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Journal articles on the topic 'Aquaculture – Indonesia'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Alfiansah, Yustian Rovi. "Aggregates in aquatic ecosystems and implications for aquacultures." Marine Research in Indonesia 45, no. 2 (December 31, 2020): 87–96. http://dx.doi.org/10.14203/mri.v45i2.584.

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Agglomerations of suspended particulate matter serve various roles in aquatic ecosystems. They participate in nutrient and energy fluxes and are involved in important food web processes. While comprehensive studies on aggregates are available from natural freshwater and marine ecosystems, little is known about the roles of aggregates in aquacultures, particularly in shrimp pond farming. As particle-rich systems, shrimp ponds and marine aquaculture (mariculture) areas constitute interesting objects for aggregate studies, particularly as a source of natural feed, particle fluxes, microbial communities, including pathogenic bacteria, and possible vector of disease widespread. The aims of this review are i) to compile the current knowledge on the role of aggregates in aquatic ecosystems, particularly in aquaculture areas covering advantages and negative side effects of aggregates in aquacultures, ii) to explore the role of aggregates in disease ecology, and iii) perspective of aquaculture management in the context of aggregate utilization and management. Since Southeast Asia, especially Indonesia, is among the most important regions for aquaculture activities, this review focuses on Indonesian aquacultures. Although aquacultures produce important amounts of aggregates, including its associated microbial communities, they are rarely investigated in Indonesian aquacultures, particularly in shrimp pond farming. In contrast, most of the studies focused on bacterial cultivation and utilization of isolates for aquacultures. Thus, understanding the ecological roles of aggregates in aquacultures may support the improvement of aquaculture management and yields.
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2

Yarmoshuk, Aaron N. "Aquaculture in Indonesia." Ocean Yearbook Online 11, no. 1 (1994): 144–56. http://dx.doi.org/10.1163/221160094x00078.

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3

Setyono, Dwi Eny Djoko. "KARAKTERISTIK BIOLOGI KUDA LAUT (Hippocampus spp) SEBAGAI PENGETAHUAN DASAR BUDIDAYANYA." OSEANA 45, no. 1 (April 28, 2020): 70–81. http://dx.doi.org/10.14203/oseana.2020.vol.45no.1.57.

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Many species of marine organisms live in Indonesian waters have a potential for aquaculture (fishes, crustaceans, mollusc, echinoderm, and algae). They are cultured for food resources, the basis for cosmetic and natural medicine, and also as ornamental fish for marine aquarium. Seahorse (Syngnathidae: Hippocampus) is a marine fish which has high ecological and economic value. Fishing pressure of wild seahorse increased significantly when buyers offering an attractive price for the catch. High levels of fishing effort keep the wild stocks of seahorses well below the level that could be supported by natural growth and recruitment. Aquaculture for seahorses is very important to support sustainable production and to maintain the wild population in steady condition. Culture technique for seahorses has been developed in some countries, including Indonesia. However, seahorse aquaculture in Indonesia has not been achieved as expected due to the limited understanding of some biological characteristics. This manuscript deliberates some biological characteristics that useful as basic knowledge for seahorse aquaculture.
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Senff, Paula, Stefan Partelow, Lisa Fajar Indriana, Nurliah Buhari, and Andreas Kunzmann. "Improving pond aquaculture production on Lombok, Indonesia." Aquaculture 497 (December 2018): 64–73. http://dx.doi.org/10.1016/j.aquaculture.2018.07.027.

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5

Zikra, Muhammad, Haryo Dwito Armono, and Fahrizal Pratama. "Wave Modeling for the Establishment Potential Area of Offshore Aquaculture in Indonesia." Fluids 5, no. 4 (December 1, 2020): 229. http://dx.doi.org/10.3390/fluids5040229.

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Aquaculture is expected to further improve in the future and can provide 57 percent of fish for human consumption by 2025. In Indonesia, the aquaculture sector produced 5.77% of the world total production in 2014 and increases annually by, on average, 0.62%. Prigi Bay, located in the south of east Java, is one potential area to develop sustainable aquaculture in Indonesia. This study presents numerical wave modeling to investigate the potential area for offshore aquaculture in Prigi Bay. The method used Delft3D Flow and CG WAVE model to simulate wave and current. The superimposed analysis is used to select potential areas between the results of the model and the criteria of environmental parameters. The result shows that the location which meets the aquaculture criteria is located at coordinates 8.311° S–8.322° S and 111.734° E–111.747° E. This site has a depth of around 18–26 m with current velocity between 0.10 and 0.14 m/s and significant a wave height between 0.2–0.4 m. This location is the most suitable location for aquaculture in the Prigi Bay.
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A. Rimmer, Michael. "MARICULTURE DEVELOPMENT IN INDONESIA: Prospects and Constraints." Indonesian Aquaculture Journal 5, no. 2 (December 31, 2010): 187. http://dx.doi.org/10.15578/iaj.5.2.2010.187-201.

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Mariculture is an important component of Indonesian fisheries and aquaculture production, directly contributing an estimated US$ 320 million in 2008. Because most mariculture production is focussed on producing for export markets, mariculture production is an important source of foreign earnings for the Indonesian economy. This paper reviews the current status and prospects for continuing development of mariculture in Indonesia. Currently the major mariculture commodity in Indonesia is seaweed for carrageenan production. Seaweed production accounts for 98% of total Indonesian mariculture production and 84% of value. The other major commodity groups are marine finfish and pearl oysters. Commodities being developed for mariculture in Indonesia include abalone and spiny lobsters. Prospects for continued development of mariculture in Indonesia appear positive. Indonesia has several advantages for mariculture development, including many potential mariculture sites, a stable tropical climate, and does not suffer from cyclonic storms. The Government of Indonesia is planning to increase aquaculture production substantially over the next four years, including mariculture production. Globally, demand for seafood products is expanding due to increasing population and increased per capita consumption of fish products. Constraints to the continued development of mariculture in Indonesia include: limited seed supply, particularly of species which cannot be economically produced in hatcheries, such as spiny lobsters; need to develop more efficient production systems for some marine finfish; the need to improve environmental sustainability by improving feeds and reducing environmental impacts; and market issues relating to environmental sustainability.
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7

Lukman, Kevin Muhamad, Yuta Uchiyama, and Ryo Kohsaka. "Sustainable aquaculture to ensure coexistence: Perceptions of aquaculture farmers in East Kalimantan, Indonesia." Ocean & Coastal Management 213 (November 2021): 105839. http://dx.doi.org/10.1016/j.ocecoaman.2021.105839.

