Peter Herring

Peter John Herring is an English marine biologist known for his work on the coloration, camouflage and bioluminescence of animals in the deep sea, and for the textbook The Biology of the Deep Ocean.

Life

Flashing of photophores of black dragonfish, Malacosteus niger, showing red fluorescence modifying the bioluminescence[1][2]

Herring took his Ph.D. at Cambridge University, spending 18 months at sea on the 1961-2 International Indian Ocean Expedition. This inspired him to join the National Institute of Oceanography in 1966 as a marine biologist. There, he investigated the coloration of animals in the deep sea, and their bioluminescence, relating its ecology and physiology to the colour vision of other animals.[3] One aspect of this was underwater camouflage, where prey need to conceal themselves from the vision of their predators; since as Herring noted, there is no background in the sea, the methods of camouflage employed are often different from those on land: key methods include transparency, reflection (by silvering), and counter-illumination.[4] He also studied the vision of shrimps in hydrothermal vents, and how the oxygen minimum in the northwestern Indian Ocean affected the distribution of midwater animals. He served as chief scientist on at least sixty research voyages.[3] In 1981 he discovered red bioluminescent "searchlights" below the eyes of some dragonfish, and showed that these worked by using fluorescent proteins which shifted the mainly blue light actually generated by these fish into the red part of the visible spectrum.[5]

Works

Herring has written or contributed to over 250 scientific papers and textbooks on marine zoology. His paper "Systematic distribution of bioluminescence in living organisms" has been cited at least 175 times, while "The spectral characteristics of luminous marine organisms" has been cited over 165 times. The paper "The roles of filters in the photophores of oceanic animals and their relation to vision in the oceanic environment" has been cited at least 105 times and "Longwave-sensitive visual pigments in some deep-sea fishes: segregation of 'paired' rhodopsins and porphyropsins" over 100 times.[6]

gollark: ++remind -3h b
gollark: This is part of the set of all possible strategies, so we simulated it. It was only good relatively speaking.
gollark: ++remind 3mo lyrictech™ remains inevitably defeated
gollark: Or, well, could be.
gollark: I'm really quite impressed by how bad LyricTech™ strategies are, really.

References

  1. Kenaley, C.P. (2007). "Revision of the Stoplight Loosejaw Genus Malacosteus (Teleostei: Stomiidae: Malacosteinae), with Description of a New Species from the Temperate Southern Hemisphere and Indian Ocean". Copeia. 2007 (4): 886–900. doi:10.1643/0045-8511(2007)7[886:ROTSLG]2.0.CO;2.
  2. Herring, P.J. & Cope, A. (December 2005). "Red bioluminescence in fishes: on the suborbital photophores of Malacosteus, Pachystomias and Aristostomias". Marine Biology. 148 (2): 383–394. doi:10.1007/s00227-005-0085-3.
  3. "National Oceanographic Library – Archive. Professor Peter Herring – Collection" (PDF). National Oceanography Centre. Retrieved 12 January 2018.
  4. Herring, Peter (2002). The Biology of the Deep Ocean. Oxford University Press. pp. 190–195. ISBN 9780198549567.
  5. Schrope, Mark (2007). "Marine biology: Lights in the deep". Nature. 450 (7169): 472–474. doi:10.1038/450472a. PMID 18033270.
  6. "allintitle: author:PJ author:Herring". Google Scholar. Retrieved 12 January 2018.
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