Iris Publishers - World Journal of Agriculture and Soil Science (WJASS)

Growth Response of Heterobranchus Longifilis Fingerlings Fed Diets Supplemented with Moringa Oleifera Leaf Meal as Replacement of Soybean Meal

Authored by Ibiyo Lenient MO

Aquaculture is the fastest growing sector of the world‘s animal production with an annual increase of about 10% [1]. To sustain such high rates of increase in production, a matching increase in fish feed production is imperative. Because fish meal is a limited primary source and plants are widely available and reasonably priced, the use of plant protein sources in aqua feeds should be considered [2]. Therefore, in order to attain more economically sustainable, environmentally friendly and viable production, research interest has been directed towards the evaluation and use of non-conventional sources of plant and animal protein. Soybean meal is one of the most nutritious of all plant protein sources because of its high protein content, high digestibility, and relatively well-balanced ami no acid profile [3]. Owing to its reasonable price and steady supply, soybean meal is widely used as a cost-effective feed ingredient for most aquaculture species [4]. It is currently the most commonly used plant protein source in fish feeds [5]. However, soybean meal use in animal feeds competes with human food use, and hence there is a need to identify other protein-rich plant resources that could be used in fish diets. Another potential alternative plant protein source for fish feeds is moringa (Moringa oleifera). This plant is receiving much attention because its leaves, flowers and seeds can all be used as food [6]. Moringa leaf contains crude protein (CP) with about 260g/kg of leaf, of which about 87% is true protein [7]. Essential amino acids found in moringa leaf are methionine, cyste-ine, typtophan and lysine [6]. Analyses of the leaf composition have revealed them to have significant quantities of vitamins A, B and C, calcium, iron and protein. According to Optima of Africa, Ltd., a group that has been working with the tree in Tanzania, “25 grams daily of Moringa Leaf Powder (MLP) will give a child” the following recommended daily allowances: Protein 42%, Calcium 125%, Magnesium 61%, Potassium 41%, Iron 71%, Vitamin A 272%, and Vitamin C 22%. A comparison between the amino acid composition of raw moringa leaf and that of soybean revealed an almost identical pattern of the essential amino acids [8]. There is an abundant total amount of these essential amino acids plenty in the leaf that can be used as animal feed [9]. The objective of this present experiment was to investigate the effect of different levels of dietary moringa leaf meal as a partial replacement of full fat soybean meal in the diet of Heterobranchus longifilis, (giant African catfish) fingerlings on the growth performance, nutrient digestibility, hematology and liver histopathology.

Materials and Methods

Preparation of Moringa olifera leaf meal (MLM)

The M. oleifera leaves used in the diets was harvested whole in NIFFR Estate, New Bussa, Niger State and air dried under the shade. The whole leaves harvested were allowed to wilt under the shade overnight after which mere shaking it help the leaflets to drop out of the stalk before final drying. This was to avoid the stalk of the leaves mixing up with the leaflets needed and reduce fibre contribution from the MLM into the diets. The leaflets were milled to powder after they have properly dried which was used for the preparation of the experimental diets (Plate 1).

Experimentation

Three Hundred Heterobranchus longifilis fingerlings were acquired and acclimatized for three weeks before selection and subjection to the experiment. Completely randomized design with three replicate groups was used to study the response of 150 Heterobranchus longifilis fingerlings to diets supplemented with graded levels (0, 5, 10, 15 or 20)% of Moringa leaf meal (MLM) to replace soybean meal in a soybean and fish meal based diet together with other ingredients (Table 1). The 42 days study was carried out in an aerated aquaria using indoor at the fish nutrition laboratory in NIFFR feed mill complex. Diet 1 with a zero supplementation served as control. Chemical analysis such as phytochemicals in leaf considering tannin and phytic acid determination, proximate composition (AOAC, 2000), hematology, histopathology of feed and fish samples were carried out. Digestibility was also assessed. Fish were fed at 5% body weight at commencement of the study in the first 2 weeks but was reduced to 3% body weight when much leftover feeds were observed which could be due to Heterobranchus feed consumption nature which is poor. The daily rations were divided into two installments, supplied morning (8.00 - 9.00 am) and evening (6.00 – 7.00 pm). Siphoning of the bottom of the aquaria was carried out each morning and addition of freshwater to maintain water level before feeding the fish. Fortnight sampling was adopted for feed adjustments, fish observation and total cleaning of the aquaria. Water quality was monitored in the course of the study using easy test kit. Feed cost was calculated based on the prevailing market prices of the ingredients at the period of experimentation. Statistical analysis was carried out on the data obtained at the end of the study.

