PERFORMANCE OF RED SOKOTO GOATS FED INCLUSION LEVELS OF MIXED GMELINA (Gmelina arborea) AND MORINGA (Moringa oleifera) LEAF MEAL in Digitaria smutsii HAY BASED DIETS
Table Of Contents
- Title page — – – – – – – – – – – i Declaration — – – – – – – – – – -iiApproval page — – – – – – – – – – -iiiDedication — – – – – – – – – – -ivAcknowledgement — – – – – – – – – -v Table of content — – – – – – – – – -vi Abstract — – – – – – – – – – – -vii
Thesis Abstract
Abstract
This study aimed to evaluate the performance of Red Sokoto goats fed inclusion levels of mixed Gmelina (Gmelina arborea) and Moringa (Moringa oleifera) leaf meal in Digitaria smutsii hay-based diets. A total of 24 Red Sokoto goats were randomly allocated to four dietary treatments in a completely randomized design. The dietary treatments consisted of T1 (0% leaf meal), T2 (5% leaf meal), T3 (10% leaf meal), and T4 (15% leaf meal) levels of mixed Gmelina and Moringa leaf meal inclusion in Digitaria smutsii hay-based diets. The goats were fed the respective diets for 84 days. The results showed that dry matter intake, average daily weight gain, and feed conversion ratio were significantly influenced by the dietary treatments (p < 0.05). Goats fed T4 (15% leaf meal) had the highest dry matter intake, average daily weight gain, and the best feed conversion ratio compared to other treatments. The inclusion of mixed Gmelina and Moringa leaf meal positively impacted the growth performance of Red Sokoto goats. Furthermore, blood parameters such as hemoglobin, packed cell volume, total protein, albumin, and globulin were not significantly different among the dietary treatments (p > 0.05). However, there was a numerical increase in these blood parameters as the level of leaf meal inclusion increased in the diets. In conclusion, the inclusion of mixed Gmelina and Moringa leaf meal in Digitaria smutsii hay-based diets positively influenced the growth performance of Red Sokoto goats. Goats fed diets with 15% leaf meal inclusion showed improved dry matter intake, average daily weight gain, and feed conversion ratio. Blood parameters were not significantly affected by the dietary treatments, indicating that the leaf meal inclusion levels did not have adverse effects on the health status of the goats. Therefore, incorporating mixed Gmelina and Moringa leaf meal in goat diets can be a viable strategy to enhance their growth performance and overall productivity.
Thesis Overview
<p>.0 INTRODUCTION<br>1.1 Background of the Study<br><br>Ruminant livestock have a unique digestive system that allows them to use energy from fibrous plants materials better than other herbivores. Their digestive system is designed to ferment feedstuffs and provide precursors for energy for the animal to use (Parish et al., 2009). Forages play an important role in ruminant animal nutrition. Ruminants are able to ruminate or regurgitate ingested high forage diets to reduce particle size for improving their digestibility (Ranjbar, 2007; Parish et al., 2009). However, inadequate supply of all year round quality forage is a major constraint to livestock production in the tropics (Ajayi et al., 2005; Ogunbosoye and Babayemi, 2010a). Most available ruminant feeds/feedstuffs during<br>the dry season are poor in nutrients which deteriorate rapidly with increasing fibre and decreasing protein (Babayemi, 2007).<br><br>Sources of cheaper alternative forages of high quality for ruminants have been a subject of research in recent years (Alan et al., 2013) especially for farmers in the tropics. Browse plants have great potential as source of high quality nutrient for ruminants, being high in protein, minerals and Vitamins (Babayemi et al., 2003). They are available all year round<br>because of their drought resistance, persistence, vigorous growth, re-growth and palatability (Reynolds and Atta-Krah, 2006). The use of browse plants as supplement have been shown to enhance intake, improve growth rate and increase reproduction in ruminants (Osakwe and Udeogu, 2007; Lamidi et al., 2009; Okafor et al., 2012). However, most of these forage trees have not been widely used because they often contain anti-nutritional compounds that have deleterious effects on animal performance (Ghosh et al., 2007).<br><br>Moringa oleifera Lamarck which originated from India is widely distributed and has become naturalized in many locations in the tropics (Fahey, 2005). It is a non-leguminous multipurpose tree and one of the fastest growing trees of the world. Moringa is one of the promising plants which could contribute to increased intake of some essential nutrients and<br>health-promoting phytochemicals (Alikwe and Omotosho, 2013; Nweze and Nwafor (2014). It has a high crude protein content ranging from 20-26% CP in leaves (Kakengi et al., 2005; Ben Salem et al., 2004; Asaolu et al., 2011) with negligible contents of anti- nutrients (Makkar and Becker, 1996). Moringa has been reported for its unique nutrient profile (Ofoh et al., 2011). Moringa can grow up to 12m in height at maturity, with a yield<br>up to 120 t/ha/yr when it is densely planted for use as forage crop (Makkar and Becker, 1996).<br><br><br>Gmelina arborea Roxb. (Family verbenanceae) is a fast growing deciduous tree that can grow up to 40 m tall and 140 cm in diameter (Jensen, 1995). Even though Gmelina arborea can shed some of its leaves when the dry season is approaching, the regrowth of new leaves could serve as animal feed during this period. The leaves are high in nutrient. Previous records (Okafor et al., 2012; Osakwe and Udeogu, 2007; Ahamefule et al., 2006) have shown that the leaves contain as much as 10.01-38.4% crude protein and 3.10-30.46 % crude fibre with low level of anti nutritional compounds<br></p>