Updated Greenhouse Gas Emissions
Inventory for Connecticut
Recent Increases and Underlying Factors
June 13, 2016

Introduction
Connecticut’s climate and energy policymaking is at a critical juncture. With both the Governor’s Council on
Climate Change and the 2016 Comprehensive Energy Strategy aiming for final recommendations by the end of
this year, Connecticut will be making crucial decisions in the next six months that will set the state’s primary
direction on climate and energy issues for years to come – with potentially lasting consequences for the state’s
economy, public health, and the environment.
This unique policymaking moment also has legal significance; the first mandatory greenhouse gas (GHG)
emissions cap established by Connecticut’s Global Warming Solutions Act – a 10% reduction from 1990 levels by
20201 – is only three and a half years out. With so much at stake, it is imperative that Connecticut’s upcoming
policy decisions are grounded in the latest data and analysis on GHG emissions and trends.

Analysis
Toward that end, Acadia Center constructed an updated GHG emissions inventory for Connecticut from 1990
through 2015 using the best available data from public sources.2 The inventory’s methodology matches the
approach to be taken by Connecticut in future GHG emissions reporting. The Governor’s Council on Climate
Change has recently indicated that the state will switch from a traditional inventory approach – one where only
GHG emissions produced within the state are counted – to a hybrid approach that estimates the total GHG
emissions caused by the electricity consumed in the state. 3
Acadia Center supports this decision. The hybrid approach can provide a more accurate sense of Connecticut’s
actual GHG emissions footprint and should therefore better inform and shape policy solutions. Figure 1, below,
shows the results of Acadia Center’s updated inventory for Connecticut.

1

See Public Act 08-98, An Act Concerning Connecticut Global Warming Solutions, §2(a)(1) (“The state shall reduce the level of
emissions of greenhouse gas…[n]ot later than January 1, 2020, to a level at least ten percent below the level emitted in 1990”).
2
Acadia Center has published multiple GHG emissions inventories for Connecticut beginning in 2003. The most recent used a
traditional inventory approach through 2014. This analysis is an update using a hybrid approach and 2015 data.
3
See GC3 Exploratory Report, pp. 33-34.
acadiacenter.org
Boston, MA

●

●

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada

 2
Figure 1 – Connecticut GHG Emissions Inventory, 1990-2015
60

Connecticut GHG Emissions
Estimated 2020 GHG Emissions Cap

MMTCO2E

50

40

30

Source: Acadia Center analysis using data from EPA State Inventory Tool,
EIA, ISO New England, and Massachusetts GHG Inventory appendices.

20

Non-electric sector data for 2013 and earlier is based on the U.S. Environmental Protection Agency’s State
Inventory Tool.4 2014 was estimated using available preliminary, but largely complete, data. 2015 was estimated
using partial and some preliminary data. Electric sector emissions are based on Connecticut’s consumption share
of electricity produced in the region and imported into the region.5 An estimate of the 2020 emissions cap set by
the Global Warming Solutions Act – 10% less than 1990 emissions – was calculated using the hybrid inventory
approach. Connecticut has not yet officially calculated and set the 2020 cap using this new approach, nor has a
public proceeding been initiated to do so at this time.

Discussion
The analysis results show a clear trend of GHG emissions increasing since the 2012 low. This trend is probably not
unique to Connecticut or unexpected. Connecticut’s most recent GHG emissions forecast for 2013 and beyond
predicts a similar near-term trajectory.6 Year over year changes in emissions can be attributed to many factors –
fuel prices, the economy, and weather, to name a few. Prices for oil and natural gas have dropped significantly in
recent years, as demonstrated in Figure 2 below, and are likely large contributors to this trend.

4

The State Inventory Tool is available online: https://www.epa.gov/statelocalclimate/state-inventory-and-projection-tool.
Differences in New England state Regional Portfolio Standards were not included in this analysis.
6
See GC3 Exploratory Report, p. 35, Figure 7.
5

acadiacenter.org
Boston, MA

●

●

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada

 3
Figure 2 – New England Retail Price for Regular Gasoline
$4.50

$4.00

$3.50

$3.00

Price per Gallon

$2.50

$2.00

$1.50

$1.00

$0.50
Source: EIA

$0.00
Jan 2008

Jan 2009

Jan 2010

Jan 2011

Jan 2012

Jan 2013

Jan 2014

Jan 2015

Jan 2016

The dramatic drop in gasoline prices has likely resulted in increasing consumption both from more driving,
Figure 3 below, and a shift away from more efficient vehicles by consumers, Figure 4 below. Increased
consumption of gasoline and diesel fuel leads to corresponding increases in GHG emissions from the
transportation sector.

