Experimental evidence for the selection of salinity-tolerant ecotypes of the Microcystis aeruginosa complex [0.03%]
盐胁迫下微囊藻生态型的筛选及适应性进化研究
Gabriela Martínez de la Escalera,Angel M Segura,Carla Kruk et al.
Gabriela Martínez de la Escalera et al.
Microcystis aeruginosa complex (MAC) generate harmful blooms in multiple aquatic ecosystems, from freshwater to estuaries. The intra-complex genetic diversity and its phenotypic plasticity emerge as the main hypothesis of ecological success...
Systems to monitor and forecast pelagic Sargassum inundation of coastal areas across the North Atlantic: present tools and future needs [0.03%]
用于监测和预测北大西洋沿海地区漂浮马尾藻侵扰的系统:当前工具与未来需求
Nathan F Putman,R Taylor Beyea,Emilie G Ackerman et al.
Nathan F Putman et al.
Massive blooms of pelagic Sargassum, a brown macroalgae, have become a seasonally recurrent phenomenon in the Tropical Atlantic since 2011. These blooms have resulted in inundations along coastlines in western Africa and throughout the Intr...
Effects of nutrient depletion duration on growth, photosynthesis and toxins (OA and DTX) in the dinoflagellate Prorocentrum lima [0.03%]
养分耗尽时间对鱼禾叶藻生长、光合作用和毒素(OA和DTX)的影响
Jeong Hwa Hwang,Ji-Sook Park,Young-Seok Han et al.
Jeong Hwa Hwang et al.
Prorocentrum lima is a marine benthic dinoflagellate known for producing toxins such as okadaic acid (OA) and dinophysistoxin (DTX), which cause diarrheal shellfish poisoning (DSP). P. lima is known to increase toxin production under low nu...
Effects of peroxide-based compounds on growth and toxicity of Microcystis aeruginosa [0.03%]
过氧化合物对微囊藻生长及其毒性的影响
Miquel Lürling,Ziwei Liao,Li Kang et al.
Miquel Lürling et al.
Cyanobacterial blooms are increasing worldwide, compromising water bodies and ecosystem services. Among the possible management measures are curative methods, such as hydrogen peroxide, that can suppress cyanobacteria growth. However, the r...
Multi-trophic paralytic shellfish toxin risk and management across seafood sectors in Tasmania [0.03%]
塔斯马尼亚州多营养级贝类麻痹毒风险及管理措施跨海域评估
Alison Turnbull,Steven Rust,Deborah Bermudes et al.
Alison Turnbull et al.
Multi-trophic biotoxin risk management is critically important to regions that suffer from extensive blooms of paralytic shellfish toxin (PST) producing algae. In Australia, Tasmania's east and south-east coasts are hotspots for PST activit...
Responses of a harmful algal bloom-causing dinoflagellate Prorocentrum obtusidens to elevated temperature and urea [0.03%]
温度和尿素升高对造成赤潮的真核鞭毛生物短圆藻的响应机制研究
Wei-Ping Zhang,Yang Zhou,Wen-Jing Sun et al.
Wei-Ping Zhang et al.
Elevated temperature and nitrogen (N) availability affect dinoflagellates differently; however, their interactive effects remain largely unexplored. This study investigated the physiological and transcriptomic responses of a harmful algal b...
Microbial community dynamics and first quantification of the toxin domoic acid in a eutrophic bay in the United Arab Emirates [0.03%]
富营养化海湾中的微生物群落动态及石房蛤毒素首次量化测定
Carly M Moreno,Iulia Bibire,Amira Mustafina et al.
Carly M Moreno et al.
The marine planktonic community (eukaryotic, bacterial and archaeal) has been little investigated in the Persian/Arabian Gulf (PAG), despite its crucial role in sustaining biogeochemical cycles and the ecological health of this subtropical ...
Context-dependent allelopathy in algal interactions: Insights from laboratory and natural phytoplankton communities [0.03%]
基于实验室和自然浮游植物群落的藻类相互作用的环境依赖性他感作用
Kristy S Syhapanha,Remington X Poulin,David A Russo et al.
Kristy S Syhapanha et al.
A key aspect of algal biology is the production of chemicals used for communication and regulation of interactions. Allelopathic chemicals can facilitate competition between algae, influence community composition and drive succession in the...
Morphology vs. toxicity: How temperature reshapes Microcystis' adaptive strategies in a warming world? [0.03%]
形态与毒性:温度如何重塑水华藻在变暖世界中的适应策略?
Yan Xiao,Xiaohan Yu,Dianchang Wang et al.
Yan Xiao et al.
Global warming and eutrophication have synergistically intensified cyanobacterial blooms, with Microcystis posing significant ecological and health risks due to microcystin (MC) production. This study investigated how temperature gradients ...
Intraspecific differences in the effects of salinity and light on growth and prymnesin cell quota in Prymnesium parvum [0.03%]
盐度和光照对聚球藻(parvum)生长及细胞比例的种内差异影响研究
Fredrik Ryderheim,Elizabeth M Mudge,Andrea Budiša et al.
Fredrik Ryderheim et al.
The haptophyte Prymnesium parvum produces large polyether compounds (prymnesins) with lytic properties that accumulate in the cell or may be released into the surrounding environment. At high cell abundances the prymnesins cause devastating...