2017年中,在很多期刊文献中发现了在现场使用FastOcean FRRf的案例。FRRf技术是一种估算水体总初级生产力的强大工具,也可以用来评价浮游植物群落的健康状态。
下列已发表的文章能够体现FastOcean FRRf的广泛应用,其中包括了:调查南大洋的浮游植物生理状态随Fe含量的变化;比对海洋酸化和辐射对不同种类浮游植物光生理状态的影响;研究在硅藻中银纳米粒子的毒性效应。
有篇文章专门比较了估算初级生产力PP的方法,并指出FRRf在空间分布及自动化测量方面的优势(Kromkamp et al. 2017)。
这些文章强调了FastOcean FRRf在原位测量初级生产力PP在时空分布和连续测量方面技术优势,对于其研究全球浮游植物群落组成及其应对环境变化的响应方面很有帮助!
1. Blanco-Ameijeiras, S. Cosio, C. Hassler, C.S. Department for Environmental and Aquatic Sciences. Long-Term Acclimation to Iron Limitation Reveals New Insights in Metabolism Regulation of Synechecoccus sp. PCC7002. Frontiers in Marine Science – 2017. 4:247:1-13. Link
2. Deng, Y. Hu, Z. Shang, L. Peng, Q. Tang, Y.Z. Laboratory of Marine Ecology and Environmental Sciences, Institute of Oceanology. Transcriptomic Analyses ofScrippsiella trochoiea Reveals Processes Regulating Encystment and Dormancy in the Life Cycle of a Dinoflagellate, with a Particular Attention to the Role of Abscisic Acid. Frontiers in Microbiology – 2017. 8:2450:1-19. Link
3. Fujise, L. Nitschke, M.R. Frommlet, J.C. Serodio, J. Woodcock, S. Ralph, P.J. Suggett, D.J. Cell Cycle Dynamics of Cultured Coral Endosymbiotic Microalgae(Symbiodinium) Across Different Types (Species) Under Alternate Light and Temperature Conditions. J. Eukaryot. Microbiol. – 2018. Accepted author manuscript. Link
4. Goyen, S. Pernice, M. Szabo, M. Warner, M.E. Ralph, P.J. Suggett, D.J. A molecular physiology basis for functional diversity of hydrogen peroxide production amongst Symbiodinium spp. (Dinophyceae). Marine Biology – 2017. 164:46:3073-3075. Link
5. Kromkamp, J. Capuzzo, E. & Philippart, C.J.M. NIOZ, Royal Netherlands Institute for Sea Research. Measuring phytoplankton primary production: review of existing methodologies and suggestions for a common approach. EcApRHA Deliverable – 2017. Download
6. Lodeiro, P. Browning, T.J. Achterberg, E.P. Guillou, A. El-Shawawi, M.S. Ocean and Earth Science, National Oceanography Centre. Mechanisms of silver nanoparticle toxicity to the coastal marine diatom Chaetoceros curvisetus. Nature Scientific Reports – 2017. 7:10777:1-10. Link
7. Ryan-Keogh, T.J. Thomalla, S.J. Mtshali, T.N. Little, H. Southern Ocean Carbon and Climate Observatory, Natural Resources and Environment. Modelled estimates of spatial variability of iron stress in the Atlantic sector of the Southern Ocean. Biogeosciences – 2017. 14:3883-3897. Link
8. Trimborn, S. Thoms, S. Brenneis, T. Heiden, J.P. Beszteri, S. Bischof, K. Department of Biogeosciences, Alfred Wegner Institute for Polar and Marine Research.Two Southern Ocean diatoms are more sensitive to ocean acidification and changes in irradiance than the prymnesiophyte Phaeocystis antarctica. Physiologia Plantarum – 2017. 160:155-170. Link