Page 89

conferenceseries

.com

Volume 6, Issue 4 (Suppl)

Agrotechnology, an open access journal

ISSN: 2168-9881

Agri 2017

October 02-04, 2017

allied

academies

10

th

International Conference on

AGRICULTURE & HORTICULTURE

October 02-04, 2017 London, UK

Non-thermal plasma: new technology for pathogen control and improvement on the quality of

soybean seeds

Karina Balestrasse

1

, Cecilia Pérez Pizá

1

, Leandro Prevosto

2

, Carla Zilli

1

,

4

, Guillermo Noriega

3

and

Hector Kelly

2

1

FAUBA, Argentina

2

UTN, Argentina

3

UBA, Argentina

4

Celeste del Amo Hospital, Argentina

Statement of the Problem

: Soybean (

Glycine max

L.) is one of the most important crops worldwide.

Diaporthe/Phomopsis

complex is one of the causal agents of soybean stem canker and pod and stem blight. It is well known that agrochemicals

remain in the harvested products as in the fields and they disrupt the natural state of the microbiological flora leading to the

formation of resistant strains. Considering the fact that storage provokes a deterioration of the biological quality of the seeds,

the reduction of fungal contamination is of great interest.

Methodology & Theoretical Orientation

: Non-thermal plasma is a fast, economic and pollution-free method. It is based on

non-ionizing low-level radiation, which can activate the vitality of seeds but without causing gene mutations. Soybean seeds

were exposed to a multi filamentous dielectric barrier (Pertinax – Mylar (P-M) and Thernophase (T)). Different gases (O

2

and N

2

) were used to transport the active agents of the plasma. In this work, we focus on the ability of the plasma to control

Diaporthe/Phomopsis

in soybean seed.

Findings

: The results showed a decreased in the presence of the pathogen and an increase of the germination percentage and

vigour test on the seeds with plasma treatment (P-M: O

2

2 min and N

2

3 min and T: O

2

3min and N

2

3min) respect to the

pathogen control. We evaluated different oxidative enzymes as well as lipid peroxidation in seeds. These results demonstrated

an activation of the antioxidant defenses in soybean seeds reversing the oxidative damage caused by the fungi. Changes in the

lipid composition of the seed membranes were evaluated.

Conclusion & Significance

: Plasma treatments were efficient in controlling

Diaporthe/Phomopsis

infection in soybean seeds.

Therefore, this innovative technology would allow a reduction of environmental contamination by agrochemicals in soil and

water.

Biography

Karina Balestrasse has graduated in Biochemical at Buenos Aires University, Argentina. She finished her Doctoral thesis in Vegetal Biological Chemistry in 2003.

She is a Professor of Buenos Aires University and Independent Investigator of The National Scientific and Technical Research Council (CONICET). She works in

Agronomy Faculty of Buenos Aires University and Institute for Research in Agricultural and Environmental Biosciences (INBA) Argentina. Her expertise is oxidative

stress and metabolism vegetal. Her current research program focuses on the use cold plasma to pathogen control in seed. She leads an interdisciplinary group of

Engineers, Biotechnology Physicists and Biochemists. In the last year, she received two awards for her innovative work. She carries out research in collaboration

with the CSIC of Granada through the program I-Links 2015. She has published more than 40 research papers in national & international journals. She currently

directs Doctoral Thesis and grants.

kbale@agro.uba.ar

Karina Balestrasse et al., Agrotechnology 2017, 6:4(Suppl)

DOI: 10.4172/2168-9881-C1-028