Brace for the wave: planning for and responding to marine disease emergencies [0.03%]
未雨绸缪:应对海洋疾病突发事件的规划与响应策略
Sarah A Gravem,Laurel C Field,Silke Bachhuber et al.
Sarah A Gravem et al.
Marine diseases are increasing globally, posing significant threats to both marine and human populations. Establishing ecosystem health baselines, detecting emerging diseases in marine wildlife and responding in time to manage an outbreak r...
Fishery-dependent data and oceanographic model hindcasts inform potential drivers of an emerging syndrome in snow crab [0.03%]
基于渔业数据和海洋模式回顾分析揭示了雪蟹新兴综合症的潜在驱动因素
Reyn M Yoshioka,Benjamin J Daly,Darren J Pilcher et al.
Reyn M Yoshioka et al.
Infectious marine diseases are often highly sensitive to shifting environmental conditions. Data limitations in difficult to access species often impede marine disease investigation. However, fishery-dependent data can allow for expanded co...
Current contributions and future potential of genomics in combating marine diseases in a changing world [0.03%]
基因组学在应对变化世界中海洋疾病方面的当前贡献及未来潜力
Rose Ruiz Daniels,Darren Green,Rachel A Norman et al.
Rose Ruiz Daniels et al.
In an era of rapid environmental change, climate change, biodiversity loss and ecosystem degradation are making marine disease dynamics increasingly unpredictable. Despite their significant role in global disease transmission, marine diseas...
Elizabeth Ashley,Ralph Eric Thijl Vanstreels,Michelle Barbieri et al.
Elizabeth Ashley et al.
Since 2020, H5Nx high pathogenicity avian influenza viruses (HPAIVs) have caused widespread disruptions not only to global agriculture and trade but also to the health of free-ranging wildlife. Pinnipeds have experienced greater mortality f...
Changes in transmission rates drive seasonal patterns of shrimp Black Gill disease [0.03%]
传播率的变化驱动了虾黑鳃病的季节性模式
Megan Tomamichel,Tina Walters,Elianna Fox et al.
Megan Tomamichel et al.
Quantifying the processes affecting disease dynamics is critical for informing management strategies. We present the results of a series of experiments and mechanistic models that disentangle the roles of disease transmission and host densi...
Salt in the wound: consequences of changing salinities on marine disease [0.03%]
雪上加霜:海水盐度变化对海洋疾病的影响
Melissa M Rocker,Reyn M Yoshioka,Kirsten E Johnston et al.
Melissa M Rocker et al.
Salinity plays an important role in the physiology of marine organisms and their pathogens. As the climate continues to change, marine and estuarine salinities may become more extreme and irregular, potentially altering host-pathogen intera...
Long-term field survey reveals salinity as key determinant of estuarine host infection by a non-native castrating parasite [0.03%]
长期野外调查显示盐度是非本地雄性绝育寄生虫感染河口宿主的关键决定因素
Darby Pochtar,Gregory Ruiz,Carolyn Tepolt et al.
Darby Pochtar et al.
Long-term ecological studies are essential for understanding community structure and change. In estuaries, dynamic environmental gradients drive spatiotemporal shifts in populations through complex abiotic and biotic interactions. Biologica...
Vaccines and antimicrobial resistance-a veterinary pharmaceutical industry perspective [0.03%]
从兽药行业的角度看疫苗和抗生素抗性问题
Frederic Descamps,Leentje Dreesen,Simon Sunderland
Frederic Descamps
Resistance to antimicrobials is a growing global concern for public and animal health. There is increasing pressure aimed at reducing the use of antimicrobials in food-producing animals in the European Union (EU) and elsewhere through imple...
Vaccines and antimicrobial resistance: from science to policy-summary and outcomes [0.03%]
从科学到政策:疫苗和抗菌素耐药性问题——总结与展望
Calman A MacLennan,Mateusz Hasso-Agopsowicz,Kelvin M Abuga et al.
Calman A MacLennan et al.
In April 2024, the Royal Society convened a Science+ meeting in London on 'Vaccines and antimicrobial resistance: from science to policy'. The purpose was to review the science of how vaccines reduce antimicrobial resistance (AMR) and discu...
William P Hausdorff
William P Hausdorff
Vaccines are incredibly powerful public health tools, but their roles in helping to control anti-microbial resistance (AMR) have been both under- and over-estimated by the public and by the scientific community. Part of the explanation lies...