Dr. Freddie Marshall Bourland — ICAC Cotton Researcher of the Year
2010
Freddie Marshall Bourland
University of Arkansas — Northeast Research and Extension Center
P.O. Box 48,
Keiser,
AR 72351
USA
Position: Professor and Center Director
Field of Research: Cotton Breeding/Genetics
Awards/recognition:
University of Arkansas - Arkansas Cotton
Achievement Award, 1999
University of Arkansas - John W. White Team Research Award, 1999
National Cotton Council - Joint Cotton Breeding Committee Genetics Award, 2001
Publications: Complete list of Dr Bourland's publications (156K PDF)
Innovative
Achievements:
1. Release of cotton germplasm lines and cotton
varieties.
Bourland has been primarily responsible for the development and release of 54
cotton germplasm lines (34 lines since 2004) and one cultivar. These releases
are chronicled in 34 registration articles in Crop Science Journal and the
Journal of Plant Registrations. The breeding program has focused on combining
various host plant resistance traits, enhanced combinations of yield component
traits, and improved fiber quality into early-maturing, widely adapted, high
yielding genotypes. The germplasm lines have been widely distributed and used
by private and public cotton breeders throughout the world. In 2008, Cotton
Incorporated initiated a program to increase seed of outstanding (on basis of
yield performance and high fiber quality) advanced conventional lines from
public cotton breeders. Eight of 14 lines chosen for this program over the past
two years were developed by Bourland. One of these eight lines is currently
being released as a conventional variety. In replicated tests over the three
years (four sites per year), this new variety has yielded 5% more than DP 393,
and produced fiber length of 1.29 in.(32.8 mm), length uniformity of 87.1%, and
strength of 35.3 g/tex (346 kNm kg-1). In the same tests, DP 393 had fiber
length of 1.18 in. (30.0 mm), length uniformity of 84.8%, and strength of 31.7
g/tex (311 kNm kg-1). This combination of high yielding ability and exceptional
fiber quality in a short-season variety is unparalleled, and will surely have a
great impact on the cotton industry.
2. Development of the COTMAN cotton management
system.
COTMAN is a management system developed by a multiple disciplinary research
team of which Bourland was one of four principal developers. Initially, his
role was primarily the development of critical plant measurements and
determining how cultivars differed with regard to these parameters. Since then,
he has been integrally involved with training individuals to use COTMAN and
with developing training materials. The COTMAN system is based upon monitoring
and responding to plant growth and development. Resulting growth curves provide
diagnostic insight on crop development through the season and identify pivotal
stages of development. Combined with heat unit requirements and long-term
weather patterns, COTMAN provides assistance with critical end-of-season
management decisions. Within COTMAN, the “nodes-above-white-flower” measurement
is used to monitor maturation of the crop and to identify the flowering date of
the last cohort of flowers that contribute significantly to yield. With this
date identified, end-of-season management is based on the maturity of these
last bolls. The “nodes-above-white-flower” concept is now widely used in making
end-of-season decisions. Prior to boll weevil eradication and introduction of
Bt cotton, use of COTMAN decision rules was shown to increase net returns by
$46 to $53 per acre. Since then, net returns associated with COTMAN decision
rules still exceed $20 per acre.
3. Development of cotton breeding techniques.
Bourland has been primarily responsible for developing several field and
laboratory techniques that may be used to select and characterize cotton
germplasm. Techniques that he has developed include: 1) Hot water technique to
evaluate seed quality and resistance to seed deterioration, 2) Characterization
of seedling vigor based on lateral root development, rapid true leaf formation,
and resistance to seedling disease, 4) COTMAP, a modified whole plant mapping
program used to characterize structure and fruiting parameters of cotton
plants, 4) A rating system for characterizing leaf and stem pubescence of
cotton genotypes, 5) A method for sampling and characterizing marginal bract
trichomes of cotton genotypes, 6) COTVAR, an on-line program for summarizing
data from cotton variety tests in all states, 7) Q-score a quantitative measure
of cotton fiber quality that incorporates four weighed HVI measurements into
one index, and 8) now working on maximizing the utility of basic yield
components of lint per seed, fibers per seed, and fiber density. Additionally,
he has assisted with the development of the “dirty-flower” technique for
evaluating resistance to tarnished plant bug, and is currently working on
improved techniques for evaluating resistance and/or tolerance to root-knot
nematode, Verticillium wilt, and heat stress. Combined use of these techniques
has been critical to the germplasm improvement made in his cotton breeding
program.
Fred Bourland was reared on a family cotton farm in
northeast Arkansas where he was involved with all aspects of growing cotton. In
his youth, he personally experienced planting fuzzy seed, blocking out emerged
plants to desired plant densities, hand-weeding, and hand-picking. He later
experienced the transition to more modern seeding methods, herbicides, and
mechanical picking. He earned both his B.S. in agriculture (1970) and M.S. in
plant breeding (M.S.) from the University of Arkansas. Under the direction of
Dr. B.A. Waddle, his M.S. thesis project involved the characterization of
cotton plant types for genetic studies. He then earned his Ph.D. in genetics
under the direction of Dr. L.S. Bird from Texas A&M University in 1978. For
his Ph.D. dissertation research, he studied the inheritance and
interrelationships of several seed and seedling traits in cotton. In 1978, he
became an Assistant Professor of agronomy at Mississippi State University,
where he headed a cotton breeding program and had teaching responsibilities.
During his tenure at Mississippi State, he was promoted to Associate Professor
in 1983 and to Professor in 1987. He was hired as Professor of agronomy at
University of Arkansas in 1988, and continued his cotton breeding research and
teaching. In 1997, he transferred his breeding program from the main campus to the
Northeast Research and Extension Center where he also serves as Center
Director. He has been married to his wife, Kathy, for 40 years and they have
one son, Samuel.