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.com

Volume 5, Issue 2 (Suppl)

J Fisheries Livest Prod

ISSN: 2332-2608 JFLP, an open access journal

Aquaculture Summit 2017

May 25-26, 2017

May 25-26, 2017 Osaka, Japan

6

th

Global Summit on

Aquaculture and Fisheries 2017

The isolated and combined influences of ammonia and nitrite on phenoloxidase system of white shrimp

(

Litopenaeus vannamei

)

Cheng-Hao Tang

National Sun-Yat Sen University, Taiwan

A

quatic animals would naturally or anthropogenically face environmental stress leading to many physiological disturbances,

including interference in immune response. The shrimp

Litopenaeus vannamei

is an economically important species worldwide.

Intensive farming with recirculating system is the common aquaculture practices nowadays that easily result in elevation of the levels

of nitrogenous wastes, especially ammonia and nitrite. Since diseases outbreak would cause serious economic loss in aquaculture

industry, the immunity of aquaculture species is the main research sector. This study aimed to investigate the potential threat of isolated

and combined exposure to ammonia and nitrite to innate immunity of white shrimp through study on transcriptional and enzymatic

responses of phenoloxidase (PO) system in hemocytes. The results revealed that not only the expression levels of prop-activating system

related genes,

proPO1, proPO2

, proPO activating enzyme 1 (PPAE1), PPAE2, prophenoloxidase-activating factor (PPAF) and serine

proteinase (SP) in hemolytic but also PO activity in plasma and hemocytes were significantly decreased in white shrimp exposed to

isolated and combined stress of ammonia and nitrite. These findings suggested that rising waterborne ammonia and nitrite individually

or simultaneously may cause disruption of the molecular and enzymatic responses of PO system. However, combined treatment was

presumed to cause greater hemocytes injury which resulted in reduction of total hemocyte count since heamolymph ammonia and

nitrite levels raised concurrently. Accordingly, elevated ambient nitrogenous wastes influenced the PO system which may make white

shrimp more susceptible to pathogen infection. This study provided useful information for further field monitoring studies and may be

helpful in identifying the impact of these stressors before severely harmful effects occur.

Biography

He is an Associate Professor for National Sun Yat Sun University. As an Associate Professor, he is a recipient of many awards and grants for his valuable

contributions and discoveries in major area of research. His research interests, as an Associate Professor lie in Aquaculture Physiology, especially Molecular Stress

Responses he is credited with many publications in national and international journals. He is committed to highest standards of excellence and it proves through

his authorship of many books.

wtang@mail.nsysu.edu.tw

Cheng-Hao Tang, J Fisheries Livest Prod 2017, 5:2 (Suppl)

http://dx.doi.org/10.4172/2332-2608-C1-008