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Please consider the following news release from the California
Air Resources Board: http://bit.ly/1UBrZix

 
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FOR IMMEDIATE RELEASE

June 16, 2016

NEWS RELEASE 16-30

CONTACT:
Melanie Turner
(916) 322-2990
melanie.turner@arb.ca.gov


CARB, NOAA, NASA and San Jose State University scientists team up
to study ozone transported across Pacific 

Airplanes, ozone “balloons,” lidar technologies used to
understand impact in the San Joaquin Valley

SACRAMENTO – This summer dozens of scientists from State and
federal agencies and universities are using four different
aircraft with more than 200 flight hours, balloons that measure
ozone aloft, and a laser-based instrument that measures ozone
above the ground up to 12,000 feet, to investigate ozone which
enters California from the Pacific Ocean. The three-month
research project (mid-May to mid-August) will help scientists
learn if ozone entering the state from the Pacific has an effect
on air quality at the surface in the San Joaquin Valley.  

As California continues to reduce local sources of ozone, ozone
entering the state from the Pacific makes up a larger fraction of
measured ozone levels.  Current ozone levels in the San Joaquin
Valley are predominantly caused by local emissions, but as air
quality standards become lower, any contribution from global
ozone levels needs to be understood. The California Baseline
Ozone Transport Study (CABOTS) will investigate the
concentrations of ozone aloft at a site on the Northern
California coast and the role that ozone hundreds -- or even
thousands -- of feet above the surface can play in surface
measurements in the San Joaquin Valley.

“California must continue to achieve significant new reductions
in ozone emissions to achieve federally mandated health-based
standards,” said California Air Resources Board (CARB) Chair Mary
D. Nichols. “Science is key to helping us understand what causes
areas of our state like the San Joaquin Valley to exceed the
ozone standard. By combining resources with NOAA, NASA and San
Jose State, California will get new data to answer important
questions about air pollution that comes into our state from
across the globe.” 

Recent health research has led the U.S. Environmental Protection
Agency to adopt a lower, more health protective ozone standard. 
At the same time, increasing industrialization in Asia and global
emissions of methane has led to higher ozone concentrations
entering California from the west. Actions to decrease climate
change, such as California’s proposed Short-Lived Climate
Pollutant Reduction Strategy and the U.S. EPA’s actions to curb
methane emissions, will help to decrease global ozone levels.

The foundation of CABOTS is two CARB research contracts totaling
$400,000, but coordination with other ongoing CARB and federal
studies will result in measurements which would likely cost well
over $1 million to replicate. 

The foundational CABOTS projects measure ozone vertical profiles
at two locations during the late spring and summer of 2016:
•	A contract with San Jose State University, “Improved
Understanding of the Magnitude of Trans-Pacific Long Range
Transported Ozone Aloft at California’s Coast,” provides near
daily ozonesonde launches from the UC Davis Bodega Marine
Laboratory. An ozonesonde is a balloon which measures ozone from
the surface to more than 10 kilometers above the ground. Data
collected from this project will help researchers better quantify
the magnitude and temporal variations in measured ozone
concentrations entering California. 
•	A contract with the National Oceanic and Atmospheric
Administration (NOAA), “Lidar Profiling of Ozone in the San
Joaquin Valley,” uses a surface-based ozone lidar to provide
ozone profiles in the San Joaquin Valley for three weeks in both
the spring and summer of 2016. Lidar is a technology that uses a
laser to measure ozone concentrations in a vertical column up to
5 kilometers above the ground. The data will help CARB to better
characterize the ozone vertical profile and its temporal
variation in the San Joaquin Valley, and to understand the
vertical mixing of ozone aloft down to the surface.

Additional measurements that will happen during the study period
which are expected to enhance our understanding of the impact of
long-range transported ozone pollution are: 
•	Daily aircraft flights between 4 and 6 a.m. over Fresno and
Bakersfield between June and September. Part of CARB’s Aircraft
Pilot Observation program, the flights make continuous
measurements of ozone up to 3,000 meters above ground. 
•	A second CARB-funded aircraft project aims to characterize the
ozone content of the lower atmosphere from dawn to early evening
at Fresno, Bakersfield and points in between. Approximately 10
days of flights will happen this spring and summer.
•	The Alpha Jet Atmospheric Experiment (AJAX) project at NASA
Ames Research Center makes regular measurements of ozone and
other trace gases over California.  In support of CABOTS, AJAX
will sample air composition offshore and between the locations of
the ground-based and balloon measurements.  
•	CABOTS will also benefit from data collected by NASA’s DC-8
flying laboratory. Two flights, on Friday, June 17, and Saturday,
June 18, part of the NASA Student Airborne Research Program, will
target the atmosphere above the SJV.
•	Ozone measurements at Chews Ridge (a site in the Coastal Range
southeast of Monterey) funded by the San Joaquin Valley Air
Pollution Control District will provide ozone data at a high
elevation near the coast and west of the lidar measurements.   




California is in a drought emergency.
Visit www.SaveOurH2O.org for water conservation tips.