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8

Oktopura, A. A. D., A. Fauzi, K. Sugema, and H. Mulyati. "Aquaculture performance in Indonesia: economics and social perspectives." IOP Conference Series: Earth and Environmental Science 493 (June 19, 2020): 012003. http://dx.doi.org/10.1088/1755-1315/493/1/012003.

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9

Hastuti, Dwi, Akbar Kurniawan, and Juhriyansyah Dalle. "DECISION SUPPORT SYSTEM FOR DETERMINING TYPE OF FISH BASED ON WATER QUALITY." Fish Scientiae 7, no. 2 (December 18, 2017): 216. http://dx.doi.org/10.20527/fs.v1i2.4547.

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Indonesia is an archipelagic country with an area of 5.8 million km2 or equivalent to 2/3 in Indonesia, The territorial waters of Indonesia have been recognized as the Nation's Insight by the United Nations Convention on the Law of the Sea (UNCLOS) in 1982, but with the vast waters of Indonesia, do not make Indonesia free from imported fish from various countries. Inappropriate aquaculture production can result in financial losses, energy, time, and others. So knowledge of intensive aquaculture production is needed. Knowledge of aquaculture production that can be obtained by fish farmers and related parties requires a short time in obtaining it. Therefore the purpose of this research is to design a decision support system that has been computerized which can determine the type of fish that can be produced intensively based on water quality in the area used
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10

BUDIHARJO, AGUNG. "Selection and potential aquaculture of “wader” fish of the Genus Rasbora." Biodiversitas, Journal of Biological Diversity 3, no. 2 (July 1, 2002): 225–30. http://dx.doi.org/10.13057/biodiv/d030203.

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11

Tallar, Robby Yussac, and Jian-Ping Suen. "Aquaculture Water Quality Index: a low-cost index to accelerate aquaculture development in Indonesia." Aquaculture International 24, no. 1 (June 23, 2015): 295–312. http://dx.doi.org/10.1007/s10499-015-9926-3.

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12

Azizah, Fahma Fiqhiyyah Nur, Hiroe Ishihara, Aiora Zabala, Yutaro Sakai, Gede Suantika, and Nobuyuki Yagi. "Diverse Perceptions on Eco-Certification for Shrimp Aquaculture in Indonesia." Sustainability 12, no. 22 (November 11, 2020): 9387. http://dx.doi.org/10.3390/su12229387.

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Shrimp is a major aquaculture species in Indonesia. Despite the Indonesian government’s effort to reinforce sustainability practices using a national eco-certification scheme, the uptake of stakeholders has been slow so far. This study analyzed diverse perceptions of the national eco-certification of shrimp aquaculture among stakeholders across the value chain in Indonesia. Using Q-methodology, 49 statements were selected, and they covered seven themes: conceptual understanding, priorities, motivation for eco-certification, market access, impacts of eco-certification, obstacles in Indonesia, and stakeholder involvement. Thirty respondents across the supply chain of whiteleg shrimp sorted these statements according to their level of agreement. Based on their support or opposition to eco-certification, responses were categorized into five perspectives: (1) supporter for the certification by principle, (2) market-oriented supporter, (3) collaborative supporter, (4) ambivalent self-sufficient, and (5) antagonistic business-oriented. Several reasons for stakeholder’s slow acceptance were identified. These include a limited understanding of sustainability concepts in eco-certification, uncertainty for the potential positive effects of eco-certification in terms of market access, the recognition of other priorities such as improving farm-infrastructures, and a lack of stakeholders’ participation in communication forums. The findings of this study can facilitate the process of consensus-building on eco-certification among farmers, scientists, the government, non-governmental organizations, and other stakeholders to support a viable pathway for policy development to achieve sustainable shrimp aquaculture. Ultimately, this study provides new insights on how a country in the Global South perceives eco-certification differently from the Global North.
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13

Diedrich, Amy, Jessica Blythe, Elizabeth Petersen, Epsi Euriga, Anna Fatchiya, Takahiro Shimada, and Clive Jones. "Socio-Economic Drivers of Adoption of Small-Scale Aquaculture in Indonesia." Sustainability 11, no. 6 (March 14, 2019): 1543. http://dx.doi.org/10.3390/su11061543.

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Aquaculture has a critical role in achieving the UN’s Sustainable Development Goals of increasing benefits that low-income and least-developed countries derive from marine resources. Its capacity to deliver these outcomes is challenging, particularly for marginalized groups. This is especially true if the introduction of novel technologies is applied with incomplete understanding of socio-economic and bio-physical contexts. We examined what socio-economic factors affect people’s perceptions of adoption of lobster aquaculture in rural households in Indonesia. We used multiple linear regression with model averaging to test the influence of five capital assets (human, social, natural, physical, and financial), including agency, equity, and household sensitivity, on people’s perceived ability to adopt lobster aquaculture. Agency and sensitivity had the greatest influence on the dependent variable. We then used correlation analysis to develop a heuristic model of potential indirect causal mechanisms affecting people’s perceptions of adoption. Our results point to the existence of a ‘sensitivity trap’, where more sensitive or marginalized households are less likely to engage in new economic opportunities. We emphasize the value of multifaceted programs for improving livelihoods, particularly for poorer, more vulnerable households as one way to support the UN’s commitment to using aquaculture as a pathway to achieving sustainable development.
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14

Sulistiyawan, Edy, Alfisyahrina Hapsery, and Lucky Junita Ayu Arifahanum. "PERBANDINGAN METODE OPTIMASI UNTUK PENGELOMPOKAN PROVINSI BERDASARKAN SEKTOR PERIKANAN DI INDONESIA (Studi Kasus Dinas Kelautan dan Perikanan Indonesia)." Jurnal Gaussian 10, no. 1 (February 28, 2021): 76–84. http://dx.doi.org/10.14710/j.gauss.v10i1.30936.

