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A Hierarchical Process Model of the Ross Sea Ecosystem

OS4316-06. A Hierarchical Process Model of the Ross Sea Ecosystem. Stuart R. Borrett, Will Bridewell and Pat Langley. Center for the Study of Language and Information, Stanford University. Kevin Arrigo. Department of Geophysics, Stanford University. February 2006

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A Hierarchical Process Model of the Ross Sea Ecosystem

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  1. OS4316-06 A Hierarchical Process Model of the Ross Sea Ecosystem Stuart R. Borrett, Will Bridewell and Pat Langley Center for the Study of Language and Information, Stanford University Kevin Arrigo Department of Geophysics, Stanford University February 2006 Ocean Sciences Meeting, Honolulu, HI

  2. Ross Sea Phytoplankton http://www.washington.edu/newsroom/news/images/antarctic-map.jpg Diatoms Phaeocystis antarctica What processes determinespecies dominance? Photoinhibition vs. Iron

  3. Task Search for Models that Explain the Data Two Spaces • Structures • Beam search • Parameters • Gradient decent Inductive Process Modeling Given 1) Data (time-series) 2) BackgroundKnowledge • Entities • variables • parameters • Processes • hierarchical • functional forms • parameters Langley et al. in press; Asgharbeygi et al. in press; Todorovski et al. 2005

  4. Processes Growth Predation Death Lotka-Volterra Library of Generic Processes

  5. Ross Sea Data Forcing Observed SeaWiFS 1996-1997 JGOFS 1996-1997 CIAO Model (Worthen & Arrigo 2004, Arrigo et al. 2003, Tagliabue & Arrigo 2005)

  6. Background Knowledge: Ross Sea Process Hierarchy

  7. Background Knowledge: Ross Sea Process Hierarchy

  8. Background Knowledge: Ross Sea Process Hierarchy

  9. Background Knowledge: Ross Sea Process Hierarchy Space of Possible Structures

  10. Background Knowledge: Parameters Parameter Search Space

  11. Two Trials • Trial 1 • Generic Processes Hierarchy • Parameters fairly constrained (CIAO) • Entities Phytoplankton, Zooplankton, Detritus, NO3, Fe, Env. • Trial 2 • No Fe

  12. Trial 1 – with Fe Trial 2 – no Fe Simulations SSE = 205,520 r2 = 0.84 SSE = 1.36e+06 r2 = 0.70

  13. Trial 2 SSE =1.36e+06r2 = 0.70 Trial 1b SSE =226,403r2 = 0.90 Trial 1 Trial 1a SSE =203,520r2 = 0.84

  14. Trial 2 – no Fe Trial 1 – with Fe Model Fits Alternative structures may have similar fit Models with Fe are generally better

  15. Results: Parameters

  16. Future Work • Hierarchical entities • Spatial models • New criteria for selecting good models • Use additional system knowledge • Alternative parameter estimation algorithms • Process sensitivity

  17. Summary & Conclusions • Modeling as search • H-IPM algorithm for automatic search • Reusable libraries of generic processes • Discover process models that explain the data • Multiple model structures may have similar fits • Models with Fe were better • Parameter sensitivity • Require more data to constrain the search

  18. Acknowledgements • Arrigo Lab (Stanford) • Computational Learning Lab (Stanford) • NSF grant # IIS-0326059 sborrett@stanford.edu http://cll.stanford.edu/~sborrett/

  19. END

  20. Left Overs generic process Predation relates: R1{prey}, R2{predator} parameters: a[0,1], b[0,1] equations: d[R1,t,1] = a * R1 * R2 d[R2,t,1] = b * R1 * R2

  21. Phytoplankton in the Ross Sea SeaWiFS, Sept. 1997-Aug. 1998 Diatoms Phaeocystis antarctica What processes determinespecies dominance? Photoinhibition vs. Iron

  22. Related Work

  23. Images

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