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III. Challenges Deriving integrative results of ExUTLS chemical observations Diagnosing the key processes that maintain and control the chemical structure.

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Presentation on theme: "III. Challenges Deriving integrative results of ExUTLS chemical observations Diagnosing the key processes that maintain and control the chemical structure."— Presentation transcript:

1 III. Challenges Deriving integrative results of ExUTLS chemical observations Diagnosing the key processes that maintain and control the chemical structure Reconciling physical models and definitions of the extratropical tropopause

2 Challenges (1): Deriving integrative results of ExUTLS chemical observations

3 Hintsa et al., 1998 The use of tracer correlations

4 Marcy et al., 2004

5 Laura Pan, 3/4/08 O3-CO relationship for tropospheric intrusions All RF01 RF01,08,09,14 Pittman et al., in progress Integrative tracer correlations Atlas et al., Vogel et al., in progress

6 January 8-9, 2008START08 workshop6 Age spectrum derived using NMHC, Ehhalt et al., 2007 Information from tracers of different lifetimes Age and age spectrum Ray et al., Tuesday Atlas et al., Wednesday

7 Examples of using EqL in the UTLS region for compiling tracer climatology: [Hoor et al., 2004] Coordinates for integrating data:

8 Tilmes et al., submitted Profiles in tropopause referenced Rel. Alt Coordinates for integrating data:

9 Dynamical coordinates: wind field/Jet streams: Ray et al., 2004 Brioude et al., 2004 Combine Jet and Rel Alt, in progress: Tilmes et al., Manney et al.,

10 Challenges (2): diagnosing the key processes that maintain and control the chemical structure How do we identify the roles and interactions of multi-scale dynamical processes (i.e., planetary, synoptic, meso-scale including convection and GW)? –Are small scale processes important? How do we identify, model and quantify mixing?

11 Stone et al., in progress Vogel et al., Konopka et al, Tuesday

12 DTP and TIL: are they results of the same process?

13 Challenges (3): Physical models and Definitions of the extratropical tropopause (ExTP) How do we best characterize the ExTP as a transport boundary? How do we reconcile the multiple existing conceptual models/definitions of the ExTP? What processes control the occurrence and spatial extent of multiple tropopauses?

14 The Dichotomy of the Tropopause Definitions Palmen & Newton, 1969Shapiro & Keyser, 1990 “The Thermal Tropopause”“The Dynamical Tropopause” (WMO, 1957) (Reed, 1955, Danielsen, 1968; Shapiro, 1980; WMO, 1986; Holton et al., 1995;…)

15 Adapted from Chapter 2 WMO (2002), Law, Cox & Haynes Extratropical Transition Layer - ExTL?

16 Chemical Tropopause using tracer correlations? Zahn, 2003

17 Statistical “Chemopause” or ExTL Pan et al., 2007

18 ExTL vs TTL Tropics: Two physical boundaries Extratropics: one physical boundary Gettelman and Foster, 2002 Birner, 2006

19 ExTL vs TTL – existence of multiple horizontal boundaries

20 Expectations to the workshop Emerging pictures -> Conceptual framework? From Mainz workshop 2005: “well defined terminology” “STE=STT/TST”, “ExTL” Broader picture: How is the extratropical UTLS coupled to the tropical UTLS? The processes near the subtropical break?

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