 |
 |
 |
 |
 |
 |
Sains Malaysiana 39(3)(2010):
395–403
Evaluation
of Fish Behaviour and Aggregation by Underwater Videography in an Artificial
Reef in Tioman Island, Malaysia
(Penilaian
Tingkah Laku dan Pengagregatan Ikan Menggunakan Videografi dalam Air Pada Tukun
Tiruan di Pulau Tioman, Malaysia)
T. Yoshida1*,
K. Akagi2, T . Toda3, M.M.R. Kushairi4, A.A.A.
Kee1 & B.H.R. Othman1
1Marine Ecosystem Research Centre,
Faculty of Science and Technology Universiti Kebangsaan Malaysia 43600 Bangi,
Selangor D. E., Malaysia
2Team Blue Earth Co. Ltd. 1-30-17,
Kakinokizaka Meguro-ku Tokyo Japan
3Laboratory of Restoration Ecology,
Department of Environmental Engineering for Symbiosis Faculty of Engineering, Soka
University Tangi-cho, Hachioji Tokyo, Japan
4Faculty of Biotechnology and Life
Sciences Universiti Industri Selangor
4000 Shah Alam, Selangor D. E,. Malaysia
Diserahkan: 8 Jun 2009 / Diterima:
18 September 2009
ABSTRACT
The
behaviour and aggregation of fish in an artificial reef area in Tioman Island,
Malaysia, was observed using underwater videography under a combination of
shooting conditions. The camera distance and direction relative to the neighboring
artificial reef module was varied, and comparisons of images with a color
filter were made. A distance of 260 cm at a diagonal shooting angle provided a
suitable observation of the reef fish around the reef module, and a red color
filter provided a truer color replication in morning observations while better
images were obtained without the color filter in afternoon light environments.
Four criteria were considered to assess the artificial reef effectiveness:
total abundance, appearance rate, residence time and feeding frequency. A total
of 824 individuals were observed during the study. Mean residence times were
shorter for schooling fishes such as Caesio caerulaurea and Liza subviridis, and
longer for solitary swimmers like Cephalopholis boenak and Scolopsis
bilineatus. Feeding frequency was lower for schooling fishes. A significant
correlation was obtained between the feeding frequency and residence time for
the high feeding frequency fishes (r = 0.89; p<0.05). The effectiveness of
the artificial reef was suggested to be significant in solitary swimmers but less
so for schooling fishes.
Keywords:
Artificial reef; fish aggregation; Tioman Island; underwater videography
ABSTRAK
Tingkah
laku dan pengumpulan ikan dalam satu kawasan tukun tiruan dalam Pulau Tioman,
Malaysia, telah cerap dengan menggunakan videografi dalam air dengan gabungan
daripada berberapa keadaan penggambaran. Jarak dan arah kamera relatif kepada
modul tukun tiruan berjiranan adalah berbeza, dan perbandingan antara imej
video diperhatikan dengan menggunakan penuras warna. Jarak 260 cm pada sudut
penggambaran diagonal memberikan pemerhatian yang sesuai untuk ikan di sekitar
modul tukun tiruan, dan penuras berwarna merah memberikan replikasi warna yang
lebih sesuai dalam pemerhatian pada waktu pagi manakala imej yang lebih baik
diperolehi tanpa menggunakan penuras warna dalam persekitaran cahaya petang.
Empat kriteria diambil kira bagi menilai keberkesanan tukun tiruan: jumlah
kelimpahan, kadar kewujudan, masa mastautin dan frekuensi memakan. Sejumlah 824
individu ikan telah dicerap dalam kajian. Min masa mastautin adalah lebih
pendek untuk ikan-ikan seperti Caesio caerulaurea dan Liza subviridis,
dan lebih panjang untuk perenang secara sendirian seperti Cephalopholis
boenak dan Scolopsis bilineatus. Frekuensi memakan adalah lebih
rendah untuk ikan kawanan. Kolerasi bererti diperolehi antara frekuensi memakan
dan masa mastautin untuk ikan-ikan berfrekuensi memakan tinggi (r = 0.89;
p<0.05). Keberkesanan tukun tiruan dicadangkan penting untuk ikan perenang
secara sendirian tetapi kurang penting untuk ikan kawanan.
Kata
kunci: Kumpulan ikan; Pulau Tioman; tukun tiruan; videografi dalam air
RUJUKAN
Baine,
M. 2001. Artificial reefs: A review of their design, application, management
and performance. Ocean & Coastal Management 44: 241–259.
Bell,
M. & Hall. J.W. 1994. Effects of hurricane hugo on South Carolina's Marine
Artificial Reefs. Bulletin of Marine Science 55(2-3): 836-847.