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The fisheries sector has an important role in supporting the food security chain, where the world's protein needs can be met by fisheries resources, both from capture fisheries and aquaculture. There are several fisheries sectors including fishing companies, capture fisheries production, number of ships, types and size of cultivated land. Therefore a statistical analysis is needed to increase the potential of fisheries in Indonesia. Data on the fisheries sector used in this study from the Indonesian Central Statistics Agency in 2018, which included the 2016 fisheries sector with 34 observation units in Indonesia. By using cluster analysis K-Means aims to group provinces in Indonesia based on the fisheries sector so that several groups are formed which will show the characteristics of each group. There are three determinations of the optimum number of clusters, namely the Elbow method, Silhouette method, and GAP Statistics. The results showed that optimum clusters were formed in 2 clusters, with the best Elbow and Silhouette methods. Where the first cluster is a region that shows a low value of the fisheries sector consisting of 30 provinces this is due to inadequate infrastructure and use that is not optimal while cluster 2 regions that have great potential in the Indonesian fisheries sector in 2016 as many as 4 provinces namely West Java, Java Central, East Java, and South Sulawesi as dominating capture fisheries production and aquaculture. Keywords: Fisheries Sector, K-Means Cluster Analysis, Elbow Method, Silhoutte Method and GAP Statistics.
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15

Gusmawati, Niken F., Cheng Zhi, Benoît Soulard, Hugues Lemonnier, and Nazha Selmaoui-Folcher. "Aquaculture Pond Precise Mapping in Perancak Estuary, Bali, Indonesia." Journal of Coastal Research 75, sp1 (March 3, 2016): 637–41. http://dx.doi.org/10.2112/si75-128.1.

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16

Rimmer, Michael A., Michael J. Phillips, P. Arun Padiyar, Coco Kokarkin, Sugeng Raharjo, Samsul Bahrawi, and Cut Desyana. "Cooperation in aquaculture rehabilitation and development in Aceh, Indonesia." Development in Practice 22, no. 1 (February 2012): 91–97. http://dx.doi.org/10.1080/09614524.2012.630984.

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17

Hidayati, Nuning Vita, Agung Dhamar Syakti, Laurence Asia, Stephanie Lebarillier, Imen Khabouchi, Ita Widowati, Agus Sabdono, Anne Piram, and Pierre Doumenq. "Emerging contaminants detected in aquaculture sites in Java, Indonesia." Science of The Total Environment 773 (June 2021): 145057. http://dx.doi.org/10.1016/j.scitotenv.2021.145057.

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18

S, Sunadji, Muhammad S, Tjahjono A, and Riniwati H. "Development Strategy of Seaweed Aquaculture Business in Kupang Regency, East Nusa Tenggara Province, Indonesia." Journal of Agricultural Studies 2, no. 1 (November 28, 2013): 27. http://dx.doi.org/10.5296/jas.v2i1.4631.

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Seaweed is a main commodity in fisheries revitalization plan other than shrimp and tuna because it has some excellence, such as: export opportunities that are widely opened, price that is relatively stable, absence of trade quota for seaweed; simple cultivation technology that makes it easy-learned; short-term of cultivation cycle that gives profit fast; small amount of capital needs; seaweed belongs to unchangeable commodity because it has no synthetic changes; seaweed aquaculture is considered as labor-intensive business that requires some labors. Kupang Regency has potential area for seaweed aquaculture by 10.354,07 ha and newly-utilized area by 10 % in 2010. Seaweed aquaculture business in Kupang Regency is conducted by home industry. Government policy which is represented by Fisheries and Marine Services of Kupang Regency is still partially implemented. This study aims to acquaint development strategy of seaweed aquaculture business in Kupang Regency, East Nusa Tenggara Province, Indonesia. Applied research method is survey, population of seaweed cultivators, while the applied data analysis is SWOT analysis. Result of analysis based on SWOT analysis shows that development of seaweed aquaculture ranks in first quadrant position meaning that applied strategy is Progressive or Aggressive strategy. Progressive development strategy of seaweed business can be carried out by: production harvest escalation, quality and continuity of seaweed increase, labor increment and area utilization, as well as government role increment in capital and institutional development.
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19

Tran, Nhuong, U. Primo Rodriguez, Chin Yee Chan, Michael John Phillips, Chadag Vishnumurthy Mohan, Patrik John Gustav Henriksson, Sonny Koeshendrajana, Sharon Suri, and Stephen Hall. "Indonesian aquaculture futures: An analysis of fish supply and demand in Indonesia to 2030 and role of aquaculture using the AsiaFish model." Marine Policy 79 (May 2017): 25–32. http://dx.doi.org/10.1016/j.marpol.2017.02.002.

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20

Ekawati, Arning Wilujeng, Siti Mariyah Ulfa, Citra Satrya Utama Dewi, Abdul Aziz Amin, Lutfi Ni’matus Salamah, Adi Tiya Yanuar, and Andi Kurniawan. "Analysis of Aquaponic-Recirculation Aquaculture System (A - Ras) Application in the Catfish (Clarias gariepinus) Aquaculture in Indonesia." Aquaculture Studies 21, no. 3 (February 11, 2021): 93–100. http://dx.doi.org/10.4194/2618-6381-v21_3_01.

