USF researchers among first to identify viruses linked to red tide, which could help predict future blooms
The Brief
Researchers at USF are among the first to identify viruses associated with red tide, which could help experts predict future blooms.
Just last month, Mote Marine Laboratory officials were monitoring red tide on Lido Beach where plenty of dead fish had washed ashore.
With these viruses identified, researchers can study how these viruses influence or affect Karenia brevis, the organism that causes red tide.
ST. PETERSBURG, Fla. - Researchers at the University of South Florida are among the first to identify viruses associated with red tide, which could help experts predict future blooms.
The USF team partnered with experts from the Florida Fish and Wildlife Conservation Commission's (FWC) Fish and Wildlife Research Institute (FWRI) to collect water samples containing red tide off the coast of southwest Florida.
RELATED: Dead fish washing ashore on Lido Beach as Mote Marine Laboratory confirms red tide
"We process the seawater samples in the lab, and we extract RNA and DNA from them to identify viruses associated with red tide blooms," scientific researcher Dr. Jean Lim told FOX 13.
Dig deeper
Red tide can kill fish and make humans sick. Just last month, Mote Marine Laboratory officials were monitoring red tide on Lido Beach where plenty of dead fish had washed ashore.
With these viruses now identified, researchers can study how these viruses influence or affect Karenia brevis, the organism that causes red tide.
Follow FOX 13 on YouTube
"So whether [the virus] inhibits the growth of Karenia brevis or even kills Karenia brevis. So that is the next very challenging step," Lim said.
Right now, experts rely on satellite imagery, water samples, and ocean circulation models to forecast the movement of red tide blooms. But, they're always looking for more tools to add to the toolbox.
"We know that it is a recurring problem that's not going to go away," Lim said of red tide.
What's next
Moving forward, Lim and her team will study the extent these viruses could control red tide. For example, whether an increased number of certain viruses could suggest a red tide bloom is about to begin.
READ:Mote Marine Laboratory sees a 70% kill rate during mitigation field testing
"Basically, the goal is to create better approaches to be able to forecast Karenia brevis blooms," Lim said.
Lim and her colleagues' study identifying viruses was recently published in the American Society for Microbiology's journal mSphere.
The Source
The information in this story was gathered through an interview with Dr. Jean Lim as well as the study published mSphere.
STAY CONNECTED WITH FOX 13 TAMPA:
Download the FOX Local app for your smart TV
Download FOX Local mobile app:Apple |Android
Download the FOX 13 News app for breaking news alerts, latest headlines
Download the SkyTower Radar app
Sign up for FOX 13's daily newsletter
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
a day ago
- Yahoo
Apple Watch 圈圈真的準?美國有研究指 Apple Watch 部份運動數據追蹤表現準度不足
Yahoo購物節,6月2至13日正式舉行!集合全球精選著數的網上大型購物節:波鞋低至36折、手袋低至4折、自助餐半價、旅遊產品買一送一等,更有獨家優惠為您而設,把握限時兩星期優惠,1Click買盡全世界! 早前消委會就發表智能手錶評測報告,強調智能手錶、手環的運動數據都是估算,只適宜作參考之用。其實智能手錶在追蹤不同數據時準度的確存在著誤差。最近美國就有研究指 Apple Watch 於運動時記錄燃燒了多少卡路里的數據,準度並不是想像中的高。 美國密西西比大學的研究人員做了一個關於 Apple Watch 的研究,分析了 56 數據得出一個整合分析,並以 Apple Watch 每一項的表現都與標準的醫療級工具進行了比較。結果顯示 Apple Watch 於測量心率及步數方面極大部份情況下是準確的。研究人員指,測心率與步數的平均絕對百分比誤差(即衡量準確度的標準指標)分別為 4.43% 與 8.17%,然而估算燃燒了卡路里數據表現就達 27.96%。對於一般大眾買到的穿戴式裝置而言,低於 10% 的誤差值表現已被視為「十分優秀」,但研究團隊測試 Apple Watch 在走路、跑步、混合強度訓練和踩單車等多種活動中計算用戶燃燒了多少卡路里的數據時,卻發現其估算值大幅超出可接受範圍。 不過研究人員同時指出,這個數據本身就相當難以估算,因為涉及許多變數如體重及運動方式等等。因此,不要把每個數字都當作 100% 準確,而是可當成其中一種鼓勵的工具,達至恆常運動、保持追蹤習慣並維持動力。團隊還指出,目前 Apple Watch 的準確度已提高了不少,顯示蘋果在硬體及演算法方面都在逐步改進,而指出弱點可幫助開發者獲得更真實的回應建議,協助他們進一步研究,以製出更好的感應器或演算法,提升智能手錶追蹤健康數據的表現。 更多內容: 9to5mac 消委會試智能手錶運動偵測,Garmin 最貴最高分,一款千元級高評分!Apple、Samsung、華為各有高低 智能手錶推薦 2025 | Apple、三星、Garmin 如何選?三鐵、跑山、單車各有不同,睇清楚點揀! 緊貼最新科技資訊、網購優惠,追隨 Yahoo Tech 各大社交平台! 🎉📱 Tech Facebook: 🎉📱 Tech Instagram: 🎉📱 Tech WhatsApp 社群: 🎉📱 Tech WhatsApp 頻道: 🎉📱 Tech Telegram 頻道:
Yahoo
a day ago
- Yahoo
UH: Urgent response required to save world's coral reefs
HONOLULU (KHON2) — A study by researchers at University of Hawaiʻi at Mānoa's Hawaiʻi Institute of Marine Biology found that coral reefs are less frequent in the tropics due to warming oceans. The research found that the reefs are unable to beat the heat and effects of climate change, which rings the emergency alarm for conservationists. 8 takeaways from Hawaiʻi's top ranking for school lunches However, there is still hope, as the research showed that immediate actions to reduce greenhouse gas emissions can improve the future of these iconic ocean scenes across the planet. 'As the ocean warms, species tend to move poleward,' said lead author Noam Vogt-Vincent, lead author of the study. 'We know from the fossil record that coral reefs have previously expanded their ranges in response to past climate change, but we didn't know whether this was a matter of decades or millennia.' In order to predict changes in the distribution of these reefs, the research team used complex simulation models running on UH's high-performance computing cluster. The team created a global model including approximately 50,000 coral reef sites to the model, the researches tested three future emissions scenarios: one with low warming, around two degrees Celsius, a moderate warming scenario, around three degrees Celsius and a high warming model, which is greater than four degrees Celsius. 