Bell,
M., Moore, C.J. & Murphey. S.W. 1989. Utilization of manufactured reef
structures in South Carolina's Marine Artificial Reef program. Bulletin of
Marine Science 44: 818-830.
Bortone,
S.A., Kimmel, J.J. & Bundrick. C.M. 1989. A comparison of three methods for
visually assessing reef fish communities: Time and area compensated. Northeast
Gulf Science 10: 85-96.
Brock,
R.E. 1982. A critique of the visual census method for assessing coral reef fish
populations. Bulletin of Marine Science 32: 269-276.
Cappo,
M., Speare P. & De'ath. G. 2004. Comparison of baited remote underwater
video stations (BRUVS) and prawn (shrimp) trawls for assessments of fish
biodiversity in interreefal areas of the Great Barrier Reef Marine Park. Journal
of Experimental Marine Biology and Ecology 302: 123-152.
Ch’ng,
K.L. & Thomas, C. 1990. Artificial reef program in Malaysia. In Towards
an integrated management of tropical coastal resources, edited by Chou, L.
M., T. Chua, E., H.W. Khoo, P.E. Lim, J.N. Paw, G.T. Silvestre, M.J. Valencia, A.T.
White, P.K., Wong. ICLARM Conference Proceedings 22. pp. 305-309.
Chapman,
C., Johnstone, A. Dunn, J. & Creasey, D. 1974. Reactions of fish to sound
generated by diver's open-circuit underwater breathing apparatus. Marine
Biology 27: 357-366.
Chua,
Y.Y. & Chou, L.M. 1994. The use of artificial reefs in enhancing fish
communities in Singapore. Hydrobiologia 285: 177-187.
De
Silva, M.W.R.N. & Ridzwan Abdul Rahman. 1982. Coral reef survey of Pulau
Paya/Segantang group of islands, Kedah, Malaysia: Expedition report and
recommendations for management. Report produced under WWF Project Mal. 41/82.
Universiti Pertanian Malaysia, Serdang.
Francour,
P., Liret, C. & Harvey, E. 1999. Comparison of fish abundance estimates
made by remote underwater video and visual census. Naturalista Siciliana.
23: 155–168.
Jensen,
A.C. (ed.) 1997. European Artificial Reef Research. Proceedings of the first EARRN Conference,
March 1996, Ancona, Italy.
Parker,
R.O.Jr. 1990. Tagging studies and diver observations of fish populations on
live-bottom reefs of the U.S. southeastern coast. Bulletin of Marine Science 46: 749-760.
Rilov,
G. & Benayahu, Y. 2000. Fish assemblage on natural versus vertical
artificial reefs: the rehabilitation perspective. Marine Biology 136:
931-942.
Russell,
B.C., Talbot, F.H., Anderson, G.R.V. & Goldman, B. 1978. Collection and
sampling of reef fishes. In Coral reefs: research methods, edited by D.
R. Stoddart and R. E. Johannes. p. 329-345 UNESCO, Paris.
Satapoomin,
U. 1997. Fish aggregation at the artificial reefs. In The effect of
artificial reef installation on the bioscioeconomics of small-scale fisheries
in Ranong Province, Thailand. Bay of Bengal Programme. Nagaraj & Co.,
Madras.
Takagi,
N., Moriguchi, A. Kimoto, K. & Arai, K. 1997. The observation of the
fishes’ behavior around an artificial reef with an underwater television camera
– about using a tethered underwater television camera without propulsion. Technological
Report of the National Research Institute of Fisheries Engineering 19:
29-44.
Tessier E., Chabanet, P. Pothin, K. Soria, M.
& Lasserre. G. 2005. Visual censuses of tropical fish aggregations on
artificial reefs: slate versus video recording techniques. Journal of Experimental
Marine B2iology and Ecology 315: 17-30.
Thresher,
R.E. & Gunn, J.S. 1986. Comparative analysis of visual census techniques
for highly mobile, reef-associated piscivores (Carangidae). Environmental
Biology of Fishes 172: 93-116.
Toda,
T., Okashita, T., Maekawa, T., Kee, B.A.A., Kushairi, M.M.R., Nakajima, R.,
Chen, W., Takahashi, K.T., Othman, B.H.R. & Terazaki, M. 2007. Community
structures of coral reefs around Peninsular Malaysia. Journal of
Oceanography 63: 113-123.
Willis,
T.J. & Babcock, R.C. 2000. A baited underwater video system for the
determination of relative density of carnivorous reef fish. Marine and
Freshwater Research 51: 755-763.
*Pengarang untuk surat-menyurat; email: teruaki.yoshida@gmail.com
|
|||
|
