October 11. 2021
Regional Fish Institute, Ltd.
Okumura Corporation
NTT DOCOMO, Inc.
Iwatani Corporation
Verification Experiment to Develop Optimal Smart Aquaculture Package of Whiteleg Shrimp
Started
~Aiming to Develop an Efficient Cultivation Method Using Completely Domestically Produced
Fry in an Environment of Dependence on Imports~
Regional Fish Institute, Ltd. (hereinafter referred to as "Regional Fish"), Okumura Corporation ("Okumura"), NTT DOCOMO, Inc. ("NTT DOCOMO"), and Iwatani Corporation ("Iwatani") started a verification experiment to identify the optimal method and conditions for cultivating whiteleg shrimps (Litopenaeus vannamei)*1 by combining the technical strengths of the four companies. Through the open innovation realized by the collaboration between Regional Fish, which succeeded in the domestic production of whiteleg shrimp fry, and other three companies having Japan's leading technological capabilities, we aim for the completion of a whiteleg shrimp cultivation package that will achieve the highest productivity.
Whiteleg shrimp fry
Whiteleg shrimps are the most consumed shrimps in the world. Most are small with each weighing
about 15 to 18 grams. In Japan, they are used in a wide range of menus, such as sushi toppings and deep-fried shrimps or sold as shelled shrimps. The whiteleg shrimp fry for cultivation are imported in many cases and specified diseases*2 of foreign origin have often caused damage. Fish farmers are always exposed to the risk of diseases that can totally damage their shrimps.
To solve this problem, the four companies will work together to identify the optimal cultivation method using domestically produced whiteleg shrimp fry. Using three 200-ton water tanks, we will implement a closed ecological recirculating aquaculture system*3 and a Biofloc fish farming system*4 at the same time. We will extract the advantages and disadvantages of each system to select the optimal cultivation method and find ways to make improvements.
These two systems are the prevailing methods for cultivating whiteleg shrimps. Both systems do not require any water changes and therefore have the advantage of reducing the risk of disease.
However, there have been no examples of comparative verification of the two systems on the scale of an actual farm, and we have no clear proof of which is superior. This is the reason we are going to conduct the verification using ICT and other means.
Schematic Diagrams of Closed Ecological Recirculating Aquaculture System and Biofloc Fish
Farming System
Closed ecological recirculating aquaculture system
Feed
Physical filtration tank | Biofiltration tank |
(Removing shed shell and | (Detoxification of |
fish excreta) | ammonia) |
Shed shell
fish excreta
Wasted feed
Biofloc fish farming system
Feed | Biofloc | ||
Source of carbon | |||
(Sugar, etc.) | (Mass of | Sedimentation tank | |
microorganisms) | |||
Foam fractionation
(Adjusting the volume of floc
Absorption
Regional Fish, Okumura, NTT DOCOMO, and Iwatani promote open innovation and contribute to the realization of sustainable fisheries by combining the technical strengths of each company as shown below.
Roles of Four Companies
Provision of domestically produced fry
Cultivation
Establishment | Establishmen | |
Biofloc | Closed ecological | |
recirculating | ||
Provision of a remote water quality monitoring system
Provision of an oxygen dissolution system
Construction of aquaculture tanks and implementation of aquaculture
1. Establishment of a closed ecological recirculating aquaculture system by Okumura
Okumura establishes a closed ecological recirculating aquaculture system and carries out closed ecological recirculating aquaculture. The company also verifies the optimization of various functions in this verification experiment, aiming at stable operation of the system.
2. Provision of domestically produced fry and establishment of a Biofloc fish farming system by Regional Fish
Regional Fish provides domestically produced whiteleg shrimp fry and carries out Biofloc fish farming. The company is the first enterprise in the world to succeed in editing the shrimp genome to promote further improvement of the breed.
Establishment of a remote water quality monitoring system and a cultivation environment suitable for growth
3. A remote water quality monitoring system based on the ICT buoy by NTT DOCOMO
NTT DOCOMO provides a remote water quality monitoring system using ICT, where the water temperature, dissolved oxygen, salt content, pH, and other measured water quality data can be checked on a smartphone via the Umimiru app. Data from another company's sensors (e.g. ammonia) are also provided via the Umimiru through API integration.
4. Highly efficient supply of oxygen using an oxygen dissolution system by Iwatani
For land-based aquaculture, an efficient oxygen supply is essential. Iwatani aims to increase yields by controlling the dissolved oxygen concentration at the optimum level using its high concentration oxygen dissolution system.
Notes:
*1 Whiteleg shrimps are the most consumed shrimps in the world and have a market of 5 million tons and 10 trillion yen (source: FAO, 2019). Most shrimps are small with each weighing about 15 to 18 grams. In Japan, they are used in a wide range of menus, such as sushi toppings and deep-fried shrimps or sold as shelled shrimps.
*2 A specified disease refers to an infectious disease of farm-raised aquatic animals and plants and not confirmed to have occurred in Japan or has occurred in only one part of Japan and which is specified by ordinance of the Ministry of Agriculture, Forestry and Fisheries as a disease likely to seriously injure farm-raised aquatic animals and plants if the disease spreads. (Article 2, Paragraph 2, of the Sustainable Aquaculture Production Assurance Act: https://elaws.e-gov.go.jp/document?lawid=411AC0000000051)
*3 Closed ecological recirculating aquaculture is a method that uses a filtration system to purify, circulate, and reuse water for fish farming.
*4 Biofloc fish farming is a method that purifies water by adding a source of carbon to the fish-farming water to create a mass of microorganisms called Biofloc and then use the ability of the microorganisms.
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Overview of Regional Fish Institute, Ltd. Representative: Tadanori Umekawa, President and CEO
Headquarters: International Science Innovation Building, Kyoto University, 36-1,Yoshida-Honmachi, Sakyo- ku, Kyoto
URL: https://regional.fish/ - Overview of Okumura Corporation
Representative: Takanori Okumura, President and Representative Director
Headquarters: 2-2-2Matsuzaki-cho,Abeno-ku, Osaka
URL: https://www.okumuragumi.co.jp/
- Overview of NTT DOCOMO, Inc. Representative: Motoyuki Ii, President and CEO
Headquarters: Sanno Park Tower, 2-11-1,Nagata-cho,Chiyoda-ku, Tokyo
URL: https://www.nttdocomo.co.jp - Overview of Iwatani Corporation
Representative: Hiroshi Majima, President
Headquarters: 3-6-4, Hommachi, Chuo-ku, Osaka
URL: http://www.iwatani.co.jp/
Media inquiries on this announcement to the following:
Regional Fish Institute, Ltd. | Okumura Corporation | NTT DOCOMO, Inc. | Iwatani Corporation |
Corporate Planning Dept. | New Business Development | Regional Co-Creation and ICT | PR Dept. |
Phone: +81-(0)75-600-2963 | Section, New Business | Promotion Office | Phone: +81-(0)6-7637-3468 |
Development Dept. | Phone: +81-(0)3-5156-2511 | ||
Phone: +81-(0)3-6628-8800 |
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Iwatani Corporation published this content on 19 October 2021 and is solely responsible for the information contained therein. Distributed by Public, unedited and unaltered, on 19 October 2021 03:11:02 UTC.