WWW.WAS.ORG • WORLD AQUACULTURE • SEPTEMBER 2025 51 EXPRO AI™ THIS CHANGES EVERYTHING SABETHA, KANSAS 66534 USA PHONE: +1 785 284 2133 WENGER.COM SABETHA, KANSAS 66534 USA PHONE: +1 785 284 2153 WWW.EXTRU-TECHINC.COM HOW CAN ARTIFICIAL INTELLIGENCE (AI) ENHANCE YOUR EXTRUSION OPERATIONS? Artificial intelligence in manufacturing monitors and analyzes large data sets over time to recognize process patterns and then uses learning and intelligence, similar to the human mind, to predict outcomes and make decisions to achieve pre-set goals. EXPRO AI™, Powered by TwinThread, applies advanced machine learning concepts to optimize extrusion cooking and drying processes used to produce pet food, human food, and aquatic feed. By monitoring and evaluating key variables throughout the extrusion process, EXPRO AI can provide real-time situational predictions, recommendations, and automated actions to maximize product quality and process efficiency in a repeatable, consistent manner. Contact Wenger or Extru-Tech today. ET-398H.indd 1 5/12/25 4:43 PM Notes Niti Sharma,1 Suman Kumari,2* Sona Yengkokpam,1,3 B. C. Roy1 and Basanta Kumar Das.2 1 ICAR-Central Inland Fisheries Research Institute, Regional Centre, Guwahati, Assam; 2 ICAR-Central Inland Fisheries Research Institute, Barrackpore, West Bengal; 3 ICAR-National Academy of Agricultural Research Management, Hyderabad, Telangana. * Corresponding author: Dr. Suman Kumari, sumankumari. icar11@gmail.com Suggested Reading Dutta, M., A., Pradhan, B. Mandal, and B. K. Mahapatra. 2020. Feeding and reproductive biology of blue perch, Badis badis (Hamilton, 1822) under captivity. International Journal of Fisheries and Aquatic Studies, 8(2): 98-102. Jakobsen, T., M. J. Fogarty, B. A. Megrey, and E. Moksness. 2016. Fish reproductive biology: implications for assessment and management. Chichester: Wiley-Blackwell Scientific Publications. Kullander, S. O. and R. Britz. 2002. Revision of the Family Badidae (Teleostei: Perciformes), with Description of a New Genus and Ten New Species. Ichthyological Exploration of Freshwaters, 13 (4): 295-372. Mahapatra, B. K. 2016. Biology of Badis badis (Ham., 1822) From North Eastern Hill Region. Journal of the Inland Fisheries Society of India, 48(1): 97-101. Sharma, N., S. Yengkokpam, B. C. Ray, D. Bordoloi, U. K. Sarkar and B. K. Das. 2024. Biometric features and reproductive biology of the dwarf chameleon fish Badis blosyrus from Brahmaputra River system of Assam, North-east India. Indian Journal of Fisheries, 71 (4): 151-156. In conclusion, the successful maturation and captive breeding of the dwarf chameleon fish, Badis blosyrus, mark a significant milestone in understanding and replicating its natural reproductive cycle. By ensuring optimal environmental conditions, maintaining suitable broodstock, and carefully managing spawning and larval development, this study demonstrates that natural breeding is a viable approach without the need for hormonal treatments. While this achievement lays the foundation for sustainable breeding, further efforts are needed to enhance mass production through meticulous monitoring, care, and feeding during the post-spawning period.
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