scientific publications

The Armatus Oceanic team have published nearly 120 peer reviewed papers in a variety of scientific journals ranging from the description of new species, deep-sea animal distribution and ecology, behavioral observations and new technology and methodologies.

Among their high impact papers are: Jamieson, et al. (2017) Bioaccumulation of persistent organic pollutants in the deepest ocean fauna. Nature ecology & evolution, 1(3), 1-4, which is:

  1. In the 99th percentile (ranked 33rd) of the 353,500 tracked articles of a similar age in all journals

  2. In the 98th percentile (ranked 1st) of the 79 tracked articles of a similar age in Nature Ecology & Evolution.

  3. In the top 5% of all research outputs scored by Altmetric (score = 2185) 

Linley, et al. (2016) Fishes of the hadal zone including new species, in situ observations and depth records of Liparidae. Deep Sea Research Part I: Oceanographic Research Papers, 114, 99-110, was, for several years following its publication, the most downloaded paper from that Journal.

Stewart and Jamieson (2019), published in Earth Science Reviews (IF=9.7) is currently the most downloaded paper from that journal (as of January 2022).

Jamieson and Vecchione (2020), published in Marine Biology, was highlighted by Springer Nature as one of the most popular articles of 2020 “reflecting top research that made an impact”.

Eurythenes plasticus (Weston et al. 2020) was included in the WoRMS Top Ten Marine Species of 2020

Three of these papers have been recommended to Faculty Opinions (formally F1000)

Peer reviewed scientific publications:

2023

139) Piertney, S.B., Wenzel, M. and Jamieson, A.J., 2023. Large effective population size masks population genetic structure in Hirondellea amphipods within the deepest marine ecosystem, the Mariana Trench. Molecular Ecology, 32(9), pp.2206-2218.

138) Weston, J.N., Stewart, E.C., Maroni, P.J., Stewart, H.A. and Jamieson, A.J., 2023. Eurythenes sigmiferus and Eurythenes andhakarae (Crustacea: Amphipoda) are sympatric at the abyssal Agulhas Fracture Zone, South Atlantic Ocean, and notes on their distributions. Deep Sea Research Part I: Oceanographic Research Papers, p.104050.

137) Jamieson, A.J., Lindsay, D.J. and Kitazato, H., 2023. Maximum depth extensions for Hydrozoa, Tunicata and Ctenophora. Marine Biology, 170(3), p.33.

136) Jamieson, A.J., Lahey, P., MacCallum, R., Buckle, S., Macdonald, T. and Vescovo, V., 2023. Recovery of a Lost Subsea Asset at Full Ocean Depth in the Mariana Trench (10,925 m±4) Using a Crewed Submersible. Marine Technology Society Journal, 57(1), pp.151-155.

135) Pearce, J.R., Linley, T.D., Bond, T. and Jamieson, A.J., 2023. Depth distribution of the bigeye hound shark Iago omanensis and other deep-sea species observed by baited-camera in the Red Sea. Journal of the Marine Biological Association of the United Kingdom, 103, p.e8.

2022

134) Jamieson, A.J., Onda, D.F.L. (2022) Lebensspuren and müllspuren: Drifting plastic bags alter microtopography of seafloor at full ocean depth (10,000 m, Philippine Trench). Continental Shelf Research 250, 104867.

133) Weston, J.N.J., Jensen, E.L., Hasoon, M.S.R., Kitson, J.J.N., Stewart, H.A., Jamieson, A.J.(2022) Barriers to gene flow in the deepest ocean ecosystems: Evidence from global population genomics of a cosmopolitan amphipod. Science Advances 8(43).

132) Bond, T., Jamieson, A.J. (2022) The extent and protection of Australia’s deep sea. Marine and Freshwater Research 73(12)
131) Linley, T.D., Gerringer, M.E., Ritchie, H., Weston, J.N., Scott-Murray, A., Fernandez, V., Canto-Hernández, J., Wenzhöfer, F., Glud, R.N. and Jamieson, A.J. (2022) Independent radiation of snailfishes into the hadal zone confirmed by Paraliparis selti sp. nov.(Perciformes: Liparidae) from the Atacama Trench, SE Pacific. Marine Biodiversity, 52(5), pp.1-16.

130) Kelly, M.R., Whitworth, P., Jamieson, A.J. and Burgess, J.G. (2022) Bacterial colonisation of plastic in the Rockall Trough, North-East Atlantic: An improved understanding of the deep-sea plastisphere. Environmental Pollution. 305: 119314.

