In the ornamental fish industry, there is a growing concern about the higher freight cost of feed ingredients. The present study aimed to cluster the locally available ingredients based on their nutrient contents, price, and availability. A total of 15 ingredients; fish meal (FM), by-catches (BC), soybean seeds (Soy), maize (Ma), duckweed (DW), Azolla pinnata (Az), rice bran (RB), shrimp shells (SS), palmyrah fruit pulp (PFP), red seaweed (RS), wheat flour (WF), cassava flour (CF), cornflour (CoF), coconut copra waste (CCC), and groundnut cake (GNC) were selected as locally available ingredients. Principal Component Analysis (PCA) was performed by grouping the ingredients based on their nutrient contents, price, and availability using Minitab 16. In PCA, the two first components accounted for 57.50% of the total variance in the initial data. Protein, calcium, phosphorus, and price contribute positively with component 1, whereas carbohydrate content is related negatively to this component. Calcium and ash content correlated positively with component 2 and fat, gross energy, and availability were linked negatively to it. The PCA allowed the clustering the ingredients into four groups. Ingredients in Group 1, including Az, SS, RB, DW, and RS showed a positive correlation with component 2 and they contain more fiber although, they are not accessible throughout the year. Ingredients of Group 2, PFP, WF, CoF, and CF are excellent sources of starch but contained less protein content (0.94%, 11.00%, 0.00%, and 2.80% respectively). CCC, Ma, GNC, and SB pertain to group 3 correlating poorly with component 2. They are an excellent source of protein with the advantage that they are relatively affordable and easy to available than the other groups. Ingredients in group 4 incorporated BC and FB. Although they are high in protein, they are expensive and very poor in carbohydrates. Therefore, it is recommended that the ingredients in group 3 are the best choice for feed formulation with balanced nutrition at a low cost for fish feed preparation.
Due to long–term military activities carried out in Nandikadal lagoon situated at Mullaitivu, Sri Lanka, there are high possibilities to impact water and biota with heavy metals. Balanus amphitrite (Barnacles) has been found as a strong candidate for biomonitoring of trace metals. Therefore, the present study describes the impacts of trace metal pollution on water and the soft tissues of Balanus amphitrite. Water samples and barnacles were collected from two locations of the lagoon for four months during the dry and wet seasons. Quantitative analysis of trace metals (Cd, Cu, Cr, Pb and Zn) were detected in the water and tissue samples using flame atomic absorption spectrometry. Cd, Cr, Pb and Cu found in tissues of barnacles were several times higher than the International recommended level except for Zn. The concentration of Pb in tissues of barnacles showed a significant (p < 0.05) spatial variation. The Cd and Cu concentrations obtained in soft tissues showed significant (p < 0.05) seasonal variations. The concentration of Cr in water showed a significant (p < 0.05) spatial variation and other trace metals (Pb,Cd) except Zn, showed significant (p < 0.05) seasonal variations. There were significant positive correlations between water and soft tissues with respect to Cd (p=0.000 & r = 0.893) and Pb (p=0.002 & r=0.435). Zn found in samples showed negative correlation between water and soft tissues. According to this results Balanus amphitrite has an ability to accumulate trace metals several times greater than in the lagoon water. Therefore, Balanus amphitrite is a strong net–accumulator of Cd, Pb, Zn, Cu, Cr. Hence, it is a good choice to be used as a bioindicator organism to find the level impact of trace metal contamination.
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