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Water quality and waste management are significant problems for aquaculture in Indonesia, including catfish (Clarias gariepinus) aquaculture. A combination of Aquaponics Systems and Recirculating Aquaculture Systems (A-RAS) has been developed to address this problem. This study analyzed A-RAS application for catfish (Clarias gariepinus) aquaculture by comparing water quality and production indicators between A-RAS and conventional methods. The results show that temperature, pH, dissolved oxygen, total organic matter, ammonia, nitrate and nitrite in A-RAS technology were 28.0-30.0°C, 6.5-7.9, 3.8-7.8 mg/L, 18.54-24.97 mg/L, 0.12- 0.28 mg/L, 0.12-0.13 mg/L, and 0.04-0.13 mg/L, respectively. Survival Rate, Feed Conversion Ratio, and harvest in A-RAS application were 85.5%, 1.1, and 26 kg/m³, respectively. A-RAS technology can maintain water quality to be reused in cultivation and increase yields by about 13%. Besides, water spinach can be an additional income for farmers.
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21

Jones, Clive M. "Progress and obstacles in establishing rock lobster aquaculture in Indonesia." Bulletin of Marine Science 94, no. 3 (July 1, 2018): 1223–33. http://dx.doi.org/10.5343/bms.2017.1157.

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22

Rimmer, Michael A., Ketut Sugama, Diana Rakhmawati, Rokhmad Rofiq, and Richard H. Habgood. "A review and SWOT analysis of aquaculture development in Indonesia." Reviews in Aquaculture 5, no. 4 (May 6, 2013): 255–79. http://dx.doi.org/10.1111/raq.12017.

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23

Yi, Dale, Thomas Reardon, and Randy Stringer. "Shrimp aquaculture technology change in Indonesia: Are small farmers included?" Aquaculture 493 (August 2018): 436–45. http://dx.doi.org/10.1016/j.aquaculture.2016.11.003.

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24

Jacinda, Adinda Kinasih. "Resirculating Aquaculture System (RAS) Technology Applications in Indonesia : A Review." Jurnal Perikanan dan Kelautan 11, no. 1 (June 30, 2021): 43. http://dx.doi.org/10.33512/jpk.v11i1.11221.

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25

Ka Praja, Rian, Anggita Ratri Pusporini, Reny Rosalina, I. Wayan Muda Suta Arta, I. Dewa Made Sukrama, and Ni Nengah Dwi Fatmawati. "THE EXISTENCE OF VIBRIO CHOLERAE IN INDONESIA: FROM ENVIRONMENTAL TO CLINICAL ASPECTS (A CONCISE REVIEW)." OISAA Journal of Indonesia Emas 4, no. 1 (January 15, 2021): 1–8. http://dx.doi.org/10.52162/jie.2021.004.01.1.

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Vibrio cholerae is an infectious agent causing cholera disease with a high prevalence in various developing countries. V. cholerae is a pathogen with broad spectrum host that can infect humans and animals, especially aquaculture. The existence of this disease in Indonesia has long been identified in several outbreaks. Various reports in Indonesia have succeeded in finding the existence of V. cholerae in the environment, aquaculture, food and beverage, as well as in clinical cases of V. cholerae infection. The presence of V. cholerae in environment such as water source is commonly related with contamination. However, V. cholerae can be found in aquatic environment as this environment is natural habitat for V. cholerae. Thus, aquaculture is prone to be infected with V. cholerae because the presence of this pathogen is abundant in aquatic environment. Contaminated food and beverage are associated with hygiene and sanitation and human is commonly infected after consuming contaminated food or beverage. This brief review has the main focus to discuss the existence of V. cholerae from environmental to clinical aspects found in Indonesia.
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26

Poernomo, Achmad, and Endang Sri Heruwati. "Industrialization in fisheries: a challenge to change." Squalen Bulletin of Marine and Fisheries Postharvest and Biotechnology 6, no. 3 (March 20, 2014): 7. http://dx.doi.org/10.15578/squalen.v6i3.65.

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To manage with the Indonesian vision as the biggest producer of fisheries in 2015, capture,aquaculture, and post-harvest fisheries should be ready to operate at large or business scale.Consequently, industrialization should be promoted since this is the most appropriate way tomanage fisheries in business manner. Though it has a positive goal to maximize the utilization offisheries resource for the improvement of economic and prosperity of Indonesian people, however,industrialization undoubtedly retains a negative impact in terms of threats on the sustainability offishery and other natural resources. This article summarises review and analysis aiming to developan ideal model in order to strengthen the fisheries industrialization in Indonesia. Based on previousweaknesses, the ideal model is the one that reflects an inclusive and holistic manner, suitable forvarious characteristics of industries in each typical areas and people of Indonesia, with the emphasison competitive advantage, untraditional, and commercial basis, especially in respect to thedevelopment of a strong fisheries business. This kind of model should also maintain harmonizedand coordinated programs and actions between involved related institutions. Research supportsare needed to develop and test the most appropriate model. Also, in technical basis, innovationson fish capture, aquaculture, as well as processing technologies are urgently needed as acomplement to the developed model of fisheries industries. One thing that should be kept in mindis the importance of management and conservation of natural resources, including resource forfisheries capture and aquaculture, germ plasms and genetic fish resources, as well as marinemicroorganisms, as these all are the main assets for the development of marine and fisheries inIndonesia.
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Iswanto, Bambang, Imron Imron, Rommy Suprapto, and Huria Marnis. "MORPHOLOGICAL CHARACTERIZATION OF THE AFRICAN CATFISH (Clarias gariepinus BURCHELL, 1822) STRAINS INTRODUCED TO INDONESIA." Indonesian Aquaculture Journal 10, no. 2 (December 31, 2015): 91. http://dx.doi.org/10.15578/iaj.10.2.2015.91-99.

