Abstract
The purpose of this study is to investigate the effect of hydrolysed cassava peel inclusion as a replacement for maize in broiler chicken feedstuff on the histology of the internal organs of broiler chickens. Thirty six, two weeks old unsexed broiler chickens were used for the study in a feeding trial of forty two days. The chickens were randomly allocated to six dietary treatments A - F using a completely randomized design. Each treatment group contained two replicates of three broiler chickens. Group A chickens (A1 and A2) were fed with the control diet (0% hydrolyzed cassava peel as main carbon source). Groups B-E (in replicates 1 and 2) were administered with experimental diets containing 25%, 50%, 75%, 100% of hydrolyzed cassava peels respectively replacing maize while group F (F1 and F2) were fed with diet containing 100% unhydrolyzed cassava peels replacing maize as the main carbon source. Feed and water were supplied ad libitum for the six weeks feeding trials period. Vaccine and drugs were administered as at when due. At the end of the third week, two replicate per group were fasted for twelve hours and slaughtered. Samples of liver, kidney and heart were collected and tissue samples were taken for histological examinations. All the chickens in group F that fed on unhydrolyzed cassava peel recorded 100% mortality within the first six days of the feeding trials while those in groups A to E recorded 0% mortality. Histology of the kidney, heart and liver showed increasing mark of coagulative necrosis, degeneration of the hepatocytes and vacuolations due to the shrinking of the hepatocellular and cardiac tissues as the cassava inclusion level increases in feed. It is concluded that birds can be fed with maize replaced with up to 50% hydrolyzed cassava peel in chicken feeds without serious deleterious effects and that the wastes have useful products in animal nutrition. Also, the replacement added economic in chicken production. The hydrolysis has led to a reduction in the potency of cyanide in the peel thereby making it a safe and possible candidate in the production of chicken feeds.
Highlights
The world shortage of cereals global inflationary trends coupled with the use of maize as raw material for ethanol production in the vulnerable bio- fuel industry around the world necessitates the development of livestock feeding systems which are independent of maize and other cereals (Moo-young et al 1987; Christopher – Berg 2006; Kayode 2009 FIDAAfrique- IFADAfrica 2010)
Little attention has been given to the evaluation of the effects of intake of residual cyanide in processed cassava peel on the histology of internal organs of broiler chickens
The result showed that cassava peel is very rich in carbohydrate content but very low in protein content as earlier reported by Tewe and Egbunike (2007). It has a very high digestible energy but low in crude fibre. It has a cyanide content of 0.74 mg/100 g of cassava peel but after hydrolysis by the culture filtrate of the Aspergillus niger AC4, cyanide content reduced to 0.08 mg/100 ml
Summary
The world shortage of cereals global inflationary trends coupled with the use of maize as raw material for ethanol production in the vulnerable bio- fuel industry around the world necessitates the development of livestock feeding systems which are independent of maize and other cereals (Moo-young et al 1987; Christopher – Berg 2006; Kayode 2009 FIDAAfrique- IFADAfrica 2010) It is for this reason that in Nigeria, recent emphasis is placed on “backward integration” a design by the federal (Larry 1993) or 70-80% (Oruwari et al 1995) of the total cost of production in Nigeria compared to 50-70% in developed countries (Thackie and Flenscher 1995).
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