Presentation is loading. Please wait.

Presentation is loading. Please wait.

Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy Global CH 4 Keynote Address, ICDC8, Jena, 18 Sep 2009.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy Global CH 4 Keynote Address, ICDC8, Jena, 18 Sep 2009."— Presentation transcript:

1 Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy Global CH 4 Keynote Address, ICDC8, Jena, 18 Sep 2009

2 Summary of Deliverables for HIPPO -- HIPPO Proposal March 2006 (1) Publicly available global data sets for CO 2, O 2 :N 2 ratio, 13 CO 2 : 12 CO 2, CH 4, CO, N 2 O, CFCs, HCFCs, O 3, PAN, and other tracers. There will be six missions over 2 years spanning the seasonal cycle, covering almost pole-to-pole and the full depth of the troposphere, at longitudes in the Central Pacific and over the American land mass. (2) Tests of global models used to assess the distribution of sources and sinks of CO 2 over the globe, using these data. (3) Analysis of the seasonal exchange of O 2 with the oceans. (4) Assessment of CO 2 and O 2 exchange in the Southern Ocean. (5) Analysis of transport and mixing rates in the TTL. Cannot ascend deep tropics/no radar (6) Green’s functions for the vertical propagation of the seasonal cycle through the middle and upper troposphere. (7) New constraints on global sources and sinks for CH4 and other gases. (8) Climatology of pollution layers in the global atmosphere..

3 Summary of Deliverables for HIPPO -- HIPPO Proposal March 2006 (continued) ENDURING VALUE OF HIPPO DATA. For decades, GEOSECS data (only recently superceded by WOCE) have been the foundation for critical tests of ocean models, and the means to derive synthetic insight into ocean processes as diverse as mixed-layer ventilation, deep-sea conveyor belts, new production by the biota, and, just 0628575in 2004, planetary heat balance. GEOSECS showed that a tracer study with the right global architecture could truly revolutionize a field. We expect the same will be true of HIPPO.

4 HIPPO main points—what has been delivered: unprecedented sampling of the remote atmosphere Operations and sensors successful; New Measurements implemented; HAIS sensors ! Seasonal Sampling Reference data set Fine-grained vision at global scale New Science: Bullets N 2 O distributions differ radically from global model simulations Southern Ocean sources and sinks of CO 2 observed directly Emission of marine-derived gases observed directly as atmospheric enhancements: N 2 O, methyl halides and methyl nitrate, OCS, CS 2, and DMS Arctic and North Pacific structures Seasonal changes – cold dome, transpacific transport, latitude gradients Upside down distributions of global pollutants seen consistently Stratospheric influence measured directly at global scale over the ocean Black Carbon global distributions differ from any models (lower) but intense events are very strong H 2 O supersaturation regions shown to derive from moistening Model—data and validation bullets Comparisons are underway with strong participation by 5+ models, plus satellite teams (AIRS, TES) plus TCCON

5 HIPPO Aircraft Instrumentation O 2 :N 2, CO 2, CH 4, CO, N 2 O, SF 6, CH 3 Br, CH 3 Cl other GHGs, COS, halocarbons, solvent gases, marine emission species, many more Whole air sampling: NWAS (NOAA), AWAS (Miami), MEDUSA (NCAR/Scripps) O 3 (1 Hz)‏NOAA GMD O 3 T, P, winds, aerosols, cloud waterMTP, wing stores, etc Black Carbon (1 Hz)‏NOAA SP2 H 2 O (1 Hz)‏Princeton/SWS VCSEL CO, CH 4, N 2 O, CFCs, HCFCs, SF 6, CH 3 Br, CH 3 ClNOAA- UCATS, PANTHER GCs (1 per 70 – 200 s) CO (1 Hz)‏NCAR RAF CO O 3 (1 Hz)‏NOAA CSD O 3 CO 2 (1 Hz)‏Harvard OMS CO 2 O 2 :N 2, CO 2 (1 Hz)‏NCAR AO2 CO 2, CH 4, CO, N 2 O (1 Hz)‏Harvard/Aerodyne—HAIS QCLS colors denote replicated measurements

6 Figure 1. (Panels a, b) Locations of flight tracks and vertical profiles (colored points) for HIPPO deployments 1 and 2. (Panel c) Vertical profiles (~200 in each mission), with the tropopause shown in orange and stratospheric flight segments in blue. (Panel d) Cross section of potential temperature in HIPPO_1, on the southbound leg near the dateline. The white dotted lines mark the flight path of the GV and grey lines show contours of potential temperature.