'By modeling coral reefs globally and incorporating evolution and connectivity, this study provides an unprecedented long-term view of how these complex ecosystems will respond to climate change,' said research professor Lisa McManus. Provided the current condition of the climate on coral reefs, the researchers found both good news and bad news. Download the free KHON2 app for iOS or Android to stay informed on the latest news 'Unfortunately, while we've confirmed that coral reef range expansion will indeed eventually occur, the biggest coral losses are expected in the next 60 years, meaning these new, higher-latitude reefs won't form fast enough to save most tropical coral species,' Vogt-Vincent said. While northern Florida, southern Australia and southern Japan may see new reefs in the future, they will not be in existence soon enough to help corals survive through the century, UH said. While the future seems bleak, there is still hope, with significant cuts in emissions, such as those outlined in the Paris Climate Agreement, could dramatically reduce the loss of coral. Aliʻi Drive to revert to a two-way street Currently, coral reduction is on track to lose up to 86% of coral reefs; but with lower emissions, losses could be reduced to only around 33% of coral reefs. 'Our study suggests that reductions in greenhouse gas emissions will not just improve coral reef futures this century, but for hundreds to thousands of years into the future,' Vogt-Vincent said. 'Our actions over the next few decades will therefore have incredibly long-lasting consequences for coral reefs globally.' Researchers will continue to monitor reef levels with their supercomputer power to try to better understand both threats and solutions surrounding the world's coral reefs. For more information, visit the Hawaiʻi Institute of Marine Biology's website. Copyright 2025 Nexstar Media, Inc. All rights reserved. This material may not be published, broadcast, rewritten, or redistributed.
Yahoo
2 days ago
- Yahoo
Student-led research deploys AI to spot stealthy Android malware
LAKELAND, Fla., June 6, 2025 /PRNewswire/ -- Researchers at Florida Polytechnic University have developed an artificial intelligence technique that can detect elusive malware known as remote access trojans (RATs) on Android devices. The breakthrough could help protect millions of users from cybercriminals who use RATs to steal personal information and control devices without detection. Nesreen Dalhy B.S. '23, M.S. '25 worked with Dr. Karim Elish, associate professor of computer science at Florida Poly, to identify new, more effective ways to detect this malicious software as part of her master's thesis. "RATs are a significant cybersecurity threat – they are particularly hard to detect, remain persistent and attempt to steal as much of your data as possible," said Dalhy, who has bachelor's and master's degrees in computer science from the University. "A lot of the existing research tries to identify general types of malware, but there isn't much that specifically tries to detect RATs." Dalhy, from Davenport, Florida, said RATs have been a problem for years, evolving alongside technology. They continually find new ways to stay hidden in smartphones and steal users' personal information. Androids account for over 80% of the world's mobile devices. "It can silently run in the background of your phone and spy on you without you realizing it," she said. "When you're using an app, you're just seeing whatever is on the screen and not everything that is going on, and that's what RATs take advantage of." It's under this cyber cloak that the malware can take control of an Android device to make calls, send messages, record audio or video, or even encrypt the device's files and demand a ransom. Dalhy and Elish trained a machine learning model to focus only on narrow samples of malware to identify and differentiate specific RAT patterns. By using different threat intelligence databases, they were able to analyze which malware exhibited RAT behavior and use RAT characteristics to highlight more of the smaller samples for detection. Elish, an expert on Android security, said three models they developed detected almost all RATS with 99% accuracy. The next steps for this work will be developing a mobile application based on its results and expanding the research model to detect a broader range of malware families to improve its utility and effectiveness. "Nesreen did amazing work that will have a lot of impact on the community," Elish said. "I am very proud of her work and that we are able to publish this and present it at an important conference." Dalhy and Elish presented the research at the industry-leading IEEE/ACIS International Conference on Software Engineering, Management and Applications in May. View original content to download multimedia: SOURCE Florida Polytechnic University