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African catfish (Clarias gariepinus Burchell, 1822) has become a great important species in Indonesian aquaculture. Several strains of the African catfish have been introduced to Indonesia for aquaculture purposes, initiated by Dumbo strain from Taiwan in 1985, followed by Paiton strain from Thailand in 1998, then Egypt strain from Egypt in 2007, Masamo strain from Thailand in 2010 and later Kenya strain from Kenya in 2011. Since its introductions, there were no reports yet on their characterization studies. The present study was conducted to morphologically characterize the strains of African catfish introduced to Indonesia, i.e. Dumbo, Paiton, Egypt, Masamo, and Kenya strains. Morphometric and meristic data obtained were analyzed using Principal Component Analysis. Results of the morphometric characterization in the present study revealed that Dumbo, Paiton, Masamo, and Kenya strains were indistinguishable, while morphometric characteristic of Egypt strain was more or less different from those of the other strains. On the other hand, results of the meristic characterization suggested that meristic characteristics of all strains of the introduced African catfish were not different from each other. Therefore, to keep the genetic purity of those introduced strains, they should be properly maintained in isolated places.
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Budiman, Mohan, Takahiro Osawa, and I. Wayan Arthana. "Studi of Environmental Optimum for Pearl Oyster (Pinctada maxima) Aquacuolture Using Marine GIS and Remote Sensing Case Study of Buleleng Regency, North Bali, Indonesia." International Journal of Environment and Geosciences 2, no. 1 (June 1, 2018): 9. http://dx.doi.org/10.24843/ijeg.2018.v02.i01.p02.

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Oyster aquaculture is one of priorities for development and promotion of aquaculture activities in Buleleng Regency and since 2010 the production always increase and supports coastal communities. The selection of aquaculture structure system and farm site are importance. The selection should be based on an appraisal of the life history, habits, environmental parameters and socio-infrastructure. This study focused on obtaining the aquaculture structure system and site selection for Pearl Oyster (Pinctada maxima) in Buleleng Regency with seven attributes Chl-a, SST, bathymetry, and currents, distance to town, distance to pier, and distance to laboratory. The model structure for identifying culture structure and suitable sites for oyster aquaculture in coastal of Buleleng Regency was built on MCE (Multi Criteria Evaluation), the final result for suitable site outputs were compared with pearl production in Buleleng Regency in 2009, 2010, and 2011. The result of this study is that most areas at Buleleng coastal had medium suitability scores.
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Kambey, Cicilia S. B., Iona Campbell, Calvyn F. A. Sondak, Adibi R. M. Nor, Phaik E. Lim, and Elizabeth J. Cottier-Cook. "An analysis of the current status and future of biosecurity frameworks for the Indonesian seaweed industry." Journal of Applied Phycology 32, no. 4 (January 2, 2020): 2147–60. http://dx.doi.org/10.1007/s10811-019-02020-3.

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AbstractIndonesia is the world largest producer of the red seaweeds Kappaphycus and Eucheuma; however, this country is facing significant challenges such as disease outbreaks, epiphyte infestations and a loss in seedling quality. Biosecurity practices have been widely adopted in other aquaculture sectors and when enforced can help to limit the introduction and spread of diseases and pests. To assess current capacity for biosecurity in seaweed aquaculture in Indonesia, a systematic analysis of policy frameworks including legislation, regulatory tools, and national standards was conducted. Biosecurity themes and risks were used to evaluate current national biosecurity content. The results identified major challenges faced by the industry in order to implement biosecurity policies in practice. Barriers to implementation included unspecific reference to the seaweed aquaculture sector, limited variety of approaches to biosecurity, limited use of up-to-date scientific evidence, insufficient guidance for the use of precaution and insufficient inclusion of specific biosecurity hazards. In general, although national regulations are currently under revision, current policies indicate a lack of clarity where biosecurity is included. Six recommendations are suggested to incorporate proactive biosecurity actions into current frameworks, with the aim of improving the health and sustainability of the seaweed aquaculture sector in Indonesia.
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Bunting, Stuart W., Roel H. Bosma, Paul A. M. van Zwieten, and A. S. Sidik. "BIOECONOMIC MODELING OF SHRIMP AQUACULTURE STRATEGIES FOR THE MAHAKAM DELTA, INDONESIA." Aquaculture Economics & Management 17, no. 1 (March 2013): 51–70. http://dx.doi.org/10.1080/13657305.2013.747226.

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Wada, Masaaki, Katsumori Hatanaka, and Mohamad Natsir. "Development of Automated Sea-condition Monitoring System for Aquaculture in Indonesia." Sensors and Materials 31, no. 3 (March 19, 2019): 773. http://dx.doi.org/10.18494/sam.2019.2199.

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Fautama, Fitria Nelda, Ilham Zulfahmi, Muliari Muliari, and Adian Aristia Anas. "Prevalence and Intensity of Ectoparasites on Clarias gariepinus From Aquaculture Pond in Aceh Besar District, Indonesia." Jurnal Biodjati 4, no. 1 (May 28, 2019): 58–67. http://dx.doi.org/10.15575/biodjati.v4i1.4328.

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Information related to the prevalence and intensity of para-sites in an aquatic environment is crucial as preventive and responsive efforts to manage aquatic resources, especially for fish farming pur-poses. Up to now, information related to the prevalence and intensity of ectoparasites on catfish from aquaculture ponds in Aceh Besar Dis-trict is rare. This study aims to investigate the prevalence, intensity, and dominance of ectoparasites on catfish from aquaculture ponds in Aceh Besar district. The total of 200 catfish from four research stations at Sibreh, Kareung, Lambaro, and Limpok was observed in this study. The ectoparasites observation was focused on the skin, fins, and gill of the catfish. The observation parameter consists of prevalence, in-tensity, domination, length-weight relationship, and condition factor. Identification result showed that there were four types of ectoparasites infect the catfish in the aquaculture ponds in Aceh Besar District i.e Trichodina sp., Gyrodactylus sp., Dactylogyrus sp. and Ichthyopthyri-us multifiliis. Station 3 (Lambaro) had the highest prevalence and in-tensity, which were 64% and 5.87 ectoparasites/fish, respectively. In-fected catfish tended to have a lower weight growth than healthy catfish.
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Hikmayani, Yayan, Maharani Yulisti, and Hikmah Hikmah. "EVALUASI KEBIJAKAN PENINGKATAN PRODUKSI PERIKANAN BUDIDAYA." Jurnal Kebijakan Sosial Ekonomi Kelautan dan Perikanan 2, no. 2 (December 18, 2012): 85. http://dx.doi.org/10.15578/jksekp.v2i2.9277.