129) Bongiovanni, C., Stewart, H.A. and Jamieson, A.J. (2022) High-resolution multibeam sonar bathymetry of the deepest place in each ocean. Geoscience Data Jorunal. 9: 108-123.

128) Weston, J.N. and Jamieson, A.J. (2022) Exponential growth of hadal science: perspectives and future directions identified using topic modelling. ICES Journal of Marine Science. 79I (4): 1048-1062.

127) Weston, J.N. and Jamieson, A.J. (2022) The Multi-Ocean Distribution of the Hadal Amphipod, Hirondellea dubia (Crustacea, Amphipoda). Frontiers in Marine Science. 9: 824640.

126) Jamieson, A.J., Bond, T. and Vescovo, V. (2022) No recovery of a large-scale anthropogenic sediment disturbance on the Pacific seafloor after 77 years at 6460 m depth. Marine Pollution Bulletin. 175: 113374.

125) Jamieson, A.J., Stewart, H.A., Weston, J.N., Lahey, P. and Vescovo, V.L. (2022) Hadal Biodiversity, Habitats and Potential Chemosynthesis in the Java Trench, Eastern Indian Ocean. Frontiers in Marine Science. 9: 275.

124) Blanton, J.M., Peoples, L.M., Gerringer, M.E., Iacuaniello, C.M., Gallo, N.D., Linley, T.D., Jamieson, A.J., Drazen, J.C., Bartlett, D.H. and Allen, E.E. (2022) Microbiomes of Hadal Fishes across Trench Habitats Contain Similar Taxa and Known Piezophiles. Msphere. 7(2): 00032-22.

2021

123) Jamieson, A.J., Vecchione, M. (2021) Hadal cephalopods: First squid observation (Oegopsida, Magnapinnidae, Magnapinna sp.) and new records of finned octopods (Cirrata) at depths >6000 m in the Philippine Trench. Marine Biology. 168: 11.

122) Jamieson, A.J., Stewart, H.A., Weston, J.N.J., Bongiovanni, C. (2021) Hadal fauna of the South Sandwich Trench, Southern Ocean: Baited camera survey from the five Deeps Expedition. Deep-Sea Research Part II. 194: 104987.

121) Jamieson, A.J., Linley, T.D., Eigler S.J., Macdonald T. (2021). A global assessment of fishes at lower abyssal and upper hadal depths (5000 to 8000 m). Deep-Sea Research Part 1. 178: 103642.

120) Bongiovanni, C., Stewart, H.A., Jamieson, A.J. (2021) High-resolution multibeam sonar bathymetry of the deepest place in each ocean. Geoscience Data Journal. 00:1-16.

119) Weston, J.N.J., Espinosa-Leal, L., Wainwright, J.A., Stewart, E.C.D., González, C.E., Linley, T.D., Reid, W.D.K., Hidalgo, P., Oliva, M.E., Ulloa, O., Wenzhöfer, F., Glud, R.N., Escribano, R., Jamieson, A.J. (2021) Eurythenes atacamensis sp. nov. (Crustacea: Amphipoda) exhibits ontogenetic vertical stratification abyssal and hadal depths in the Atacama Trench, eastern South Pacific Ocean. Marine Biodiversity. 51(3), 1-20.

118) Vescovo, V.L., Jamieson, A.J., Lahey, P., McCallum, R., Stewart, H.A., Machado, C. (2021) Safety and conservation at the deepest place on Earth: a call for prohibiting the deliberate discarding of nondegradable umbilicals from deep-sea exploration vehicles. Marine Policy. 128, 104463.

117) Glud, R.N., Berg, P., Thamdrup, B., Larsen, M., Stewart, H.A., Jamieson, A.J., Glud, A., Oguri, K., Sanei, H., Rowden, A.A, Wenzhöfer, F. (2021) Hadal trenches are dynamic hotspots for early diagenesis in the deep-sea. Communications Earth and Environment. 2,21 

116) Swan, J.A., Jamieson A.J., Linley, T.L., Yancey, P.Y. (2021) Worldwide distribution and depth limits of decapod crustaceans (Penaeoidea, Oplophoroidea) across the abyssal-hadal transition zone of eleven subduction trenches and five additional deep-sea features. Journal of Crustacean Biology. doi: 10.1093/jcbiol/ruaa102

115) Jamieson, A.J., Linley T.L. (2021) Hydrozoans, Scyphozoans, Larvaceans and Ctenophores observed in situ at hadal depths. Journal of Plankton Research. 1-13 doi:10.1093/plankt/fbaa062

114) Weston, J.N.J., Peart, R.A., Stewart, H.A., Ritchie, H., Piertney, S.B., Linley, T.D., Jamieson, A.J. (2021) Scavenging amphipods from the Wallaby-Zenith Fracture Zone: Extending the hadal paradigm beyond subduction trenches. Marine Biology. 168 (1), 1-14.

