Growth performance of Nile tilapia Oreochromis niloticus (Linn.) in relation to provision of substrate and supplementary feeding and grown in brackishwater ponds

Kumar A., . and Bhatnagar A., . and Garg S. K., . and Jana S. N., . Growth performance of Nile tilapia Oreochromis niloticus (Linn.) in relation to provision of substrate and supplementary feeding and grown in brackishwater ponds. pp. 1211-1233. ISSN 0116-6514

The present study attempts to assess the effects of periphyton and supplementary feeding with commercial pelleted feeds on the growth performance of juvenile Nile tilapia Oreochromis niloticus (mean body weight 1.49g) grown in inland brackish groundwater ponds for 90 days. Three treatments (with bamboo substrate grown with periphyton; with supplementary feeding without bamboo substrate; control “ neither bamboo substrate nor supplementary feeding) were tested in duplicate in brackish water ponds. Irrespective of the treatments all ponds were fertilized with cowdung at 7500 kgha-yr-. Increase in the growth of fish reared in ponds provided with substrate was significant (P0.05) about 31 and 56 higher than those in supplementary feeding and control ponds respectively. Length-weight relationship (WcLn) also showed higher exponential value (n) of length in substrate ponds (n3.1) compared to other treatment ponds. Among the water quality parameters tested the calcium content turbidity NH4-N NO‚‚-N net primary productivity phytoplankton chlorophyll a and epilithic periphyton density were significantly (P0.05) lower in substrate ponds compared to other treatment ponds; no significant differences in other water quality parameters were observed among all the treatment ponds. Significantly (P0.05) higher values of periphyton biomass were observed at a depth of 50 cm while autotrophic index remained lower at this depth in substrate ponds. Sediment chemistry indicated significantly (P0.05) higher values for alkalinity NO3-N organic matter and benthos in supplementary feeding ponds compared to other treatment ponds Fish grown in ponds provided with additional substrate had significantly (P0.05) higher values of digestive enzyme activity (protease amylase and cellulolytic). High accumulation of muscle protein muscle glycogen and higher values of viscero-somatic index and hepato-somatic index were also observed in fish grown in substrate ponds as compared to others. Results of the present study clearly suggest that provision of bamboo substrate colonized with periphyton could significantly enhance the growth and yield of Nile tilapia grown in brackish groundwater ponds. The presence of periphyton in culture ponds is thus useful to enhance growth of fish low in the food web such as the tilapia species.

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Abstract

The present study attempts to assess the effects of periphyton and supplementary feeding with commercial pelleted feeds on the growth performance of juvenile Nile tilapia Oreochromis niloticus (mean body weight 1.49g) grown in inland brackish groundwater ponds for 90 days. Three treatments (with bamboo substrate grown with periphyton; with supplementary feeding without bamboo substrate; control “ neither bamboo substrate nor supplementary feeding) were tested in duplicate in brackish water ponds. Irrespective of the treatments all ponds were fertilized with cowdung at 7500 kgha-yr-. Increase in the growth of fish reared in ponds provided with substrate was significant (P0.05) about 31 and 56 higher than those in supplementary feeding and control ponds respectively. Length-weight relationship (WcLn) also showed higher exponential value (n) of length in substrate ponds (n3.1) compared to other treatment ponds. Among the water quality parameters tested the calcium content turbidity NH4-N NO‚‚-N net primary productivity phytoplankton chlorophyll a and epilithic periphyton density were significantly (P0.05) lower in substrate ponds compared to other treatment ponds; no significant differences in other water quality parameters were observed among all the treatment ponds. Significantly (P0.05) higher values of periphyton biomass were observed at a depth of 50 cm while autotrophic index remained lower at this depth in substrate ponds. Sediment chemistry indicated significantly (P0.05) higher values for alkalinity NO3-N organic matter and benthos in supplementary feeding ponds compared to other treatment ponds Fish grown in ponds provided with additional substrate had significantly (P0.05) higher values of digestive enzyme activity (protease amylase and cellulolytic). High accumulation of muscle protein muscle glycogen and higher values of viscero-somatic index and hepato-somatic index were also observed in fish grown in substrate ponds as compared to others. Results of the present study clearly suggest that provision of bamboo substrate colonized with periphyton could significantly enhance the growth and yield of Nile tilapia grown in brackish groundwater ponds. The presence of periphyton in culture ponds is thus useful to enhance growth of fish low in the food web such as the tilapia species.

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Item Type:	Article
AGROVOC Term:	Oreochromis
AGROVOC Term:	Oreochromis niloticus
AGROVOC Term:	Fishes
AGROVOC Term:	Aquatic animals
AGROVOC Term:	Aquatic organisms
AGROVOC Term:	Aquatic plants
AGROVOC Term:	Bamboos
AGROVOC Term:	Benthos
AGROVOC Term:	Body weight
AGROVOC Term:	Calcium
Depositing User:	Mr. AFANDI ABDUL MALEK
Last Modified:	24 Apr 2025 00:53
URI:	http://webagris.upm.edu.my/id/eprint/7834

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