Year 3 Research and Priorities

Jeremy TestaHorn Point Laboratory

December 9, 2008

Primary Scientific Question What C sources are missing from the Bay Program Water Quality model, leading to failed predictions of hypoxic volume?

Relevant Questions from proposal: B) Production in the flanking shoal areas (1) same integrated P but less R means more TOC export (2) benthic primary production as source (3) spring bloom versus summer production sources (4) mechanisms for cross-bay transport of TOC

1) Why can’t current water quality models capture oxygen minima?

Current WQ model fails to capture O2 minima in Chesapeake Bay bottom waters

Why? 1) Transport of C from shoals to deep waters not part of model2) Alternate C source to fuel respiration not included (“buried C”, primary production)

How to investigate? (1) Do comparison between modeled and measured O2 at all hypoxic stations (2) Quantify difference as “net respiration” (3) Distribute “net respiration” over entire hypoxic volume – compute net missing BOD (4) Investigate possible C sources

Collaborations:

(1) Rebecca and Bill – testbed queries and error analysis(2) Delaware group – analysis of PP and nutrient load related to “net un-modeled R”

To Quantify “Missing Carbon”

1) “Net unmodeled respiration” = Model – OBS2) “Missing C” = “Net unmodeled Respiration” *V * C/O2

3) Integrate over time with an appropriate scheme to quantify rates

Question set 1: Computational details -Match observation to closest model point or average both? -How to interpolate (time + space)?

Question set 2: Analysis of missing C -How much C is missing? -Where is the missing C? -When is the C missing?

CBP 13k model versus observations

ObservationModel Cell

July 1992 >10 m

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July 1992 <4m

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Initial Analyses Surface vs. Bottom1) Surface performs better than bottom2) Model especially bad < 4 mg/l

Initial Analyses Spring versus summer1) Model better in spring2) No low O2 in spring, however

April 1992 >10 m

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July 1992 >10 m

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July 1992 Mid-Bay

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July 1992 Lower-Bay

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July 1993 Mid-Bay

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July 1993 Lower-Bay

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Middle versus Lower Bay1) During dry year – middle compares favorably, but not lower 2) During wet year – both middle and lower perform poorly

Why the shift in relationship between nutrient loading and hypoxia after 1980?

A) Process hypotheses (1) redox-induced increase nutrient recycling efficiency (2) loss of biological nutrient sinks (oysters, marshes, SAV)

(3) shoaling of pycnocline & hypsographic threshold (4) regime shift in oceanographic circulation

B) Artifact hypotheses (1) abrupt increase in N-loading not apparent in Susquehanna R. (2) increased O2 sampling intensity yields higher hypoxia volume (3) aliased interpolation leads to miscalculation of hypoxia volume (4) shift from N- to P-limitation

2) How have sediment nutrient cycling and oxygen demand contributed to Chesapeake Bay hypoxia regime shift?

Chesapeake Bay Box Model – Examining shifts in O2, NH4, and DIP net biogeochemical production from 1960 to present

Examine long-term patterns water O2 uptake and nutrient regenerationExamine long-term patterns in surface layer productivity and organic fluxes to sediments

Advantages – 1) Box model already built and has been shown to have high utility in Chesapeake Bay2) Model provides a tool to examine past 40 years of O2 and nutrient dynamics

Disadvantages – 1) Course scale, 2) Error difficult to quantify3) Data limitations for multi-decade analysis

CB Box Model?

What has not been done?Computations of nutrient production, consumption and transport?

2040

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July 2003

What to do

1) Derive flux computation from WQ model compare to Box model?2) Time series on N flux?

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July 2003

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July 2002

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July 1965

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July 1970

What has been done?Computations of O2 production, consumption and transport?