Discussions

The results of this study indicated that M. olifera leaves possess the potential to partially replace soybean meal in any soybean and fishmeal base diet for giant African catfish (H. longifilis) without adversely affecting growth performance, digestibility and pathology of the fish. This is in agreement with earlier studies on Oreochromis niloticus by Richter et al. [12] and Abo-State et al. [13] who used MLM to replace fishmeal in the diets of the fish and found out that MLM could replace fishmeal up to 10% and 8% respectively in tilapia. Moringa leaf meal (MLM) could be used to reduce pressure on soybean meal. Hardy 2010 noted that soybean is currently the most commonly used plant protein sources in fish feed and there is competition with human use. Using MLM to reduce pressure on soybean will be possible because comparison between the amino acids of MLM and soybean revealed an almost identical pattern of all the essential amino acids [8]. The observation of reduced growth performance, digestibility and poorer FCR at higher inclusion level in this present study is an indication that there is a limit to the extent which MLM could be included in the diet of giant African catfish to avoid negativity in performance. This is similar to what was earlier reported on O. niloticus [12,13]. The poor performance at higher levels might not be unconnected to the antinutritional factors present in the raw moringa leaf. Although the MLM used in this study was air dried before use, the phytochemical analysis revealed that the phytic acids and tannin were still present in the diets though at low levels. The poor performance observed in the groups that fed on diets with higher inclusion levels of MLM might be related to the likely interaction of the antinutritional factors with utilization of other nutrients in the feeds [6]. The poor Hb and PCV levels obtained in the groups that fed on the highest MLM supplementation level might have been due to interactive effect of phytochemicals against the fish natural body functional ability to neutralize or suppress the deleteriousness of certain ingested chemicals. The appreciable digestibility of protein obtain in this study might be due to the drying process the leaf undergo before its use, the equal fishmeal levels and palm oil as a source of lipids in the diets with the fact that it is plant protein portion that was replaced. Palm oil has a natural tendency to neutralize the efficacy of poisonous substances like the one that could result from the antinutritional factors such as the tannins and phytic substances in the MLM. It had also been noted that antinutrients such as tannins and saponins inflicts bitterness in feeds and could results in poor consumption [2] due to reaction of the chemosensory receptors [14]. That might happen at high levels of inclusion which could result to high concentration of those antinutrients and subsequent effective bitterness since the intake in this study did not exhibit such criteria as there was no significant difference in feed intake. Although increased level resulted into poor feed conversion ratio which might not be unconnected to the carnivorous-ominivorous nature of the giant African catfish and tannins interaction with utilization of nutrients in feeds. The effective cost reduction also observed in the formulations with MLM is an indication that it could be used to replace some soybean in the diets of giant African catfish at the optimum level of 5-10% replacement.

In conclusion, MLM could be used to partially replace up to 5 - 10% of the full fat soybean meal in the diet of giant African catfish, Heterobranchus longifilis fingerlings without reduction in the growth performance of the fish. The MLM use will also lead to reduction in cost of fish feed. Using the best performing supplementation level (5%) will result to a cost reduction of 11.5% per cost of 100Kg feed base on the formulations used in this study while the 10% optimum level of supplementation will result to feed cost reduction of 23.2% per cost of 100Kg feed [15]. The cost to benefit ratio obtained in the study encourages the use of 5% level of replacement. There is need to subject moringa leaves to other processing methods for another trial to see if there could be improvement from what was obtained in this present study. There is need to evaluate the response of Clarias species to moringa leaf inclusion in the diet

 

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