Design Of a Semi-Automatic Hand Line (Hand Line) For Semi-Automatic Squid in Wangi-Wangi Selatan Sub-District, Wakatobi District
Abstract
The amount of energy drained on fishermen when catching and using traditional squid fishing gear takes a long time, affecting fishermen's income. This research aims to design a semi-automatic squid fishing rod and determine the efficiency of using the new design of semi-automatic squid fishing gear. This research was conducted in the South Wangi-Wangi District, Wakatobi Regency, Southeast Sulawesi Province, from December 2023 to January 2024. The research method used was experimental fishing, which was used to design a semi-automatic fishing rod to know the effect of using semi-automatic fishing gear on catches. The construction of the semi-automatic squid fishing rod is by the planned design and is technically feasible to use. The productivity of the research shows that from the weight of the semi-automatic squid fishing rod catch of 36.02 kg, the number of 459 tails during 16 trips. The catch of traditional squid long line with a total weight of 34.76 kg and 511 tails during 16 trips. The results of statistical tests using t-test analysis show a difference that does not significantly affect the results of both fishing gears.
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Antika M, Kohar A, Boesono H. 2014. Financial Feasibility Analysis of Dogol Capture Fishery Business at Ujung Batu Fish Landing Base (PPI) Jepara. Journal of Fisheries Resources Utilization Management and Technology. 3(3):200-207.
Aras, M., & Hasmawati, H. 2016. Substrate Characteristics for Squid Egg Laying on Pute Anging Island, Barru Regency. Journal of Galung Tropika, 5(1), 1-7.
Bagaskara MG, Rasdam. 2020. Specification and construction of squid fishing rod in Muara Baru, North Jakarta. Airaha Journal. 9(1):1-9
Baskoro, M. S., Sondita, M. F. A., Yus�iandayani, R., & Syari, I. A. (2017). Effectiveness of Squid Attractor Shape as a Squid Egg Attachment Media (Loligo sp). National Marine Journal, 10 (3), 177-184.
Cochran WG, Cox GM. 1957. Experimental Designs (2nd ed.). New York (US): Wiley.
DKP Wakatobi. 2022. About Capture Fisheries Resources in Wakatobi Waters.
Ernaningsih, Muhammad J 2022. “Productivity of Snake Fishing Gear for Squid in Badi Island, Pangkep Regency.” Agrikan: Journal of Fisheries Agribusiness 15.4: 15-27.
Febrianto A, Simbolon D, Haluan J. 2017. Squid Fishing Seasons Pattern Inside and Outside Waters of Tin Mining Area in South Bangka District. Marine Fisheries: Journal of Marine Fisheries Technology and Management, 8(1), 63-71.
Federer W. 1963. Experimental Design, Theory, and Aplication. New York: Mac
Ghozali, Imam. 2011.Application of Multivariate Analysis with IBM SPSS19 Program.Diponegoro University Publishing Agency, Semarang.
Hasan I. 2004. Analysis of Research Data with Statistics. Jakarta (ID): PT Bumi Aksara.
Ismail T, Zainal A M, Nur F, Ichsan S. 2013. Food habits and food composition of three species of squid (Loligo edulis, Sepioteuthis lessoniana, and Sepia officinalis) caught by fishermen from the north coast of Aceh province. Journal of Fisheries. Depik, 2(2): 97-103.
Istijanto. 2009. Practical Application of Marketing Research. Jakarta (ID): Gramedia Pustaka Utama.
Jayanto B B, Boesono H, Fitri A D P, Asriyanto A, Kurohman F. 2016. Effect of Squid Attractor for Liftnet Fishing Production at Jepara Seawaters. Fisheries Science and Technology: Indonesian Journal of Fisheries Science and Technology, 11(2), 134-139.
Kamalludin, Ilham; Rosa, Firlya; Saparin, Saparin. 2019, Design of an automatic squid fishing machine. In: Proceedings Of National Colloquium Research And Community Service. P. 162-165.
Krisanti M. A. 2019. Analysis of Causes and Solutions for Reconciliation of Finished Goods Using Statistical Hypotheses with the Independent Sample T-Test Testing Method at PT Merck, Tbk. Jurnal Tekno, 16(2), 35-48.
Puspito G. 2009. Fishing rod. Department of Fisheries Resource Utilization, Faculty of Fisheries and Marine Science-IPB. Bogor.
Karyanto K, Purwanto Y. 2022. Squid Fishing Rod Construction.
Kurniawan K, Lestari S. RJ, S. H. 2012. Hydrolysis of squid ink protein (Loligo sp) with papain enzyme. Journal of Fishtech, 1(1), 41-54.
Montolalu C E J C, Langi Y A R. 2018. Effect of Basic Computer and Information Technology Training for Teachers with Paired Sample T-Test. Journal of Mathematics and Applications decartesia N. 7(1). 44-46.
Mulyawan M, Masjamsir M, Andriani Y. 2015. The effect of different light colors on the catch of squid (Loligo spp) on Floating Chart in Palabuhanratu Waters, Sukabumi Regency, West Java. Jurnal Perikanan dan Kelautan Unpad, 6(2), 124970.
Nasution L M 2017. “Descriptive statistics.” Hikmah 14.1 (2017): 49-55.
Nelayan Kelurahan Motto Kecamatan Lembeh Utara Kota Bitung. Jurnal Airaha, 11(01), 023-029.
Norman MD. 2003. Cephalopods a World Guide. CSIRO Publishing and the Gould League of Victoria Melbourne 96 pp.
Sadhori, 1985. Fishing Techniques, Part 2. Mutiara Offset.
Sedarmayanti. 2014. Overview of Fishing Effectiveness. Accessed on Tuesday, October 11, 2016 at 20:34 WITA.
Usmadi, U. 2020. Testing analysis requirements (Homogeneity test and normality test). Educational Innovation, 7(1).
DOI: http://dx.doi.org/10.12962/j25481479.v9i3.21597
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P-ISSN: 2541-5972
E-ISSN: 2548-1479
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