Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations
Аутори
Radosavljević, VladimirGlišić, Dimitrije
Ljubojević, Dragana
Pelić, Miloš
Jazić, Amina
Cvetkovikj, Aleksandar
Tavorpanich, Saraya
Конференцијски прилог (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The COST CA22160 Action "Enhancing knowledge of biomolecular solutions for the well-being of the
european aquaculture sector" (BioAqua), addresses critical biosecurity challenges in aquaculture by
leveraging advanced biomolecular innovations. As aquaculture continues to grow, it faces significant
threats from diseases and pathogens that can undermine its productivity and sustainability. BioAqua
aims to revolutionize biosecurity strategies within the industry by integrating multidisciplinary
approaches and pioneering biomolecular tools.WG1 Biomolecular solutions for water prophylaxis and
biosafety focuses on developing new proteins and biomarkers to enhance water prophylaxis and
biosafety in aquaculture systems. By identifying key biomarkers, this group aims to detect early signs
of disease or contamination in aquaculture environments, allowing for timely interventions. Research
efforts include discovering novel proteins and applying molecular techniques to monitor water qualit...y
and identify pathogenic threats, ensuring a safer aquaculture ecosystem. WG2 Biomolecular solutions
as alternative methods and tools for fish-farm production explores environmentally friendly and safe
treatments for aquaculture, emphasizing new molecular engineering methodologies and innovative
approaches. The goal is to reduce reliance on antibiotics and chemical treatments, addressing concerns
over antimicrobial resistance. WG 2 investigates molecular approaches such as CRISPR-based gene
editing, probiotics, and other bio-based treatments to enhance fish health and resilience while
minimizing environmental impacts. WG3 Fish welfare serves as a horizontal working group that
ensures biomolecular solutions explored in WGs 1 and 2 positively impact fish welfare. This group
considers aspects such as disease prevention, stress reduction, growth optimization, feeding efficiency,
and behavior. WG 3 integrates welfare standards into biomolecular innovations to ensure that
technological advancements improve fish quality of life and productivity without compromising their
well-being. WG4 Sustainability insights conducts in-depth analyses of the drivers and barriers related
to aquaculture sustainability and the adoption of solutions explored in WGs 1 and 2. This includes
examining regulatory aspects, proposing innovative veterinary applications, and developing fish
tracking systems. WG 4 addresses regulatory and sustainability challenges to facilitate the adoption of
new technologies, ensuring aquaculture practices remain economically viable and environmentally
responsible. WG5 Informed creativity focuses on research and innovation management, addressing the
technological, sectorial, territorial, policy-oriented, and social dimensions that impact research and the
uptake of results. WG 5 bridges the gap between innovation and practical application, promoting
collaboration, creativity, and informed decision-making across multiple stakeholders. This approach is
expected to improve biosecurity protocols, supporting healthier stocks and more sustainable practices
across the industry.
Кључне речи:
aquaculture biosecurity / biomolecular innovationsИзвор:
10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid, 2024, 58-58Издавач:
- Skopje : Faculty of veterinary medicine
Напомена:
- Book of abstracts
Институција/група
Naučni institut za veterinarstvo SrbijeTY - CONF AU - Radosavljević, Vladimir AU - Glišić, Dimitrije AU - Ljubojević, Dragana AU - Pelić, Miloš AU - Jazić, Amina AU - Cvetkovikj, Aleksandar AU - Tavorpanich, Saraya PY - 2024 UR - https://reponivs.nivs.rs/handle/123456789/1094 AB - The COST CA22160 Action "Enhancing knowledge of biomolecular solutions for the well-being of the european aquaculture sector" (BioAqua), addresses critical biosecurity challenges in aquaculture by leveraging advanced biomolecular innovations. As aquaculture continues to grow, it faces significant threats from diseases and pathogens that can undermine its productivity and sustainability. BioAqua aims to revolutionize biosecurity strategies within the industry by integrating multidisciplinary approaches and pioneering biomolecular tools.WG1 Biomolecular solutions for water prophylaxis and biosafety focuses on developing new proteins and biomarkers to enhance water prophylaxis and biosafety in aquaculture systems. By identifying key biomarkers, this group aims to detect early signs of disease or contamination in aquaculture environments, allowing for timely interventions. Research efforts include discovering novel proteins and applying molecular techniques to monitor water quality and identify pathogenic threats, ensuring a safer aquaculture ecosystem. WG2 Biomolecular solutions as alternative methods and tools for fish-farm production explores environmentally friendly and safe treatments for aquaculture, emphasizing new molecular engineering methodologies and innovative approaches. The goal is to reduce reliance on antibiotics and chemical treatments, addressing concerns over antimicrobial resistance. WG 2 investigates molecular approaches such as CRISPR-based gene editing, probiotics, and other bio-based treatments to enhance fish health and resilience while minimizing environmental impacts. WG3 Fish welfare serves as a horizontal working group that ensures biomolecular solutions explored in WGs 1 and 2 positively impact fish welfare. This group considers aspects such as disease prevention, stress reduction, growth optimization, feeding efficiency, and behavior. WG 3 integrates