7 Figure 2. Cross sections of CH 4 (ppb), CO (ppb), CO 2 (ppm), SF 6 (ppt), N 2 O (ppb) and H 2 O (log 10 (ppm)) on HIPPO_1, southbound along the dateline, January, 2009. White dashed lines show flight tracks, and grey contours show potential temperature. CO 2 —composite and CO—composite represent merged data from CO 2 —QCLS and OMS and from CO—QCLS and RAF, respectively.

8 HIPPO _1 HIPPO _2 HIPPO_3 Jan 2009 Nov 2009 April 2010 O2O2 CO 2

9 HIPPO _1 HIPPO _2 HIPPO_3 Jan 2009 Nov 2009 April 2010 CH 4 Southbound   Northbound 

10 HIPPO _1 HIPPO _2 HIPPO_3 Jan 2009 Nov 2009 April 2010 Northbound Southbound    CO

11 HIPPO _1 HIPPO _2 HIPPO_3 Jan 2009 Nov 2009 Apr 2010 Central Pacific HIPPO_1 Eastern Pacific model obs N2ON2O

12 Tropospheric ozone in HIPPO 1, 2 and 3 N/S O3O3

13 Figure 3. (Panels a, b) Cross sections of CO 2 (ppm) and CO (ppb), on HIPPO_2, southbound along the dateline, November, 2009. (Panels c, d) Vertical profiles of greenhouse gases and black carbon at 77.2 N, November, 2009. (Panel e) Same as c, expanded. (Panel f ) Photo of dense layer of dark aerosols at 80N, 6-8 km, November, 2009 (Photo: E. Kort). (a) (b) N 2 O CO CH 4

14 Dibromomethane MODEL DISTRIBUTION: Dibromomethane Kerkweg et al. (2008) MEASUREMENTS: HIPPO -1 (NWAS + AWAS)

15 HIPPO Global Campaign # 3 water vapor distribution, March, 2010 M. Zondlo and M. Diao SPCZITCZ Can we generalize this zonally and in time? Look at AIRS...

16

17 SH NH

Download ppt "Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy Global CH 4 Keynote Address, ICDC8, Jena, 18 Sep 2009."

Similar presentations

Michael B. McElroy ACS August 23rd, 2010.

Michael B. McElroy ACS August 23rd, 2010.
GHG Verification & the Carbon Cycle 28 September 2010 JH Butler, NOAA CAS Management Group Meeting Page 1 Global Monitoring, Carbon Cycle Science, and.

GHG Verification & the Carbon Cycle 28 September 2010 JH Butler, NOAA CAS Management Group Meeting Page 1 Global Monitoring, Carbon Cycle Science, and.
Marine Ecosystems and Interdecadal climate variations Vidyunmala V. Ph.D Student, CAOS.

Marine Ecosystems and Interdecadal climate variations Vidyunmala V. Ph.D Student, CAOS.
Organic Halogen and Related Trace Gases in the Tropical Atmosphere: Results from Recent Airborne Campaigns over the Pacific Elliot Atlas 1, Maria Navarro.

Organic Halogen and Related Trace Gases in the Tropical Atmosphere: Results from Recent Airborne Campaigns over the Pacific Elliot Atlas 1, Maria Navarro.
Investigate possible causes Intercontinental Transport and Chemical Transformation (ITCT) An International Global Atmospheric Chemistry (IGAC) Program.

Investigate possible causes Intercontinental Transport and Chemical Transformation (ITCT) An International Global Atmospheric Chemistry (IGAC) Program.
1. A Chemical Characterization of North American Pollution Plumes over Europe 2. A 15-Year Climatology of Global Warm Conveyor Belt (WCB) Transport A.

1. A Chemical Characterization of North American Pollution Plumes over Europe 2. A 15-Year Climatology of Global Warm Conveyor Belt (WCB) Transport A.
CO 2 in the middle troposphere Chang-Yu Ting 1, Mao-Chang Liang 1, Xun Jiang 2, and Yuk L. Yung 3 ¤ Abstract Measurements of CO 2 in the middle troposphere.

CO 2 in the middle troposphere Chang-Yu Ting 1, Mao-Chang Liang 1, Xun Jiang 2, and Yuk L. Yung 3 ¤ Abstract Measurements of CO 2 in the middle troposphere.
Brooks Range, AK Global measurements of atmospheric gases and aerosols Amazon Basin, 2008 -- 2009 Arctic Ocean measurements, 2009 -- 2011 Steven C. Wofsy.

