Volume 4, Issue 2

J Fisheries Livest Prod

ISSN: 2332-2608 JFLP, an open access journal

Page 30

Notes:

Livestock Nutrition 2016

July 21-22, 2016

conferenceseries

.com

July 21-22, 2016 Brisbane, Australia

2

nd

International Conference on

Livestock Nutrition

The effect of microbial consortia from wild herbivores on goat rumen fibrolytic activity and browse

fermentation

Fon Fabian Nde

and

Msimango Nokwethemba Nqobile Philile

University of Zululand, South Africa

A

cacia

species are often recommended as a protein supplement during the long try season or winter because they are often available

and maintain their protein content throughout the year. However,

Acacia

species or browses are often limited by their high tannin

concentrations which are also detrimental to fibrolytic microbes hence decrease in digestibility especially in domesticated goats.

Therefore this study evaluated the effect of

in vitro

inocula from wild herbivores (impala, kudu and giraffe) on

in vitro

fermentation,

gas production and cellulases activities of domestic goats. Consortia were created by mixing fecal inoculum from impala, giraffe and

kuduwith that of goat (N1 (goat+impala, 1:1), N2 (goat+kudu, 1:1), N3 (goat+giraffe+kudu, 1:1:1) andN4 (goat+giraffe+kudu+impala,

1:1:1:1)). Crude protein enzyme extracts (CPZ) from fresh fecal samples were precipitated by 60% ammonium sulfate and assayed for

exocellulase, endocellulase and hemicellulase activities by incubating with crystalline cellulose, carboxymethyl cellulose and xylan at

38

o

C with optimum pH of 5.5 to 6.5 for 1, 2 and 48 hours, respectively.

In vitro

degradability was carried out by transferring 33 ml of

fecal inoculum into 67 ml salivary buffer containing 1 g of

Acacia

sieberiana

and 10% tannin (substrate 6.2% was made up to 10% by

adding 100 μL containing 3.8 mg tannic acid) before incubating for 72 hours at 38

o

C. Apparent degradability (APD), true degradability

(TD), neutral detergent fibre digestibility (NDFdeg), acid detergent fibre digestibility (ADFdeg), cellulose digestibility (CELLdeg),

hemicellulose digestibility (HEMdeg) and MY were calculated. Manipulation of goat enzyme activities with enzymes from the wild

had a positive (P<0.05) influence on goat fibre degradability. Xylanase and endocellulase activities were highest (P<0.05) in N1 while

N4 showed the highest exocellulase activity. Microbial ecosystem N3 had the highest (P<0.05) TD, NDFdeg and ADFdeg while N1

showed the highest degradability for hemicellulose and cellulose. Microbial yield also varied among the microbial ecosystems but was

highest for N2, goat and N4. It was concluded that microbial activities fromwild herbivores might have introduced newmicrobes that

were able to survive on goat ecosystem and improve its fibrolytic potential

in vitro

. These results showed that microbial ecosystem

from wild herbivores have a potential to improve browse utilization in domestic goat.

Biography

Fon Fabian Nde has completed his PhD (Ruminant Nutrition) from the University of KwaZulu-Natal (UKZN), South Africa and currently working as a Lecturer at the

University of Zululand (UZ) after serving two years as a Post doctorate Researcher at UNIZULU and UZ. He is a Member of the South African Society of Animal

Science, Golden Key International Honor Society and EAAP. His research is focused on improving forage digestion in ruminants especially with potential fibrolytic

microbes from wild herbivores.

FonF@unizulu.ac.za

Fon Fabian Nde et al., J Fisheries Livest Prod 2016, 4:2 (Suppl)

http://dx.doi.org/10.4172/2332-2608.C1.005