welfare standards into biomolecular innovations to ensure that technological advancements improve fish quality of life and productivity without compromising their well-being. WG4 Sustainability insights conducts in-depth analyses of the drivers and barriers related to aquaculture sustainability and the adoption of solutions explored in WGs 1 and 2. This includes examining regulatory aspects, proposing innovative veterinary applications, and developing fish tracking systems. WG 4 addresses regulatory and sustainability challenges to facilitate the adoption of new technologies, ensuring aquaculture practices remain economically viable and environmentally responsible. WG5 Informed creativity focuses on research and innovation management, addressing the technological, sectorial, territorial, policy-oriented, and social dimensions that impact research and the uptake of results. WG 5 bridges the gap between innovation and practical application, promoting collaboration, creativity, and informed decision-making across multiple stakeholders. This approach is expected to improve biosecurity protocols, supporting healthier stocks and more sustainable practices across the industry. PB - Skopje : Faculty of veterinary medicine C3 - 10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid T1 - Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations EP - 58 SP - 58 ER -
@conference{ author = "Radosavljević, Vladimir and Glišić, Dimitrije and Ljubojević, Dragana and Pelić, Miloš and Jazić, Amina and Cvetkovikj, Aleksandar and Tavorpanich, Saraya", year = "2024", abstract = "The COST CA22160 Action "Enhancing knowledge of biomolecular solutions for the well-being of the european aquaculture sector" (BioAqua), addresses critical biosecurity challenges in aquaculture by leveraging advanced biomolecular innovations. As aquaculture continues to grow, it faces significant threats from diseases and pathogens that can undermine its productivity and sustainability. BioAqua aims to revolutionize biosecurity strategies within the industry by integrating multidisciplinary approaches and pioneering biomolecular tools.WG1 Biomolecular solutions for water prophylaxis and biosafety focuses on developing new proteins and biomarkers to enhance water prophylaxis and biosafety in aquaculture systems. By identifying key biomarkers, this group aims to detect early signs of disease or contamination in aquaculture environments, allowing for timely interventions. Research efforts include discovering novel proteins and applying molecular techniques to monitor water quality and identify pathogenic threats, ensuring a safer aquaculture ecosystem. WG2 Biomolecular solutions as alternative methods and tools for fish-farm production explores environmentally friendly and safe treatments for aquaculture, emphasizing new molecular engineering methodologies and innovative approaches. The goal is to reduce reliance on antibiotics and chemical treatments, addressing concerns over antimicrobial resistance. WG 2 investigates molecular approaches such as CRISPR-based gene editing, probiotics, and other bio-based treatments to enhance fish health and resilience while minimizing environmental impacts. WG3 Fish welfare serves as a horizontal working group that ensures biomolecular solutions explored in WGs 1 and 2 positively impact fish welfare. This group considers aspects such as disease prevention, stress reduction, growth optimization, feeding efficiency, and behavior. WG 3 integrates welfare standards into biomolecular innovations to ensure that technological advancements improve fish quality of life and productivity without compromising their well-being. WG4 Sustainability insights conducts in-depth analyses of the drivers and barriers related to aquaculture sustainability and the adoption of solutions explored in WGs 1 and 2. This includes examining regulatory aspects, proposing innovative veterinary applications, and developing fish tracking systems. WG 4 addresses regulatory and sustainability challenges to facilitate the adoption of new technologies, ensuring aquaculture practices remain economically viable and environmentally responsible. WG5 Informed creativity focuses on research and innovation management, addressing the technological, sectorial, territorial, policy-oriented, and social dimensions that impact research and the uptake of results. WG 5 bridges the gap between innovation and practical application, promoting collaboration, creativity, and informed decision-making across multiple stakeholders. This approach is expected to improve biosecurity protocols, supporting healthier stocks and more sustainable practices across the industry.", publisher = "Skopje : Faculty of veterinary medicine", journal = "10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid", title = "Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations", pages = "58-58" }
Radosavljević, V., Glišić, D., Ljubojević, D., Pelić, M., Jazić, A., Cvetkovikj, A.,& Tavorpanich, S.. (2024). Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations. in 10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid Skopje : Faculty of veterinary medicine., 58-58.
Radosavljević V, Glišić D, Ljubojević D, Pelić M, Jazić A, Cvetkovikj A, Tavorpanich S. Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations. in 10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid. 2024;:58-58..
Radosavljević, Vladimir, Glišić, Dimitrije, Ljubojević, Dragana, Pelić, Miloš, Jazić, Amina, Cvetkovikj, Aleksandar, Tavorpanich, Saraya, "Bioaqua - enhancing aquaculture biosecurity through biomolecular innovations" in 10th International Scientific Meeting Days of Veterinary Medicine – 2024 and 2nd European Conference on Veterinary and Medical Education, 22-25 September 2024, Ohrid (2024):58-58.