Attraction of deep-sea amphipods to macrophyte food falls
Lawson, G.S.; Tyler, P.A.; Young, C.M.
Journal of Experimental Marine Biology and Ecology 169(1): 33-39
1993
ISSN/ISBN: 0022-0981 Accession: 074176191
Full Text Article emailed within 1 workday: $29.90
Related References
Lawson, G.S.; Tyler, P.A.; Young, C.M. 1993: Attraction of deep-sea amphipods to macrophyte food falls Journal Of Experimental: 33-39Higgs, N.D.; Gates, A.R.; Jones, D.O.B. 2014: Fish food in the deep sea: revisiting the role of large food-falls Plos one 9(5): E96016
Soltwedel, T.; Guilini, K.; Sauter, E.; Schewe, I.; Hasemann, C. 2018: Local effects of large food-falls on nematode diversity at an arctic deep-sea site: Results from an in situ experiment at the deep-sea observatory HAUSGARTEN Journal of Experimental Marine Biology and Ecology 502: 129-141
Smith, K L.; Jr.; Baldwin, RJ. 1982: Scavenging deep-sea amphipods: effects of food odor on oxygen consumption and a proposed metabolic strategy Marine Biology (Berlin): 683: 287-298
Bidleman, T.F.; Stern, G.A.; Tomy, G.T.; Hargrave, B.T.; Jantunen, L.M.; Macdonald, R.W. 2013: Scavenging amphipods: sentinels for penetration of mercury and persistent organic chemicals into food webs of the deep Arctic Ocean Environmental Science and Technology 47(11): 5553-5561
Harrison, P.G. 1977: Decomposition of Macrophyte Detritus in Seawater: Effects of Grazing by Amphipods Oikos 28(2-3): 165-169
Harrison, P.G. 1977: Decomposition of macrophyte detritus in sea water effects of grazing by amphipods Oikos 28(2-3): 165-169
Newman, R.M.; Kerfoot, W.C.; Hanscom, Z. 1990: Watercress and amphipods Potential chemical defense in a spring stream macrophyte Journal of Chemical Ecology 16(1): 245-259
Newman, R.M.; Kerfoot, W.C.; Hanscom, Z.I.I.I. 1990: Watercress and amphipods : potential chemical defense in a spring stream macrophyte J. Chem. Ecol 16(1): 245-259
Stockton, W.L.; Delaca, T.E. 1982: Food falls in the deep sea occurrence quality and significance Deep-Sea Research Part A Oceanographic Research Papers 29(2): 157-170
Tarkowska-Kukuryk, M 2014: Spatial distribution of epiphytic chironomid larvae in a shallow macrophyte-dominated lake: effect of macrophyte species and food resources Limnology 15(2): 141-153
Aimée J.D.P.; Dennis, E.J.; Malte, T. Martin Zimmer 2011: Colonisation of Beach-Cast Macrophyte Wrack Patches by Talitrid Amphipods A Primer Estuaries and Coasts 34(4): 863-871
Gillibrand, E.J.V.; Bagley, P.; Jamieson, A.; Herring, P.J.; Partridge, J.C.; Collins, M.A.; Milne, R.; Priede, I.G. 2007: Deep sea benthic bioluminescence at artificial food falls, 1,0004,800 Marine Biology 150(6): 1053-1060
Jones, E.G.; Collins, M.A.; Addison, S.; Priede, I.G. 1996: A new lander vehicle for investigating the impact of large food falls in the deep sea Journal of Fish Biology 49(Suppl A): 339
Klages, M.; Vopel, K.; Bluhm, H.; Brey, T.; Soltwedel, T.; Arntz, W., E. 2001: Deep-sea food falls: First observation of a natural event in the Arctic Ocean Polar Biology 24(4): 292-295
Henschke, N.; Bowden, D.A.; Everett, J.D.; Holmes, S.P.; Kloser, R.J.; Lee, R.W.; Suthers, I.M. 2013: Salp-falls in the Tasman Sea: a major food input to deep-sea benthos Marine Ecology. Progress Series (Halstenbek) 491: 165-175
Priede, I.G.; Bagley, P.M.; Armstrong, J.D.; Smith, K.L.Jr; Merrett, N.R. 1991: Direct measurement of active dispersal of food falls by deep sea demersal fishes Nature (London) 351(6328): 647-649
Aguzzi, J.; Jamieson, A.J.; Fujii, T.; Sbragaglia, V.; Costa, C.; Menesatti, P.; Fujiwara, Y. 2012: Shifting feeding behaviour of deep-sea buccinid gastropods at natural and simulated food falls Marine Ecology Progress Series 458: 247-253
Smith, C.R. 1985: Food for the deep sea: utilization, dispersal, and flux of nekton falls at the Santa Catalina Basin floor Deep-Sea Research. Part A. Oceanographic Research Papers 32(4): 417-442
Smith, CR. 1985: Food for the deep sea: utilization, dispersal, and flux of nekton falls at the Santa Catalina Basin floor Deep-Sea Research Part A Oceanographic Research Papers 324: 417-442