 |
 |
 |
 |
 |
 |
Sains Malaysiana 48(5)(2019):
991–998 http://dx.doi.org/10.17576/jsm-2019-4805-07
Effect of Diet Containing Palm Kernel
Cake and Coconut Meal Cake on Growth Performance and Carcass Quality
of Free-Range Chicken in Malaysia (Kesan daripada Diet yang Mengandungi Isirung Kernal Sawit dan Isirung
Kelapa pada
Prestasi Pertumbuhan dan Kualiti Sembelihan
Ayam Lepas
Bebas di Malaysia) M. MOHD
SHAHMI
HAKIMI1,2,
Z.
ALIAS3*,
M.M.
RAHMAN4,
W.E.
WAN
KHADIJAH3,5
& R.B. ABDULLAH3,5 1Animal Biotechnology-Embryo
Laboratory (ABEL), Institute of Biological Sciences, University
of Malaya, 50603 Kuala Lumpur Federal Territory, Malaysia 2Glami Lemi Biotechnology Research Centre University of Malaya, 71650
Jelebu, Negeri
Sembilan Darul Khusus, Malaysia 3UM Halal Research
Centre (UMHRS), Academy of Islamic Studies, University of Malaya,
50603 Kuala Lumpur Federal Territory, Malaysia 4Faculty
of Agro Based Industry, Universiti Malaysia
Kelantan (Jeli Campus), 17600 Jeli,
Kelantan Darul Naim,
Malaysia 5Faculty
of Bioresources and Food Industry, University
Sultan Zainal Abidin, Besut
Campus, 22200 Besut, Terengganu Darul
Iman, Malaysia Diserahkan: 3 Julai 2018/Diterima: 25 Februari 2019 ABSTRACT Significant increase in feed
cost has forced many farmers to identify new alternative sources
for free-range chicken diet by using local ingredients to replace
imported feeds. This study aim was to evaluate the effect of age
and diet containing palm kernel cake (PKC)
and coconut meal cake (CMC) on feed intake, growth and carcass
quality of free-range chickens in Malaysia. Two hundred crossbred
free-range chickens were reared from day old to 12 Weeks of age.
At 3 Weeks of age, chickens were divided into 2 dietary treatment
groups: Commercial finisher diet (CFD) and formulated finisher diet (FFD)
containing CMC and PKC, whereby the body weight and
feed intake were measured weekly until the end of the study. The
chickens were slaughtered at 9 and 12 Weeks of age. Most data
showed no significant difference on growth performance between
diets. Male CFD showed
higher growth rate than the male FFD diet, while no significant
difference was observed on growth rate of female chicken for both
diets. Despite that, FFD fed chickens showed no significant different between
CFD
chickens in term of meat to bone ratio at 12th Week
of age, indicating that FFD
could result in production meat as good as CFD chickens and produce low undesirable
products. In conclusion, CMC and PKC have
the potential to be used in FFD as an alternative to CFD
for free range chickens. Keywords: Age; crossbred free-range
chickens; finisher diet; growth performance; local feed sources ABSTRAK Kenaikan kos makanan yang ketara telah memaksa
ramai petani
mengenal pasti sumber alternatif baru, contohnya, menggunakan ramuan tempatan untuk menggantikan makanan yang diimport. Tujuan kajian ini adalah
untuk menilai
kesan umur dan
diet yang mengandungi isirung
kernel sawit (PKC) dan
isirung kelapa
(CMC)
terhadap pengambilan
makanan, pertumbuhan dan kualiti karkas
ayam kampung
di Malaysia. Dua ratus (200) ayam kampung kacukan
diternak dari
sehari hingga 12 minggu. Pada umur
3 minggu, ayam
dibahagikan kepada 2 kumpulan rawatan diet: diet akhir komersial (CFD)
dan diet formulasi akhir (FFD) yang mengandungi
CMC
dan PKC dengan berat badan
dan suapan
makanan diukur setiap minggu sehingga
akhir kajian.
Ayam disembelih pada umur 9 dan
12 minggu. Data menunjukkan
tiada perbezaan
yang signifikan terhadap prestasi pertumbuhan antara diet. Ayam jantan yang diberi makan CFD menunjukkan
kadar pertumbuhan
yang lebih tinggi daripada
diet FFD ayam jantan,
sementara tiada
perbezaan yang signifikan diperhatikan pada kadar pertumbuhan ayam betina bagi
kedua-dua diet. Walaupun
begitu, FFD yang diberi
kepada ayam
menunjukkan tiada perbezaan yang signifikan antara ayam CFD daripada segi nisbah
daging hingga
tulang pada minggu
ke-12, menunjukkan bahawa
FFD
boleh menghasilkan pengeluaran daging yang baik seperti ayam
CFD
dan menghasilkan
produk yang tidak
diingini yang rendah. Sebagai kesimpulan, CMC
dan PKC mempunyai
potensi untuk
digunakan dalam FFD sebagai alternatif kepada CFD untuk ayam kampung. Kata kunci: Ayam
kampung kacukan;
diet akhir; prestasi pertumbuhan; sumber makan tempatan; umur RUJUKAN Ahmed, E. & Azahan, E. 2011. Tracing the growth of crossbred village (kampung) chickens from hatch till maturity. Malaysian Journal
of Animal Science 14(1): 1-5. Alimon, A.R. 2004. The
nutritive value of palm kernel cake for animal feed. Palm Oil
Deveploment 40(1): 12-14. Ariff, E.E., Tapsir, S., Sarmin, S. & Abu,
K.A. 2010. Cost and return for local fowl rearing. Economic
and Technology Management Review 5: 41-49. Dzulfazly, A., Dahlan, I., Noraini, S., Azlan, M. & Rosnizah, I. 2016.