acadiacenter.org
Boston, MA

●

●

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada

 4
Figure 3 – Vehicle Miles Traveled in Connecticut

Vehicle Miles Traveled (millions) - 12 month moving total

32,500

32,000

31,500

31,000

30,500

30,000

Source: Acadia Center Analysis of Federal
Highway Administration Data

29,500
Jan 2009

Jan 2010

Jan 2011

Jan 2012

Jan 2013

Jan 2014

Jan 2015

Jan 2016

Figure 4 – Average MPG Rating of New Car Purchases in the United States
27

26

25

Miles per Gallon

24

23

22

21
Source: University of Michigan
Transportation Research Institute

20
Jan 2008

Jan 2009

acadiacenter.org
Boston, MA

●

●

Jan 2010

Jan 2011

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

Jan 2012

Jan 2013

Jan 2014

Jan 2015

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada

Jan 2016

 5
Connecticut’s economy has also continued to improve in the past few years, Figure 5 below, resulting in more
economic activity, job growth, and associated energy use. While the growth of clean energy and reduced energy
waste in the region mean that emissions are no longer as directly tied to economic output as in the past, changes
in economic activity can still be a contributing factor to changes in emissions.
Figure 5 – Seasonally-Adjusted Employment in Connecticut
1,740,000

1,720,000

Seasonally-Adjusted Non-Farm Employment

1,700,000

1,680,000

1,660,000

1,640,000

1,620,000

1,600,000

1,580,000

1,560,000

1,540,000
Source: Connecticut Department of Labor

1,520,000
Jan 2008

Jan 2009

Jan 2010

Jan 2011

Jan 2012

Jan 2013

Jan 2014

Jan 2015

Jan 2016

In addition to factors outside of Connecticut’s control, other factors within its control – such as policy
development and implementation – also have likely contributed to the recent increase in emissions. Figure 6
below shows how Connecticut’s share of the region’s electricity consumption is not forecast to decline as quickly
as other states in the region, particularly Massachusetts, Rhode Island, and Vermont.
The New England states with bigger reductions in electric load have all implemented more aggressive energy
efficiency and/or solar PV deployment policies than Connecticut has in recent years. This means Connecticut will
be taking on an increasing share of the region’s GHG emissions from electricity consumption over time, which
then negatively impacts its carbon profile.

acadiacenter.org
Boston, MA

●

●

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada

 6
Figure 6 - ISO New England Forecast - Change in Electric Consumption from 2016
4.00%

2.00%

0.00%
2016

2017

2018

2019

2020

2021

2022

-2.00%
CT
ME
MA
-4.00%

NH
RI
VT
Source: Acadia Center Analysis of ISO New England Data

-6.00%

Conclusion
The market, economic, and policy factors identified here have all likely contributed to the growth of GHG
emissions in Connecticut over the past three years. Many of the identified factors in the 2013 to 2015 timeframe
are persisting into 2016. While it is too soon to predict with certainty whether Connecticut will meet its
mandatory 2020 GHG emissions cap, implementing additional short term mitigation measures will increase the
likelihood of doing so.
Short-term emissions reduction options are available to Connecticut. The most promising opportunities are
likely in energy efficiency, distributed solar PV, and electric vehicles. Connecticut has made good progress on
each of these options and thus has in place existing programs that could be ratcheted up quickly to enable
significant reductions in GHG emissions in the three and a half years leading up to the 2020 emissions cap.
We look forward to working with Connecticut and other stakeholders to explore how the next Comprehensive
Energy Strategy and the Governor’s Council on Climate Change’s final findings can address the need for a strong
and effective mitigation effort – not only in the near term, but also for the long term and the state’s crucial 2050
GHG emissions target.

For more information:
Jamie Howland, Director, Climate and Energy Analysis Center, jhowland@acadiacenter.org, 860.246.7121 ext.201
Bill Dornbos, Senior Attorney & Director, Connecticut Office, wdornbos@acadiacenter.org, 860.246.7121 ext. 202

acadiacenter.org
Boston, MA

●

●

admin@acadiacenter.org

Hartford, CT

●

New York, NY

●

●

617.742.0054 ext. 001

Providence, RI

●

Rockport, ME

●

Ottawa, ON, Canada