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Constraining methane emissions in North America
Towards a Global Carbon Observing System: Progresses and Challenges Geneva, 1-2 October 2013 Constraining methane emissions in North America by high-resolution inversion of satellite data: from SCIAMACHY to GOSAT and beyond Daniel Jacob, Kevin Wecht, AlexTurner, Melissa Sulprizio
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Methane emission inventories for N. America:
EDGAR 4.2 (anthropogenic), Kaplan (wetlands) N American totals in Tg a-1 Surface/aircraft observations in US suggest 2-3x underestimate of emissions
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Methane observing system in North America
Satellites Thermal IR AIRS, TES, IASI SCIAMACHY 6-day GOSAT 3-day, sparse TROPOMI GCIRI (?) 1-day geo Shortwave IR Suborbital 1/2ox2/3o grid of GEOS-Chem chemical transport model (CTM) INTEX-A SEAC4RS CalNex
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GEOS-Chem CTM and its adjoint nested in 4ox5o global domain
Use GEOS-Chem CTM with observing system for optimized estimate of methane emissions EDGAR Kaplan a priori bottom-up emissions Observations GEOS-Chem CTM and its adjoint 1/2ox2/3o over N. America nested in 4ox5o global domain Bayesian inversion Validation Verification Optimized emissions at 1/2ox2/3o resolution
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Testing GEOS-Chem methane background
with HIPPO aircraft data across Pacific Aug-Sep11 Jan09 Oct-Nov09 Jun-Jul11 GEOS-Chem HIPPO Methane, ppbv Latitude, degrees Boundary conditions for N. American window are optimized as part of the inversion Alex Turner and Kevin Wecht, Harvard
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Optimization of methane emissions
using SCIAMACHY data for Jul-Aug 2004 Concurrent INTEX-A aircraft mission allows validation of SCIAMACHY, evaluation of inversion SCIAMACHY column methane mixing ratio XCH4 INTEX-A methane below 850 hPa C. Frankenberg (JPL) D. Blake (UC Irvine) XCH4 INTEX-A validation profiles H2O correction to SCIAMACHY data SCIAMACHY Kevin Wecht, Harvard INTEX-A
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Optimization of state vector for adjoint inversion of SCIAMACHY data
Optimal clustering of 1/2ox2/3o gridsquares Native resolution clusters Correction factor to bottom-up emissions Number of clusters in inversion ,000 34 28 Optimized US anthropogenic emissions (Tg a-1) posterior cost function SCIAMACHY data cannot constrain emissions at 1/2ox2/3o resolution; use 1000 optimally selected clusters Kevin Wecht, Harvard
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N. American methane emission estimates
optimized by SCIAMACHY data (Jul-Aug 2004) SCIAMACHY column methane mixing ratio Correction factors to priori emissions 1700 1800 ppb US anthropogenic emissions (Tg a-1) EDGAR v EPA This work Kevin Wecht, Harvard
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GOSAT methane column mixing ratios, Oct 2009-2010
Retrieval from U. Leicester
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Preliminary global adjoint inversion
of GOSAT Oct methane data Correction factors to prior emissions (EDGAR Kaplan) Nested adjoint inversion with 1/2ox2/3o resolution Alex Turner, Harvard
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Testing information content of satellite data
with CalNex inversion of methane emissions CalNex observations with GEOS-Chem prior Correction factors to EDGAR v4.2 May-Jun 2010 1800 2000 ppb 2x underestimate of livestock emissions Emisssions, Tg a-1 Kevin Wecht, Harvard
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GOSAT observations are too sparse
for spatial resolution of California emissions Correction factors to methane emissions from inversion GOSAT data (CalNex period)) GOSAT (CalNex period) GOSAT (1 year) Each point = 1-10 observations 0.5 1.5 CalNex aircraft data GOSAT (CalNex) (1 year) Degrees of Freedom for Signal (DOFS) in inversion of methane emissions 14.7 0.55 1.41 Kevin Wecht, Harvard
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Potential of TROPOMI and GCIRI for constraining methane emissions
Correction factors to EDGAR v4.2 a priori emissions from a 1-year OSSE TROPOMI (global daily coverage) GCIRI (geostationary 1-h return coverage) A priori CalNex TROPOMI GCIRI TROPOMI+GCIRI DOFS 14.7 9.5 14.1 16.7 California emissions (Tg a-1) 1.9 3.2 2.9 3.0 3.1 Kevin Wecht, Harvard
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Working with stakeholders at the US state level
State-by-state analysis of SCIAMACHY correction factors to bottom-up emissions with Iowa Dept. of Natural Resources State emissions computed w/EPA tools too low by x3.5; now investigating EPA livestock emission factors with New York Attorney General Office State-computed emissions too high by x0.6, reflects overestimate of gas/waste/landfill emissions Melissa Sulprizio and Kevin Wecht, Harvard
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Policy-relevant recommendations
for monitoring N American methane emissions Need better understanding of methane emissions from livestock; these seem to be seriously underestimated in US EPA emission inventory No apparent underestimate of methane emissions from oil/gas production, but careful monitoring is needed in view of industry expansion TROPOMI (2015 launch) holds considerable promise for monitoring methane emissions; need to prepare inverse methods for exploiting the data GCIRI (proposed geostationary launch in 2018/2019) would greatly augment capability for methane monitoring Ground measurement sites play a critical role in evaluating satellite data; targeted aircraft campaigns can provide verification and better understanding of source regions
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