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Tujuan penelitian ini adalah mengevaluasi kebijakan peningkatan produksi perikanan tahun 2011. Lokasi penelitian dilakukan di Kabupaten Bogor, Jawa Barat. Metode penelitian menggunakan pendekatan kualitatif dan kuantitatif. Data yang dikumpulkan adalah data primer dan sekunder. Analisis data dilakukan secara deskriptif berdasarkan perhitungan kecenderungan produksi perikanan budidaya nasional/wilayah, analisis proyeksi produksi (forecasting) perikanan budidaya di Indonesia dan analisis Strength Weakness Opportunity Threat (SWOT). Hasil penelitian menunjukkan bahwa target produksi yang telah dicanangkan yaitu sebesar 353% pada prinsipnya masih cukup relevan dan sangat optimis untuk tercapai. Hasil forecasting yang telah dilakukan menghasilkan nilai sebesar 335% dan tidak terlalu jauh dengan nilai yang ditargetkan. Proyeksi patin menunjukkan peningkatan produksi sampai tahun 2014 sebesar 253%, menunjukkan antara target produksi dan realisasi sangat jauh perbedaannya. Proyeksi produksi perikanan budidaya untuk komoditas lele, menunjukkan peningkatan produksi sampai dengan 781% di tahun 2014, jauh lebih besar dibanding target produksi perikanan budidaya Direktorat Jenderal Perikanan Budidaya (DJPB) sebesar 450%. Upaya yang dapat dilakukan agar target produksi tercapai yaitu melalui optimalisasi luasan lahan yang belum diusahakan, memperbaiki sarana dan prasarana pendukung perikanan budidaya, distribusi produk perikanan yang merata di seluruh Indonesia dengan mempermudah birokrasi, meningkatkan jumlah dan kapasitas Unit Pembenihan Rakyat (UPR), mendirikan Unit Pengolahan Ikan (UPI) di lokasi sentra produksi potensial, kebijakan pemerintah mengenai harga pakan, subsidi harga input produksi terutama pakan perikanan budidaya dan kebijakan pemerintah dalam pelarangan impor ikan.Title: Policy Evaluation on Enhancing Aquaculture Production.Research aimed at evaluating the policy to increase fisheries production has been carried out in 2011. Research location was in Bogor Regency, West Java. Qualitative and quantitative approaches were used in this research, by which primary and secondary data were collected. Data were analyzed descriptively based on calculations of the trend of national aquaculture production/territory, production projection analysis (forecasting) of aquaculture in Indonesia, and the Strength Weakness Opportunity Threat (SWOT) analysis. Result showed that the production targeted of 353% is still relevant and optimistically can be achieved. Result from forecasting analysis of production showed the value of 335%, by which it has no different with production targeted value. Projections showed an increase of catfish production until year 2014 amounting to 253%, indicating the production and realization of the target is not balanced. Projections analysis of catfish commodities has result increased by 781% in 2014, far greater than Directorate General of Aquaculture’s production target of 450%. Efforts can be made to achieve the production optional targets optimal through optimization of undeveloped land area, improving facilities and infrastructure to support aquaculture, distributing fish products equitable throughout Indonesia by simplifying the bureaucracy, increasing the number and capacity of the small scale hatchery, building fish processing unit in central location of potential production, intervention of government on policy making of feed prices, input prices subsidies especially on feed, and restriction on the fish imports.
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Royan, Muhammad Rahmad. "Integrated Multi-Trophic Aquaculture (IMTA) as a Solution for Shrimp Aquaculture Side Effects on Northern Coast of Java, Indonesia." Grouper 11, no. 1 (April 2, 2020): 31. http://dx.doi.org/10.30736/grouper.v11i1.66.

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35

Putro, Sapto P., Jeanny Sharani, Widowati, Satriyo Adhy, and Suryono. "Biomonitoring of the Application of Monoculture and Integrated Multi-Trophic Aquaculture (IMTA) Using Macrobenthic Structures at Tembelas Island, Kepulauan Riau Province, Indonesia." Journal of Marine Science and Engineering 8, no. 11 (November 19, 2020): 942. http://dx.doi.org/10.3390/jmse8110942.

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Sustainable aquaculture needs to be considered when it comes to the utilization of water resources. The aim of this study was to apply biomonitoring using macrobenthic structures on both spatial and temporal applications of monoculture and integrated multi-trophic aquaculture (IMTA) at Tembelas Island, Kepulauan Riau Province, Indonesia. Samples of sediment were taken from three fish farm locations, namely from an IMTA site, a monoculture site, and a reference site. Macrobenthic organisms obtained through rinsing, sieving, and sorting were then identified under a stereo-microscope. Diversity of the macrobenthic assemblages was analyzed with a Shannon-Wiener index (H’). Equitability was expressed through Pielou’s evenness index. Finally, Bray-Curtis’ non-metric multi-dimensional scaling (NMDS) was used for similarities derived from log (X+1) transformed macrobenthic abundance to provide a visual representation of differences in their structure between sites over time. Results showed polychaetes exhibited differences in both variation and abundance of genera between the farm and reference site. The assemblage of macrobenthos at the IMTA site consisted of 9 genera of gastropods, 3 genera of bivalves, 5 genera of polychaetes, and 2 genera of crustaceans. At the monoculture site, 12 genera of gastropods, 4 genera of bivalves, 8 genera of polychaetes, 1 genera of crustaceans, and 1 genera of ophiuroid were observed. A relatively high abundance was observed at the reference site, with 27 genera of gastropods, 11 genera of bivalves, 3 genera of polychaetes, and 1 genera of crustacean. The favorable water conditions and possible absence of waste input from aquaculture resulting in a more suitable habitat for macrobenthic life may explain this relative abundance. Some of them were recognised as opportunistic taxa, i.e., Capitella sp., Heteromastus sp., and Lumbrinereis sp. Based on the diversity and evenness indices and the MNDS ordination, it can be concluded that the application of IMTA systems results in a suppressed or reduced potential impact on environmental disturbance due to aquacultural activities.
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36

Istiqomah, Indah, Sukardi, Murwantoko, and Alim Isnansetyo. "Review Vibriosis Management in Indonesian Marine Fish Farming." E3S Web of Conferences 147 (2020): 01001. http://dx.doi.org/10.1051/e3sconf/202014701001.