2020

113) Jamieson, A.J., Singleman, G., Linley, T.D., Casey, S. (2020) Fear and Loathing of the Deep Ocean: Why don’t people care about the deep sea? ICES Journal of Marine Science. doi.org/10.1093/icesjms/fsaa234.

112) Jamieson, A.J. Stewart, H.A. (2020) Hadal Zones of the Northwest Pacific Ocean. Progress in Oceanography. 102477.

111) Blum, J.D., Drazen, J.C., Johnson, M.W., Popp, B.N., Motta, L.C., Jamieson, A.J. (2020) Mercury isotopes identify near-surface mercury in deep-sea trench biota. Proceedings of the National Academy of Sciences. 117(47), 29292-29298.

110) Danovaro R., Fanelli E., Aguzzi J., Billett D., Carugati L., Corinaldesi C., Dell’Anno A., Gjerde K., Jamieson A.J., Kark S., McClain C., Levin L.A., Levin N., Ramirez-Llodra E., Ruhl H., Smith C.R., Snelgrove P.V.R., Thomsen L., Van Dover C., Yasuhara M. (2020) Reply to: Ecological variables for deep-ocean monitoring must include microbiota and meiofauna for effective conservation. Nature Ecology and Evolution.  doi.org/10.1038/s41559-020-01337-4.

109) Jamieson, A.J., Linley, T.D., Stewart, H.A.,  Nargeolet, P-H., Vescovo, V. (2020) Revisiting the 1964 Archimède bathyscaphe dive to 7300 m in the Puerto Rico Trench, abundance of an elasipodid holothurian Peniagone sp. and a resolution to the identity of the ‘Puerto Rican snailfish’. Deep-Sea Research Part 1. 162, 103336.

108) Jamieson, A.J. Stewart, H.A. Nargeolet, P.H. (2020) Exploration of the Puerto Rico Trench in the mid-20th Century: significance and relevance today. Endeavour. 44 (1-2), 100719.

107) Jamieson, A.J., Vecchione, M. (2020) First in situ observation of Cephalopoda at hadal depths (Octopoda: Opisthoteuthidae: Grimpoteuthis sp.). Marine Biology. 167: 82.

106) Abdel-Mageed, W.M. Lehri, B., Jarmusch, S.A., Miranda, K., Al-Saleem, M.S.M. Al-Wahaibi, L.H., Stewart, H.A., Jamieson, A.J. Jaspars, M., Kerlyshev, A.V., (2020) Whole genome sequencing of four bacterial strains from South Shetland Trench revealing biosynthetic and environmental adaptation gene clusters. Marine Genomics. 54: 100782.

105) Danovaro R., Fanelli E., Aguzzi J., Billett D., Carugati L., Corinaldesi C., Dell’Anno A., Gjerde K., Jamieson A.J., Kark S., McClain C., Levin L., Levin N., Ramirez-Llodra E, Ruhl H., Smith C.R., Snelgrove P.V.R., Thomsen L., Van Dover C., Yasuhara M. (2020) Ecological variables for developing a global deep-ocean monitoring and conservation strategy. Nature Ecology and Evolution. 4, 181-192

104) Jamieson, A.J. (2020) The Five Deeps Expedition and an update of full ocean depth exploration and explorers. Marine Technology Society Journal. 54(1),6-12.

103) Jamieson, A.J. Stewart, H.A. Nargeolet, P.H. (2020) Exploration of the Puerto Rico Trench in the mid-20th Century: significance and relevance today. Endeavour

102) Milligan, R.J., Scott, E.M., Jones, D.O.B., Bett, B.J., Jamieson A.J., O’Brien, R., Pereira Costa, S., Rowe, G.T., Ruhl, H.A., Smith, K.L., de Susanne, P., Vardaro, M., Bailey D.M. (2020) Evidence for seasonal cycles in deep-sea fish distributions: A great migration in the deep SE Atlantic? Journal of Animal Ecology. doi:10.1111/1365‐2656.13215

101) Weston, J.N.J., Carrillo-Barragan, P., Linley, T.D., Reid, W.D.K., Jamieson, A.J. (2020) New species of Eurythenes from hadal depths of the Mariana Trench, Pacific Ocean (Crustacea: Amphipoda). Zootaxa. 4748(1): 163-181.