Brooks Range, AK Global measurements of atmospheric gases and aerosols Amazon Basin, Arctic Ocean measurements, Steven C. Wofsy.
Transpacific Transport of Ozone Pollution During INTEX-B Lin Zhang, Daniel J. Jacob, INTEX-B Science Team, TES Science Team GEOS-Chem User Meeting Harvard.

Transpacific Transport of Ozone Pollution During INTEX-B Lin Zhang, Daniel J. Jacob, INTEX-B Science Team, TES Science Team GEOS-Chem User Meeting Harvard.
Transpacific transport of pollution as seen from space Funding: NASA, EPA, EPRI Daniel J. Jacob, Rokjin J. Park, Becky Alexander, T. Duncan Fairlie, Arlene.

Transpacific transport of pollution as seen from space Funding: NASA, EPA, EPRI Daniel J. Jacob, Rokjin J. Park, Becky Alexander, T. Duncan Fairlie, Arlene.
Aircraft/Satellite comparisons from the HIPPO and GloPac campaigns Karen Rosenlof 1 and Eric Ray 2 1 NOAA ESRL CSD 2 CIRES, University of Colorado Boulder,

Aircraft/Satellite comparisons from the HIPPO and GloPac campaigns Karen Rosenlof 1 and Eric Ray 2 1 NOAA ESRL CSD 2 CIRES, University of Colorado Boulder,
Tracers in ATTREX: What we learn from CR-AVE, TC- 4, and HIPPO Steve Wofsy Elliot Atlas Presented at the ATTREX Science Team meeting, DFRC 26 Aug 2010.

Tracers in ATTREX: What we learn from CR-AVE, TC- 4, and HIPPO Steve Wofsy Elliot Atlas Presented at the ATTREX Science Team meeting, DFRC 26 Aug 2010.
Transport of CO and O 3 into the UTLS Region Dave MacKenzie University of Toronto.

Transport of CO and O 3 into the UTLS Region Dave MacKenzie University of Toronto.
Extremely Fine-Grained Observations of Atmospheric Gasses 1 Water vapor measurements from the VCSEL hygrometer Garnet Abrams October 7, 2011.

Extremely Fine-Grained Observations of Atmospheric Gasses 1 Water vapor measurements from the VCSEL hygrometer Garnet Abrams October 7, 2011.
Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy and the HIPPO Science Team Global CH 4 Global fine-grained data: what.

Brooks Range, AK HIAPER Pole-to-Pole Observations 2009 (“HIPPO”) Steven C. Wofsy and the HIPPO Science Team Global CH 4 Global fine-grained data: what.
(a)(b)(c) Simulation of upper troposphere CO 2 from two-dimensional and three-dimensional models Xun Jiang 1, Runlie Shia 2, Qinbin Li 1, Moustafa T Chahine.

(a)(b)(c) Simulation of upper troposphere CO 2 from two-dimensional and three-dimensional models Xun Jiang 1, Runlie Shia 2, Qinbin Li 1, Moustafa T Chahine.
HIPPO (HIAPER Pole-to-Pole Observation experiment) The goal of HIPPO is to provide critical tests of global models of atmospheric gases and aerosols, especially.

HIPPO (HIAPER Pole-to-Pole Observation experiment) The goal of HIPPO is to provide critical tests of global models of atmospheric gases and aerosols, especially.
Agricultural Gas and Aerosol Experiment (AGGAE) by Steven C. Wofsy Scientific background and overarching questions Agriculture is a major industrial sector.

Agricultural Gas and Aerosol Experiment (AGGAE) by Steven C. Wofsy Scientific background and overarching questions Agriculture is a major industrial sector.
Overview of UT/LS Science Issues and New Information from SEAC4RS Steve Wofsy and Jasna Pittman – Harvard University Qing Liang – NASA Goddard Space Flight.

Overview of UT/LS Science Issues and New Information from SEAC4RS Steve Wofsy and Jasna Pittman – Harvard University Qing Liang – NASA Goddard Space Flight.
Cirrus Cloud Boundaries from the Moisture Profile Q-6: HS Sounder Constituent Profiling Capabilities W. Smith 1,2, B. Pierce 3, and Z. Chen 2 1 University.

Cirrus Cloud Boundaries from the Moisture Profile Q-6: HS Sounder Constituent Profiling Capabilities W. Smith 1,2, B. Pierce 3, and Z. Chen 2 1 University.

Similar presentations

Ads by Google