<p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: Arial, sans-serif; font-size: 10pt; ">Researchers at NOAA's Milford Laboratory in Milford, Conn. have shown that naturally-occurring bacteria isolated from the digestive glands of adult eastern oysters (Crassostrea virginica) and northern bay scallops (Argopecten irradians irradians) may be used as potential probiotic candidates in oyster larviculture.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">Two related research studies published in the Journal of Shellfish Research identify a new probiotic bacterium, designated OY15, which has been shown to significantly improve larval survival in pilot-scale trials during the first two weeks of life, the most critical stage for the organism when mortality rates are among the highest.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">"We are cautiously optimistic that this probiotic candidate, OY15, will offer a number of significant benefits to the shellfish industry," said Gary Wikfors, co-author of both studies and head of the Milford Laboratory's Biotechnology Branch. "Commercial and public shellfish hatcheries can have low survival rates for shellfish seed during the first two weeks, so improving those survival rates and the health of the organisms beyond that point is a pretty significant step forward."<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">Hatcheries produce shellfish seed to supplement natural seed, which is often limited by loss of habitat, contamination from pollution, climate change and other factors. Bacterial diseases caused mainly by pathogenic bacteria such as Vibrio are a major cause of mortality in hatchery shellfish, particularly at the very early larval stage. The result: significant financial losses to commercial growers and to production of farmed shellfish, which accounts for 25 percent of the total world aquaculture product.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">Antimicrobial drugs approved for use in aquaculture in some countries, but not the US, have traditionally been used to treat bacterial diseases, but overuse of antibiotics can result in the development of resistant strains of bacterial pathogens. The use of probiotic bacteria has become increasingly popular for improved nutrition, healthy digestion and disease prevention and is used in human foods like yogurt and in pet foods.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">As demand for environmentally-friendly aquaculture grows, the use of probiotics for disease prevention and improved nutrition in shellfish aquaculture is also growing. While a number of research studies have shown promise, development of probiotics that can be used in aquaculture is a multistep process requiring fundamental research and full-scale trials.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">"The objective of the first part of this study was to isolate and evaluate new probiotic bacteria which, when incorporated into foods used in shellfish hatcheries, might significantly improve larval survival," said co-author Diane Kapareiko, a microbiologist at the Milford Laboratory. The second part of the study was to test the new probiotic candidate on the survival of oyster larvae in pilot-scale trials during their first two weeks of life.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">"We conducted a very cautious, step by step study, to identify the best candidates under a variety of scenarios," Wikfors said. "Our bench-scale challenge studies indicated that oyster larvae exposed to probiotic candidate OY15 had the highest survival rate, and that the survival of pathogen-challenged larvae was further improved by the presence of OY 15 compared to the pathogen alone. It is somewhat analogous to a human building up immunity to a certain organism by being exposed to it, but without the involvement of antibodies."<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">The Milford scientists isolated 26 candidate probiotic bacteria from oysters and scallops of which 16 had an inhibitory effect against a known shellfish-larval pathogen (B183) of the Vibrio species of bacteria. Further screening for safe use in culturing the oyster larvae and their microalgal feed indicated which probiotic candidates would inhibit growth of the pathogen most effectively and therefore could confer a protective effect upon oyster larval survival.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">Lab studies indicated that survival of two-day old oyster larvae during two-week pilot scale trials improved when supplemented with the probiotic candidate OY15 strain. Four treatments were conducted: a larval control with no bacteria, a pathogen control with larvae and pathogen B183 only, a probiotic control with larvae and probiotic candidate OY15 only, and a combination treatment comprised of larvae and both probiotic and pathogen.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">"Our research focused on the critical first stage of larval growth, when mortality rates are among the highest," Kapareiko said. Positive effects of probiotic candidate OY15 were found on the survival of oyster larvae (short term), on growth of phytoplankton used as larval feed, and upon oyster survival during pilot-scale larviculture conditions.<o:p></o:p></span></span></p> <p style="text-align: justify; line-height: 15pt; margin: 6pt 0in 0pt" class="MsoNormal"><span class="story1"><span style="font-family: 'Arial','sans-serif'; font-size: 10pt">"This two-part study confirms that use of naturally-occurring probiotic bacteria confers protection to oyster larvae against bacterial disease and improves their survival," Kapareiko said. "The results can be used as guidelines for isolating and screening other potential probiotic candidates for similar aquaculture applications, and provide the basis for developing functional foods for use in shellfish hatcheries that incorporate a naturally occurring, probiotic bacteria."<o:p></o:p></span></span></p>
(seafood.vasep.com.vn) Da Nang City has fully implemented all recommendations from the European Commission (EC) regarding the fight against illegal, unreported and unregulated (IUU) fishing, creating an important foundation for the removal of the “yellow card” in the near future.
