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4.26 CEPRMP Sediment Core Plan

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Build understanding of ecosystem characteristics and processes... Ambiguous chronology: multiple tracers? Natural or manmade disturbances: choose sites carefully? ... – PowerPoint PPT presentation

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Title: 4.26 CEPRMP Sediment Core Plan


1
4.26 CEP/RMP Sediment Core Plan
  • Draft Comments
  • CFWG Sept 2005

2
General Objectives (for CEP RMP)
  • Build understanding of ecosystem characteristics
    and processes
  • To provide sufficient (better) basis for deciding
    among possible management alternatives

3
Specific Objectives (for this Study)
  • Estimate future loads from eroding buried
    contaminants
  • Estimate historic loadings of contaminants
    (especially recent decades)
  • Characterize contamination with depth to assess
    current status and likely future changes
  • Provide data for parameterization and evaluation
    of the multi-box model

4
If 20 Cores Budgeted
  • Random sampling
  • Pros aim to be representative of studied system
  • Cons muddy signal, may need many samples before
    important factors IDd
  • Deterministic sampling
  • Pros build process with relatively few samples
  • Cons selected samples often not characteristic
    of larger system (e.g. USGS depositional cores)

5
Sediment Core Sampling Strategy
  • Hybrid Approach
  • Some samples specifically to understand loading
    history (deposition only zones)
  • Remainder of sites to begin representative
    characterization of Bay sediments

6
Initial Effort Timeline
  • One cruise 1 year (not 2 years)
  • Relatively few stations spaced widely apart
  • Long lived isotopes, pollutants, 1 yr storage
    not too bad if stored properly
  • Not enough samples (e.g. 10 in yr 1) for info to
    change stratification midstream

7
Sampling Effort Distribution
  • Use general Bay segmentation scheme
  • Suisun, San Pablo, South, Lower South Bay
  • Areas with bathymetric change history mapped
  • Different sediment and pollutant loading
    quantities and sources
  • Cores from each segment
  • 1 depositional (wetland or deep Bay?)
  • 1 erosional
  • 2 more characteristic of that segment
  • Depositional, neutral, or erosional

8
Modeling Other Needs
  • Hybrid approach seeks some of each
  • Assumes near 0 possibility that any model can do
    without verification of loading histories or
    process outcomes
  • ? Is how much of each ?
  • 20 samples not a large number
  • Numbers likely not definitive of loading or
    representativeness
  • Collect excess samples of each type?
  • Will we be able to get around to analyses soon
    enough?

9
Example Stratification

0
-
10
Distribution of Sites
11
Future loads from erosion
  • Unmixed buried sediments become mixed
  • Pollutant profiles at depth lt gt mixed layer?
  • Introduced and averaged into mixed layer
  • Widespread characterization preferred
  • Rate of erosion
  • Extrapolate recent history (Jaffe rates)
  • Predicted from model (calibrated to Jaffe?)

12
Future Loads w/ no More Cores
  • Assume a range of profiles from existing data?
  • Pollutant profiles at depth lt or or gt mixed
    layer
  • How much higher or lower is reasonable?
  • Trend is likely depth gt or surface
  • USGS cores depth gt surface
  • Many others suggest depth surface
  • Guessing time scale of change much harder

13
Historic Contaminant Loadings
  • Depositional cores reflect past conditions
  • Potential limitations
  • Ambiguous chronology multiple tracers?
  • Natural or manmade disturbances choose sites
    carefully?
  • Not representative of Bay what does it reflect?
  • Deep bay or wetland?

14
Historic Contaminant Loadings
  • Deep bay cores
  • Proslikely less hot spot influence, more
    representative of segment conditions
  • Cons integrate more processes more degrees of
    freedom (mixing w/ other seds, long response
    time), location history uncertain
  • Wetland cores
  • Prosrespond more quickly to changes, reflective
    of local sources (hotspot, effluent or
    tributary), better mapped, history
  • Cons more reflective of local sources, slow
    accretion

15
Alternatives Historic Loadings
  • Assume Breivik close enough?
  • Revise Breivik with upper and lower bounds?
  • How low/high is reasonable?
  • Monitor current loads with time series
  • Currently _at_ Guadalupe river, Mallard Island
  • Representative enough?
  • Project trends backward for hindcast?

16
Contaminant Profiles w/ Depth
  • System status not just in surface 5cm sediments
  • Dominant sedimentation regimes in each segment
    sampled ( - 0 sedimentation)
  • Spatially variable but representative in long
    term
  • (must start somewhere)
  • Alternatives (?)
  • Assume concentration lt or gt surface sediments
  • Even larger uncertainties

17
Data for Model
  • (Multi box or other)
  • Past future loads, current system status are
    needed to model
  • (input parameters, initial or final conditions)
  • Loads and status data needed independent of model
  • Relative priority somewhat model dependent
  • Which is more important?

18
Comments on Plan to Date
  • Too expensive (much of CEP budget)
  • Underfunded for objectives
  • Too little of budget for interpretation/reporting
  • Any geologic cores for sediment transport
    perspective?
  • Why not Cs137 or mix of other tracers?
  • Can cores be collected and stored for later
    analysis?
  • Why wetland cores (not in model)?

19
Comments on Plan to Date
  • Expect high of useless cores
  • Use screening analyses
  • Need more sections per core for temporal trends
    (fewer cores more sections)

20
Regional Board Wish List
  • Some Central Bay sites
  • Trade OC pesticides for other organics in some
    samples?
  • Selenium (for a background baseline?)
  • PCDD/Fs
  • Background PCB levels
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