. Discussion In the recent years, t

. Discussion In the recent years, the herbal immunostimulants have emerged as an effective alternative strategy in lieu of antibiotics and chemotherapies in fish disease management (Harikrishnan et al., 2009, 2010a,b, 2011a,b). In fish administration of a number of herbal immunostimulants through

oral (feed) or injection have demonstrated their potential to improve growth performance, disease resistance and the immune system (Alishahi and Abdy, 2013; Arulvasu et al., 2013; Chelladurai et al., 2014; El-Sayed et al., 2014; Harikrishnan et al., 2012a,b,c; Mahdavi et al., 2013; Mahmoud et al., 2014; Nahak and Sahu, 2014; Pakravan et al., 2011). The mangrove trees are widely distributed in coastal area in tropical and temperate zones, but there is little or no report on the effect of mangrove species on immune system of fish. Therefore, the present study investigated for the first time the effect of dietary administration of R. apiculata extract in A. sebae against V. alginolyticus. The present study has demonstrated that feeding infected A. sebae at 1%, 5%, and 10% with R. apiculata extract enriched diets result in a slightly lower SGR when compared to control; however the FCR increased slightly during the course of the experiment. The results agree with previous studies in the infected grouper. Olive flounder and Parrot fish which had a significantly enhanced the SGR and FCR after herbal treatment (Harikrishnan et al., 2012a,b,c; Kim et al., 2012). In several fish species herbal supplementation diets enhance the immunity and afford protection against infectious diseases (Harikrishnan et al., 2010a, b, 2012a,b). In this study, the lysozyme activity significantly increased with 5% or 10% R. apiculata containing diets on weeks 3 and 4. Similar results were observed in goldfish and olive flounder after treatment with a mixed herbal extract against Aeromonas hydrophila and Philasterides dicentrarchi (Harikrishnan et al., 2009, 2010b). The exact mechanism of how the herbal extracts enhance the growth performance and immunity in A. sebae is yet to be elucidated. The reasons for this could possibly be due to the role of R. apiculata extract as an immunostimulant.
A number of previous reports on the effect of herbal extracts in fish have demonstrated their potential to improve the growth performance and stimulate immune response (phagocytic, lysozyme, alternative complement activities, superoxide anion production) and disease resistance (Alishahi and Abdy, 2013; Arulvasu et al., 2013; Chelladurai et al., 2014; El-Sayed et al., 2014; Mahdavi et al., 2013; Mahmoud et al., 2014; Nahak and Sahu, 2014; Pakravan et al., 2011). In this study, significant phagocytosis and respiratory burst activities were observed in infected A. sebae after being fed with 5% or 10% extract containing diets on weeks 3 and 4. The complement activity significantly increased in infected A. sebae fed with 5% or 10% R. apiculata supplementation diets. Similar findings on the enhanced complement activity stimulation have been reported in several fish against pathogens (Harikrishnan et al., 2012b; Heuer et al., 2009). Furthermore, the dose dependent response of the host is one of the primary factors that decide the immunostimulatory response (Harikrishnan et al., 2012b; Heuer et al., 2009). The present results reveal that the R. apiculata extract containing diets significantly improved the growth performance and stimulated certain immune parameters in comparison with the control. The enhancement of phagocytosis observed in the present study may be due to the influence of herbal extract. The O2 − is the first product released during the respiratory burst, O2 − concentration has been accepted as an accurate parameter to quantify the intensity of a respiratory burst (Jeney and Anderson, 1993). The total number of NBT-positive cells in blood kept rising in rainbow trout after treatment with immunostimulant (Adams and Hamilton, 1984). These cells might be the neutrophils that still retain the capacity for production of oxidative radicals. In this study, the challenged fish fed with any supplementation diet increased the serum bactericidal activity. Such increased bactericidal properties could have resulted in reduced percentage of mortality during 30 days on being fed with 5% and 10% diets. In addition, the anti-protease activity also significantly was enhanced in 5% and 10% diet fed groups from week 3 while it manifested in all enriched diet on week 4. The superoxide anion production also was significantly enhanced in all diet groups on weeks 3 and 4 against pathogen. When fed with 5% and 10% supplementation diets the survival rate was higher (85% and 80%) and consequently resulted in a lower cumulative mortality (15% and 20%). Numerous studies indicate similar trends in many fishes fed with herbal immunostimulants against pathogens (Harikrishnan et al., 2012b; Heuer et al., 2009). In the present work, fish fed with any enriched diet registered significantly improved SGR, FCR, lysozyme, phagocytosis, respiratory burst, complement activities, and survival rate after week 3. However, such improvements did not manifest with any diet during the weeks 1 and 2. This study indicates that at the chosen doses the positive effects of the herb was not
marked. Furthermore, the precise mechanism of how R. apiculata extracts stimulate growth and non-specific immunity and increase the survival rate of A. sebae is not clearly understood and further research on this aspect is needed in other fishes against the pathogen.