(seafood.vasep.com.vn) In Hoa Vang district (Da Nang City), red tilapia farming is demonstrating clear economic efficiency, becoming a promising livelihood that helps many households increase their income. A notable example is the model of Mr. Huynh Ngoc Nam, who operates two red tilapia ponds covering more than 4 hectares, generating stable annual income.
(seafood.vasep.com.vn) In Gia Vien district, tilapia farming—particularly the “duong nghiep” strain—is expanding rapidly and gradually becoming an efficient production model for local farmers. Hatcheries in the area are supplying high-quality, uniform, and disease-free fingerlings, meeting the growing demand for commercial farming.
(seafood.vasep.com.vn) On the afternoon of March 19, Vice Chairman of the Ca Mau Provincial People’s Committee, Le Van Su, chaired a meeting to address bottlenecks and propose solutions to expand the super-intensive whiteleg shrimp farming model using low water exchange and high biosecurity standards (RAS-IMTA).
(seafood.vasep.com.vn) On March 10, 2026, the Ho Chi Minh City People’s Committee issued Decision No. 1377/QD-UBND approving the Aquatic Animal Disease Prevention and Control Plan for the 2026–2030 period. The decision takes effect from the date of signing and replaces previous plans for the 2021–2030 period that had been issued prior to the administrative merger in Ba Ria – Vung Tau, Binh Duong, and Ho Chi Minh City.
(vasep.com.vn) In 2025, Chile imported more than USD 156 million worth of tuna, up 8.1% compared to the previous year and the highest level in the past five years. As the supply structure in this market is rapidly shifting, Vietnamese tuna is facing both opportunities to expand market share and increasing competitive pressure from Thailand, Colombia, and China.
(seafood.vasep.com.vn) Vinh Long Province is stepping up efforts to develop brackish water shrimp farming in a sustainable direction, identifying it as a key sector in its agricultural structure. In 2026, the province aims to reach around 71,300 hectares of shrimp farming, with an output of over 314,000 tons.
(seafood.vasep.com.vn) Ha Tinh Province is strengthening control over shrimp seed quality to minimize risks for the 2026 spring–summer farming season.
(seafood.vasep.com.vn) In February 2026, Vietnam’s pangasius exports reached USD 119 million, down slightly 5% year-on-year. However, thanks to strong performance in January, cumulative exports in the first two months of the year still reached USD 331 million, up 28% compared to the same period in 2025. Export activity slowed somewhat in February due to seasonal factors, particularly the Lunar New Year holiday, which disrupted production and shipments at many seafood processing enterprises.
(seafood.vasep.com.vn) Da Nang is accelerating the development of high-tech shrimp farming toward intensive production, disease control, and improved efficiency. Many shrimp farms have invested in automated environmental monitoring systems, continuously tracking indicators such as pH, dissolved oxygen, temperature, and salinity, enabling farmers to promptly adjust pond conditions and reduce disease risks.
VASEP - HIỆP HỘI CHẾ BIẾN VÀ XUẤT KHẨU THỦY SẢN VIỆT NAM
Chịu trách nhiệm: Ông Nguyễn Hoài Nam - Phó Tổng thư ký Hiệp hội
Đơn vị vận hành trang tin điện tử: Trung tâm VASEP.PRO
Trưởng Ban Biên tập: Bà Phùng Thị Kim Thu
Giấy phép hoạt động Trang thông tin điện tử tổng hợp số 138/GP-TTĐT, ngày 01/10/2013 của Bộ Thông tin và Truyền thông
Tel: (+84 24) 3.7715055 – (ext.203); email: kimthu@vasep.com.vn
Trụ sở: Số 7 đường Nguyễn Quý Cảnh, Phường An Phú, Quận 2, Tp.Hồ Chí Minh
Tel: (+84) 28.628.10430 - Fax: (+84) 28.628.10437 - Email: vasephcm@vasep.com.vn
VPĐD: số 10, Nguyễn Công Hoan, Ngọc Khánh, Ba Đình, Hà Nội
Tel: (+84 24) 3.7715055 - Fax: (+84 24) 37715084 - Email: vasephn@vasep.com.vn