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Vibriosis is a bacterial disease that has been reported in Indonesian marine fish culture since the 1990s. The disease was reported mostly in grouper and shrimp (monodon and vanname) farming, although the infections in snapper (Lates calcarifer) and abalone (Haliotis squamata) aquaculture were also occurred. Causative agents of vibriosis in Indonesia marine fish is involving 14 species of vibrio namely Vibrio harveyi, V. anguillarum, V. alginoluticus, V. parahaemolyticus, V. fluvialis, V. furnisii, V. methcnikovii, V. vulnificus, V. ordalii, V. cincinnatiensis, V. carchariae, V. azureus, V. mimicus and V. damsela. Control of vibriosis is conducted with water quality management, applications of vaccines, antibiotics, probiotics and immunostimulants. Most vaccines developed and commercially available in Indonesia are in the form of inactive-whole cell types. The vaccine product is effective enough to protect fish from vibriosis. Probiotics have been widely studied since the 2000s and have been shown to increase fish and shrimp growth and resistances against vibriosis. Immunostimulants began to be developed since 2010 based on the extracts of terrestrial plants, seaweeds and chitosan. It is therefore concluded that the continuous existence of pathogenic strains in aquaculture farm requires further development of the control methods, including periodic updating of the vaccines, probiotics and immunostimulant formulas for more potent efficacies.
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Hesty Anita Kurniawati et al.,, Hesty Anita Kurniawati et al ,. "The Longitudinal Strength Analysis of Aquaculture Floating Structure in Indonesia Sea Water." International Journal of Mechanical and Production Engineering Research and Development 8, no. 2 (2018): 283–90. http://dx.doi.org/10.24247/ijmperdapr201831.

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38

MIYATA, SACHIKO, and JAGATH MANATUNGE. "Knowledge Sharing and Other Decision Factors Influencing Adoption of Aquaculture in Indonesia." International Journal of Water Resources Development 20, no. 4 (December 2004): 523–36. http://dx.doi.org/10.1080/07900620412331329162.

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39

Sudirman, H. Halide, J. Jompa, Zulfikar, Iswahyudin, and A. D. McKinnon. "Wild fish associated with tropical sea cage aquaculture in South Sulawesi, Indonesia." Aquaculture 286, no. 3-4 (January 2009): 233–39. http://dx.doi.org/10.1016/j.aquaculture.2008.09.020.

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40

Muti’ah, M. S. A. Majid, and C. Seftarita. "What determines aquaculture fish production? empirical evidence from South Aceh Regency, Indonesia." IOP Conference Series: Earth and Environmental Science 674, no. 1 (February 1, 2021): 012040. http://dx.doi.org/10.1088/1755-1315/674/1/012040.

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41

Gustiano, R., V. A. Prakoso, D. Radona, R. R. S. P. S Dewi, A. Saputra, and Nurhidayat. "A sustainable aquaculture model in Indonesia: multi-biotechnical approach in Clarias farming." IOP Conference Series: Earth and Environmental Science 718, no. 1 (March 1, 2021): 012039. http://dx.doi.org/10.1088/1755-1315/718/1/012039.

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42

Marková, Jana, Rikho Jerikho, Yusli Wardiatno, Mohammad Mukhlis Kamal, André Lincoln Barosso Magalhães, Lucie Bohatá, Lukáš Kalous, and Jiří Patoka. "Conservation paradox of giant arapaima Arapaima gigas (Schinz, 1822) (Pisces: Arapaimidae): endangered in its native range in Brazil and invasive in Indonesia." Knowledge & Management of Aquatic Ecosystems, no. 421 (2020): 47. http://dx.doi.org/10.1051/kmae/2020039.

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Ornamental aquaculture is known to be one of the main sources of non-native species and Indonesia has been identified as one of the leading suppliers of these organisms worldwide. Released or escaped ornamental aquatic animals can establish new populations and become invasive. On the other hand, some invasive species can be also endangered in their native range, which is called the “Biodiversity Conservation Paradox”. This is true for Arapaima gigas, one of the popular ornamental creatures and the largest bony fish of all, which is threatened in its native range in parts of Amazonia and which has been found to occur in various localities in Java and Sumatra in Indonesia. Based on climate matching we found the vast majority of Indonesian territory to be suitable for this species establishment. Keeping in mind the size and predatory behaviour of A. gigas, we discussed possible consequences of its spread and impacts on native biota in Indonesia.
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43

Prihutomo, Anggoro, Warih Hardanu, and Atri Triana Kartikasari. "Using Modified Soil Quality Index for Determining Ponds Bottom Soil Quality Status of Aquaculture Area BLUPPB Karawang West Java, Indonesia." Journal of Environment and Ecology 7, no. 1 (June 18, 2016): 1. http://dx.doi.org/10.5296/jee.v7i1.8553.

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<p>The impact of aquaculture activities has led to environmental degradation, especially ponds bottom soil quality. The purpose of this study was to assess the status of the ponds bottom soil quality in different aquaculture systems (traditional and intensive) in BLUPPB Karawang region in a flexible value of soil quality index (SQI). Twenty ponds consisting of 5 traditional of milkfish (<em>Chanos chanos</em>) juvenile rearing ponds and 5 traditional polyculture ponds, 5 intensive of <em>Litopenaeus </em><em>va</em><em>n</em><em>namei</em> shrimp ponds lined with plastic mulch and 5 intensive <em>L. vannamei </em>shrimp earthen ponds. Variables of soil quality parameters examined include physical, chemical and biological of pond bottom soil. Sediment ponds with a depth of 5-10 cm were taken for analysis. Data statistically analyzed using Anova, continued with pos hoc test HSD Tukey. The results showed the ponds soil quality (SQI) of BLUPPB Karawang area has an average of 0.38 ± 0.02 or included in low criteria. Aquaculture systems were not significant (p&gt; 5%) to the general status of ponds soil quality. Aquaculture systems (intensive and traditional) only gave a significant different (p&lt;5%) to the parameter of soil bulk density, c-organic, total N, C:N ratio, total S, total P and soil respiration. Stability of the ponds bottom soil chemical compositions over time make level of intensity does not significantly affect, beside routine sediment removal at the end of cycle in intensive culture.</p>
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Pratama, Hendra Yoga, I. Dewa Nyoman Nurweda Putra, and Ni Luh Putu Ria Puspitha. "PEMETAAN LAHAN POTENSIAL BUDIDAYA LAUT IKAN KERAPU BEBEK Cromileptes Altivelis DI DESA PEMUTERAN, KECAMATAN GEROKGAK, KABUPATEN BULELENG, BALI." Journal of Marine Research and Technology 2, no. 2 (August 6, 2019): 11. http://dx.doi.org/10.24843/jmrt.2019.v02.i02.p03.