Dried coconut flesh as potential feedstuff for ruminants. 37th
MSAP Annual Conference. pp. 106-107. Department of Statistic
Malaysia. 2016. Supply and utilization accounts selected agricultural
commodities Malaysia 2011-2015. The Office of Chief Statistician
Malaysia. http://www.dosm.gov.my/v1/index.php?r=column/ cthemeByCat&cat=164&bul_id=L1FGWlV1SWx5VWIy
ZUpCWjB4NzU1UT09&menu_id=Z0VTZGU1UHBUT1 VJMFlpaXRRR0xpdz09#.
Department of Veterinary
Service Malaysia. 2017. Semenanjung
Malaysia Populasi Ternakan
Perangkaan Ternakan 2017/2018. http://www.dvs.gov.my/index.php/
pages/view/2234. Engku Azahan, E.A., Azlina Azma, I.A. & Noraziah, M. 2011.
Growth response of crossbred village (kampung)
chickens to starter diets of differing energy contents. Malaysian
Society of Animal Production 14: 51-55. Fouad, A.M. &
El-Senousey, H.K. 2014. Nutritional
factors affecting abdominal fat deposition in poultry: A review.
Asian-Australasian Journal of Animal Sciences 27(7): 1057-1068.
International Poultry
Council. 2011. Chicken meat per capita consumption for top chicken
producing countries. http://www. internationalpoultrycouncil.com/the-world
poultryindustry/ statistics/chart/chicken/pe r-capita-consumption-of-poultry-meat. Accessed on 3 March
2017. Kingori, A.M., Tuitoek, J.K., Muiruri, H.K. &
Wachira, A.M. 2003. Protein requirements
of growing indigenous chickens during the 14-21 weeks growing
period. South African Journal of Animal Science 33: 78-82.
Khawaja, T., Khan,
S.H. & Ansari, N.N. 2007. Effect of different levels of blood
meal on broiler performance during two phases of growth. International
Journal of Poultry Science 6(12): 860-865. Liu, S.K., Niu, Z.Y., Min, Y.N., Wang, Z.P., Zhang, J., He, L. &
Liu, F.Z. 2015. Effects of dietary crude protein on the growth
performance, carcass characteristics and serum biochemical indexes
of Lueyang black-boned chickens from
seven to twelve weeks of age. Revista
Brasileira de Ciência
Avícola 17(1): 103-108. Liang, J.B., Fierkens, B., Roch, J.J. & Engku
Azahan, E.A. 1995. Efficiency of metabolisable energy utilisation
by commercial broilers and indigenous chickens in Malaysia. MARDI
Research Journal 23: 59-62. Mbajiorgu, C.A., Ng’ambi, J.W. & Norris, D. 2011. Effect of varying dietary
energy to protein ratio level on growth and productivity of indigenous
Venda chickens. Asian Journal Animal Veterinar
Advances 6(4): 344-352. Mupeta, B., Wood, J., Mandonga, F. & Mhlanga, J. 2000. A comparison of the performance
of free-range chickens, under improved feed management, with the
performance of hybrid chickens in tropical Zimbabwe. In Sustaining
Livestock in Challenging Dry Season Environments: Strategies for
Smallscale Livestock Farmers, Smith,
T. & Godfrey, S.H. (Eds.). Proceedings of the third workshop
on livestock production programme projects.
pp. 26-28. NRC. 1994. Nutrient
Requirements of Poultry. 9th Revised Edition. Washington DC,
USA: National Academy Press. pp. 19-34. Oh, B.T. 1987. Malaysia:
Economic importance. In Newcastle Disease in Poultry: A New
Food Pellet Vaccine, Copland, J.W. (Ed.). Canberra: Australian
Centre for International Agricultural Research. pp. 83-85. Qiao, M., Fletcher, D.L.,
Smith, D.P. & Northcutt, J.K. 2001. The effect of broiler
breast meat color on pH, moisture, water-holding capacity, and
emulsification capacity. Poultry Science 80: 676-680. Ramlah, A.H. 1996. Performance
of village fowl in Malaysia. World’s Poultry Science Journal
52(1): 75-79. Saenphoom, P., Liang, J.B.,
Ho, Y.W., Loh, T.C. & Rosfarizan,
M. 2013. Effects of enzyme treated palm kernel expeller on metabolizable
energy, growth performance, villus height and digesta
viscosity in broiler chickens. Asian-Australasian Journal Animal
Science 26(4): 537-544. Saonoah, M.N. 2006. Panduan
Penternakan Ayam
Kampung. Putrajaya: Ibu Pejabat Jabatan Veterinar. Sharmila, A., Alimon,
A.R., Azhar, K., Noor, H.M. & Samsudin,
A.A. 2014. Improving nutritional values of palm kernel cake (PKC)
as poultry feeds: A review. Malaysian Journal of Animal Science
17(1): 1-18. Supramaniam, P. 1987. Malaysia: Poultry production.
In Newcastle Disease in Poultry: A New Food Pellet Vaccine,
Copland, J.W. (Ed.). Canberra: Australian Centre for International
Agricultural Research. pp. 81-82. Tadelle, D., Kijora,
C. & Peters, K.J. 2003. Indigenous chicken ecotypes in Ethiopia:
Growth and feed utilization potentials. International Journal
of Poultry Science 2: 144-152. Yulvianti, M., Ernayati,
W. & Tarsono, T. 2015. Pemanfaatan
ampas kelapa
sebagai bahan baku
tepung kelapa
tinggi serat dengan
metode freeze drying. Jurnal
Integrasi Proses 5(2): 101-107.
*Pengarang untuk surat-menyurat; email: alias@um.edu.my
|
|||
|
