Page 51

Notes:

conferenceseries

.com

Volume 6, Issue 1 (Suppl)

Clin Microbiol

ISSN: 2327-5073 CMO, an open access journal

Microbiology & Mycotoxins 2017

February 27-28, 2017

February 27-28, 2017 Amsterdam, Netherlands

7

th

Euro Global Summit on

Clinical Microbiology and Mycotoxins

Glow discharge plasma efficiently degrades T-2 toxin and patulin

Lumei Pu, Huali Xue, Yuanyuan Zong, Haitao Long

and

Yang Bi

Gansu Agricultural University, China

G

low discharge plasma (GDP) is a novel kind of electrochemical process in which plasma is sustained by dc glow discharges

between a pointed electrode and the surface of the liquid electrolyte. The feature of GDP is that various active species such as

hydrogen peroxide and hydroxyl radicals are formed when discharges take place and degrade most organic molecules. T-2 is one of

the most toxic trichothecenes mycotoxins produced by different

Fusarium

species. Patulin is a mycotoxin produced by species in the

fungal genera Aspergillus and Penicillium. P. expansum, caused blue mold of pome fruits and grape berries is a major fungal produced

patulin. Although much attentions have been focused on the degradation of T-2 toxin and patulin; however, the information of how

GDP degrade them is unavailable. In this study, the effects of GDP on the degradation of T-2 toxin and patulin in aqueous solution

were investigated at different conditions. The degradation kinetic curves, kinetic models and the optimum process conditions were

evaluated. In order to investigate the efficiency and to get the highest degradation rate of patulin in apple juice by GDP, the work

voltage, degradation time and initial concentration of patulin in apple juice were taken as single factors and the orthogonal design

experiments were carried out. Meanwhile, the quality of apple juice was evaluated during the treatment. The results showed that

GDP treatment rapidly and effectively degraded T-2 toxin and patulin in aqueous solution. The higher toxin initial concentration,

the higher treatment efficiency would be. The faster toxin removal rate was achieved at a relatively higher acidity and basify. The

Fe2+ and H2O2 exhibited strongly catalysis ability to the degradation reactions, but nano ZnO inhibited the catalysis. The dynamics

equation curve fitted well and belonged to the first order kinetics reaction. The values of pH in the degraded solution were rapidly

decreased due to the carboxylic acids formed, then the values increased because carboxylic acids was decomposed into CO2 and

H2O. Moreover, GDP treatment completely degraded patulin in apple juice, the degradation rate was considerably affected (p<0.05)

and reached 96.63% for 5 min of the treatment. Based on single factor and orthogonal array design experiments, the influence degree

of various factors followed the descending orders of voltage>treatment time>initial concentration. The optimal conditions were

voltage at 550 V, treatment time for 3 minutes, initial concentration of toxin at 7 mg·L-1. Quality evaluation of apple juice indicated

that GDP treatment within 10 minutes did not affect the content of total soluble solid and the total acid, pH, viscosity, conductivity,

turbidity and browning degree of the juice. The content of flavonoids and flavonols increased with the increasing of treatment time,

the total phenol content had noticeably enhanced. It is suggested that GDP could rapidly and effectively degrade T-2 toxin and patulin

in aqueous solution. GDP treatment has almost no remarkable effects on quality of apple juice.

Biography

Lumei Pu has completed her PhD in Chemistry department at Northwest Normal University of China. She works at College of Science of Gansu Agricultural

University, China. She teaches Chemistry and is engaged in the research of Natural Product Chemistry. She has published more than 20 papers in reputed journals.

pulm@gsau.edu.cn

Lumei Pu et al., Clin Microbiol 2017, 6:1(Suppl)

http://dx.doi.org/10.4172/2327-5073.C1.027