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The potential of aquaculture in Indonesia is very large, especially fish and mollusks. Around 1.052.720 ha total potential sea area for fish cultivation such as snapper, beronang, and grouper. One potential that needs to be developed in the field of fisheries is duck grouper (Cromileptes altivelis). One area in Indonesia especially in Bali, which conducting marine aquaculture using floating net cage system is Pemuteran Village, Gerokgak District, Buleleng Regency, Bali. This study aimed to determine the right information and improve the potential of the tap nets for the activity of duck grouper at Pemuteran Village level can be done with floating net cage system. In this study three stages were carried out, namely interpolation, reclassification, and overlay. Based on the result of overlay of all spatial information, a potential map for the activity of duck grouper cultivation with KJA system is divided into 2 conformity classes, namely: S1 for the appropriate category (very suitable), S2 (quite appropriate category ) and T (for not suitable category). Based on the map in figure (3), it shows that suitable results for agriculture in Pemuteran village indicate that proper resources for aquaculture are in the right system KJA is Very suitable (S1) of 1,67 km2, quite appropriate (S2) of 6,25 km2 and not suitable (T) of 1,31 km2.
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Malik, Abdul, Rasmus Fensholt, and Ole Mertz. "Economic Valuation of Mangroves for Comparison with Commercial Aquaculture in South Sulawesi, Indonesia." Forests 6, no. 12 (August 31, 2015): 3028–44. http://dx.doi.org/10.3390/f6093028.

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Anselmus Teniwut, Wellem, Frischilla Pentury, and Yuliana Anastasia Ngamel. "Forecasting the welfare of fishermen and aquaculture farmers in Indonesia: Data Mining Approach." Journal of Physics: Conference Series 1175 (March 2019): 012066. http://dx.doi.org/10.1088/1742-6596/1175/1/012066.

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47

Pratama, I., H. Albasri, and Abinawanto. "Potential development of fairy shrimp Streptocephalus spp. as aquaculture live feed in Indonesia." IOP Conference Series: Earth and Environmental Science 521 (July 15, 2020): 012026. http://dx.doi.org/10.1088/1755-1315/521/1/012026.

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48

Davies, Erik, and Farokh Afshar. "The Sustainability of Traditional and Semi-intensive Pond Aquaculture Systems: South Sulawesi, Indonesia." Canadian Journal of Development Studies/Revue canadienne d'études du développement 14, no. 1 (January 1993): 189–210. http://dx.doi.org/10.1080/02255189.1993.9669505.

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49

Marfai, Muh Aris. "IMPACT OF SEA LEVEL RISE TO COASTAL ECOLOGY: A CASE STUDY ON THE NORTHERN PART OF JAVA ISLAND, INDONESIA." Quaestiones Geographicae 33, no. 1 (March 1, 2014): 107–14. http://dx.doi.org/10.2478/quageo-2014-0008.

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Abstract The coastline of Indonesia, which borders almost 17,500 islands and the sea and extends for more than 80,000 km, is vulnerable to sea level rise. This paper aims to investigate the impact of sea level rise on coastal ecology in Indonesia focusing on coastal area of Jakarta, Pekalongan, Semarang and Demak in the northern part of Java Island. Geo-spatial data, i.e. satellite images and maps were used to monitor the environmental changes and primary data were obtained through field survey and observation on the specified area. In Jakarta, sea level rise has been predicted to bring great damages to infrastructure in coastal area. Multiple impacts of sea level rise towards mangrove, agriculture, and aquaculture ecosystem occurs in Pekalongan. Semarang coastal area also suffers from the widening spread of health problems as the coastal inundation increases. At the same time, Demak experiences major losses on mangrove and aquaculture ecosystem due to sea level rise.
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Ondara, Koko, Try Altanto, Guntur Adhi Rahmawan, Ruzana Dhiauddin, Ulung Jantama Wisha, and Nia Naelul Hasanah Ridwan. "Hydro-Oceanographic and Water Quality Assesments As a Basis for the Development of Offshore Aquaculture in the Weh Island, Aceh Province, Indonesia." Aceh International Journal of Science and Technology 8, no. 2 (August 31, 2019): 76–85. http://dx.doi.org/10.13170/aijst.8.2.12362.

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The waters of Weh Island, Aceh Province has potency become the area for offshore aquaculture. Offshore Floating Net Cages can be an appropriate technology in increasing the biomass cultivation in Weh Island waters. However, no feasibility study has been done. Therefore, this study aims to examine the suitability of offshore aquaculture locations in the East and South regions of Weh Island Based on Hydro-oceanography parameters. The parameters examined were water quality parameters such as temperature, brightness, pH, salinity and dissolved oxygen. In addition, we also examined the aspects of physical oceanography such as tides, currents and bathymetry. The results show that the water depth ranged from 0-57 m. The tidal type in the Weh Island waters is mixed tide prevailing semidiurnal with the tidal range of 1.9 m. The average of current speed ranged from 19.03-37.67 cm/s with the directions predominantly toward northwest and southeast. It is concluded that the water quality data show that the eastern and southern parts of Weh Island are categorized as the feasible locations for offshore aquaculture. Keywords: Sabang, Hydro-oceanography, Fisheries, Offshoreaquaculture, Floating net cages
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