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.com

Volume 8, Issue 6 (Suppl)

J Bioremediat Biodegrad, an open access journal

ISSN:2155-6199

Biopolymers & Bioplastics 2017

October 19-20, 2017

October 19-20, 2017 San Francisco, USA

7

th

International Conference and Exhibition on

Biopolymers and Bioplastics

Bioplastic formulations for the delivery of beneficial microbes to control agricultural pests

Hamed K Abbas, C. Accinelli,

and

W. T. Shier

USDA-ARS, Biological Control of Pests Research Unit, USA

B

iocontrol agents are beneficial microbes used to control agricultural pests including fungi, insects, weeds, and bacteria. Their

efficacy depends on effective formulations and delivery systems to facilitate production, maintain viability during storage,

facilitate field application and enhance effectiveness on crops. Starch-based bioplastics possess a number of unique properties

that make them advantageous for biocontrol formulations. They are available in various forms that facilitate delivery and efficacy.

In each form used, the starch component of the bioplastic plays key roles. In granule formulations, the starch-based bioplastic

component enables adsorption of spore suspensions with good viability retention and provides a nutrient source for the fungus

after application. In sprayable liquid formulations, the starch component allows heat-induced gelatinization of finely-divided

particles, which can then deform to pass through a sprayer head, and enhance adherence to leaf surfaces, as well as providing the

spore suspension adsorption and nutrient provision advantages. In seed coating, spray-coated bioplastic formulations provide a

stable, adherent nutrient source with excellent dust-generation resistance and viability retention. Bioplastic granules coated with

spores of non-aflatoxigenic

Aspergillus flavus

spread on maize (corn) field soil reduces levels of aflatoxigenic

A. flavus

in soil and

aflatoxin contamination in harvested kernels by 97%. Biocontrol

Trichoderma

species in bioplastic granules reduce fungal infection

of emerging roots by 85% in tomatoes, impatiens and bluegrass. Coating seeds with bioplastic containing

Trichoderma

species helps

prevent fungal infection of roots of germinating seedlings, preventing root rot. Sprayable liquid bioplastic dispersion formulations

of

Beauveria bassiana

significantly reduced damage caused by European corn borer in maize and tarnished plant bug in cotton, and

delivered

Bacillus thuringiensis

endotoxin crystals to European corn borer larvae, causing 72% mortality. Bioplastic formulations

have proven effective delivery vehicles for several microbial biocontrol agents in treating or preventing agriculturally-important plant

diseases, but improved methods are being sought to enhance cost-effectiveness.

Biography

Dr. Hamed Abbas has been the lead scientist in the aflatoxin control project since 1999. The focus of Dr. Abbas’ research is reduction of corn contamination with

mycotoxins (especially aflatoxins and fumonisins) by studying agricultural practices, varietal resistance, fungal ecology, and biological control. He developed a

sensitive, inexpensive method to identify aflatoxigenicity in

Aspergillus

isolates. Currently Dr. Abbas is cooperating with an industrial partner (Syngenta) to further

develop and refine application methods for two promising aflatoxin biocontrol strains. Dr. Abbas has 27 years of post graduate research experience and he has

authored or co-authored 261 publications (212 refereed research journal articless, 50 review articles/book chapters) and over 200 abstracts. He has received 7

patents for his work on mycoherbicides and aflatoxin control. Dr. Abbas has been recognized worldwide as an authority on mycotoxin contamination in the field,

and in food, and for his work on mycoherbicides.

Hamed.Abbas@ARS.USDA.GOV

Hamed K Abbas et al., J Bioremediat Biodegrad 2017, 8:6 (Suppl)

DOI: 10.4172/2155-6199-C1-011