
Data obtain from Heidelberg College
400 MT difference • equivalent to ~ 1 yr
of Detroit WWTP effluent)
2003-2012 water year averages: annual load = 566 mt/yr FWMC = 93 ug/L
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March-June at Waterville Discharge
0
1000
2000
3000
4000
5000
6000
2011 2012
Mill
ion
Cu
bic
Met
ers
20%
Total Phosphorus
0
500
1000
1500
2000
2500
2011 2012
Met
ric
Ton
s
17%
Dissolved Reactive P
0
100
200
300
400
500
2011 2012
Met
ric
Ton
s
15%
0
100
200
300
400
500
0 10 20 30 400
500
1000
1500
2000
2500
3000
0 10 20 30 400
1000
2000
3000
4000
5000
6000
0 10 20 30 40
From Richards, Heidelberg University data
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08/30/2012 (DOY=243)
09/03/2011 (DOY=246)
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Can We Set Load Targets for Microcystis blooms?
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Cyanobacteria-bloom Intensity (CI) as a function of June TP load and Spring discharge
Stumpf et al., 2012 PLoSONE.
TP for June Spring Q wet Mar-May
dry Mar-May
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Spring (Mar-Jun) explains annual bloom intensity; a lag between P supply and the bloom
Pre-MERIS bloom size inferred
(either present at 2003 level or
absent)
Model failure
observed Modeled
Proposed model results Error : 0.37 CI (105 sq km)
Ice “free”
Ice “free”
Stumpf et al., 2012PLoSONE.
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Spring (Mar-Jun) explains annual bloom intensity; a lag between P supply and the bloom
Pre-MERIS bloom size inferred
(either present at 2003 level or
absent)
Model failure
observed Modeled
Proposed model results Error : 0.37 CI (105 sq km)
Ice “free”
Ice “free”
2012 prediction
Stumpf et al., 2012PLoSONE.
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Bridgeman seeing similar relationship with his data
• Relationship of Microcystis biovolume to P loading • Annual biovolume related to TP loadings during spring and
early summer • Biweekly biovolumes related to DRP loadings 4-8 weeks
prior
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Western Lake Erie Ecosystem Model (WLEEM)
Development and Application Funded by: • USACE-Buffalo District (3 projects) • NSF (subcontract to University of Michigan) • Great Lakes Protection Fund (sub to TNC)
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Western Lake Erie Ecosystem Model (WLEEM) Objectives
Model ecological response of Western Basin of Lake Erie to external (Maumee Watershed) and internal (wind-driven resuspension) sources: Sediment sedimentation and turbidity Nutrients nuisance & harmful algal blooms
Support Management and Research in WLEB: Link with Maumee watershed model to quantify
response to current sediment and nutrient loads and to specific changes in watershed land use and management actions (e.g., BMPs)
Simulate in-lake responses to climate change driven extreme event scenarios
Support the quantification and analysis of GLRI metrics for sedimentation and harmful algal blooms in the Maumee River/Bay and Western Basin
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Western Lake Erie Ecosystem Model (WLEEM) Framework
Hydrodynamic
Sub-Model
EFDC Model
Sediment Transport
Sub-Model
“Simulating Waves Nearshore” (SWAN)
Wind-Wave Sub-Model
Nutrient & Eutrophication
Sub-Model (A2EM)
Shear Stress
Hydrodynamics •Water level •Current velocity
Water Quality Linkage •Flows •Suspended solids •Settling/resuspension rates
Wind-Waves •Significant height •Direction •Frequency
•Current velocity
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Phosphorus Cycling in WLEEM
Phytoplankton Zooplankton
Upper Trophic Levels
External P Loads (SRP, PIP, POP)
Uptake of PO4
Grazing Predation
Phytoplankton Settling
Resuspension
Fecal Pellet Settling
Detrital P Settling Diffusive
Exchange
Feces/Pseudofeces Deposition
Filtering Release of
PO4
Release of PO4
Exchange with Offshore
Solar Radiation
Decay and Mineralization - release of PO4
Lyngbya , Other Benthic Algae
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Suspended Solids Animation (beginning 5/12/2004)
Data provided by: Pete Richards and Dave Baker, Heidelberg University Tom Bridgeman, University of Toledo
Maumee Flow: 28,200 cfs
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TP and DRP Animations (comparison of 2011 and 2012)
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Baseline (calibration) run of TP spatial distribution on July 12, 2004
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Same model run with 40% reduction in Maumee River TP load (July 12, 2004)
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Baseline
40% Reduction of Maumee River
40% Reduction of Detroit River
River Bay Western Basin
Monthly Average TP and Chlorophyll- August 2004
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Linked Watershed-WLEEM Allows Connection between actions in Maumee
watershed and In-lake Response
Combination BMP (cover crops + 3-meter filter strips)
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Same scenarios related to spring P loading from Maumee
Combination BMP (cover crops + 3-meter filter strips)
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