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Nicol, Stephen Korea Institute of Ocean ScienceTechnology 2003 Ocean and Polar Research Vol.25 No.4
The distribution and abundance of Antarctic krill (Euphausia superba), particularly in the South Atlantic, has traditionally been viewed as primarily determined by the flow of the Antarctic Circumpolar Current. Krill are viewed as being particles on a conveyor belt that carries them around the Antarctic continent resulting in a single circumpolar population. The evidence to support this viewpoint is largely circumstantial and there is very little direct evidence available of krill being moved by the currents-krill flux. There is also considerable biological and physical evidence which suggests that other factors may play a dominant role in the life history and distribution of krill. This review examines the evidence fur krill flux and also examines evidence that does not accord with this theory. The management implications of assuming krill flux are outlined and some lines for future research are suggested.
Stephen Nicol 한국해양과학기술원 2003 Ocean and Polar Research Vol.25 No.3s
The distribution and abundance of Antarctic krill (Euphausia superba), particularly in the South Atlantic, has traditionally been viewed as primarily determined by the flow of the Antarctic Circumpolar Current. Krill are viewed as being particles on a conveyor belt that carries them around the Antarctic continent resulting in a single circumpolar population. The evidence to support this viewpoint is largely circumstantial and there is very little direct evidence available of krill being moved by the currents-krill flux. There is also considerable biological and physical evidence which suggests that other factors may play a dominant role in the life history and distribution of krill. This review examines the evidence for krill flux and also examines evidence that does not accord with this theory. The management implications of assuming krill flux are outlined and some lines for future research are suggested.
Baryon acoustic oscillations in the Ly<i>α</i>forest of BOSS DR11 quasars
Delubac, Timothé,e,Bautista, Julian E.,Busca, Nicolá,s G.,Rich, James,Kirkby, David,Bailey, Stephen,Font-Ribera, Andreu,Slosar, Anž,e,Lee, Khee-Gan,Pieri, Matthew M.,Hamilton, Jean-Ch Springer-Verlag 2015 Astronomy and astrophysics Vol.574 No.-
Mechanical Control of Electroresistive Switching
Kim, Yunseok,Kelly, Simon J.,Morozovska, Anna,Rahani, Ehsan Kabiri,Strelcov, Evgheni,Eliseev, Eugene,Jesse, Stephen,Biegalski, Michael D.,Balke, Nina,Benedek, Nicole,Strukov, Dmitri,Aarts, J.,Hwang, I American Chemical Society 2013 Nano letters Vol.13 No.9
<P>Hysteretic metal–insulator transitions (MIT) mediated by ionic dynamics or ferroic phase transitions underpin emergent applications for nonvolatile memories and logic devices. The vast majority of applications and studies have explored the MIT coupled to the electric field or temperarture. Here, we argue that MIT coupled to ionic dynamics should be controlled by mechanical stimuli, the behavior we refer to as the piezochemical effect. We verify this effect experimentally and demonstrate that it allows both studying materials physics and enabling novel data storage technologies with mechanical writing and current-based readout.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/nalefd/2013/nalefd.2013.13.issue-9/nl401411r/production/images/medium/nl-2013-01411r_0005.gif'></P><P><A href='http://pubs.acs.org/doi/suppl/10.1021/nl401411r'>ACS Electronic Supporting Info</A></P>