100) Weston, J.N.J., Peart, R.A. Jamieson, A.J. (2020) Amphipods from the Wallaby-Zenith Fracture Zone, Indian Ocean: New genus and two new species identified by integrative taxonomy. Systematics and Biodiversity, 18(1): 57-78.

2019

99) Forrest, A., Giacovanni, L., Dunlop, S., Reisser, J., Tickler, D., Jamieson, A.J., Meeuwig, J.J. (2019) Eliminating Plastic Pollution: How a voluntary contribution from industry will drive the circular plastics economy. Frontiers in Marine Science. 6:627

98) Jamieson, A.J., Brooks, L.S.R., Reid, W.D.K., Piertney, S.B., Narayanaswamy, B.E., Linley, T.D. (2019) Microplastics and synthetic particles ingested by deep-sea amphipods in six of the deepest marine ecosystems on Earth. Royal Society Open Science, 6, 180667

97) Jamieson, A.J., Ramsey, J., Lahey, P. (2019) Hadal manned submersible. Sea Technology. 60 (9), 22-24.

96) Jamieson, A.J., Stewart, H.A., Rowden, A.A., Clark, M.R., (2019). Geomorphology and benthic habitats of the Kermadec Trench, SW Pacific Ocean 949-966. In: Harris, P.T, Baker, E.K (Editors). Seafloor geomorphology as benthic habitats: (Second Edition). Elsevier Insights series. (Elsevier, London, UK).

95) Purser, A., Herr. H., Dreutter S., Dorschel, B., Glud, R., Hehemann, L., Hoge, U., Jamieson, A.J., Linley, T.D., Stewart, H.A., Wenzhöfer, F., (2019) Depression chains in seafloor of contrasting morphology, Atacama Trench margin. A comment on Marsh et al. (2018). Royal Society Open Science. 6, 182053

94) Stewart, H.A., Jamieson A.J. (2019) The Five Deeps: the location and depth of the deepest place in each of the world’s oceans. Earth Science Reviews, 197, 102896

2018

93) Gerringer, M.E., Andrews, A.H, Huss, G.R., Nagashima, K., Popp, B.N., Linley, T.D., Gallo, N.D., Clark, M.R., Jamieson, A.J., Drazen, J.C. (2018) Life history of abyssal and hadal fishes from otolith growth zones and oxygen isotopic compositions. Deep-Sea Research I.132, 37-50.

92) Jamieson, A.J., (2018) A contemporary perspective on hadal science. Deep-Sea Research Part II. 155, 4-10.

91) Jamieson, A.J., Fang, J., Cui, W. (2018) Exploring the Hadal Zone: Recent Advances in Hadal Science and Technology. Deep-Sea Research Part II.155, 1-3.

90) Lacey, N.C., Mayor, D.L., Linley, T.D., Jamieson, A.J. (2018) Population structure of the hadal amphipod Bathycallisoma (Scopelocheirus) schellenbergi (Birstein and Vinogradov, 1958) in the Kermadec Trench and New Hebrides Trench, SW Pacific. Deep-Sea Research Part II. 155, 50-60.

89) Linley, T.D., Craig, J., Jamieson, A.J. Priede, I.G. (2018) Bathyal and abyssal demersal bait attending fauna of the Eastern Mediterranean Sea. Marine Biology 165:159.

88) Neat, F.N., Jamieson, A.J., Stewart, H.A., Narayanaswamy, B.E., Collie, N., Stewart, M., Fischbacher, B., Linley T.D. (2018) Visual evidence of reduced seafloor conditions and indications of a cold seep ecosystem from the Hatton–Rockall basin (NE Atlantic). Journal of the Marine Biological Association of the United Kingdom. 1-7 doi.org/10.1017/S0025315418000115.

87) Reid, W.D.K, Cuomo, N.J. and Jamieson, A.J., (2018). Geographic and bathymetric comparisons of trace metal concentrations (Cd, Cu, Fe, Mn, and Zn) in deep-sea Lysianassoid amphipods from abyssal and hadal depths across the Pacific Ocean. Deep Sea Research Part I, 138, 11-21.

86) Ritchie, H., Jamieson A.J., Piertney, S.B. (2018) Heat-shock protein adaptation in abyssal and hadal amphipods. Deep-Sea Research II. 155 61-69.

85) Stewart, H.A., Jamieson, A.J. (2018) Habitat heterogeneity of hadal trenches: considerations and implications for future studies. Progress in Oceanography.161, 47-65.

84) Zhang W, Tian R-M, Sun J, Bougouffa S, Ding W, Cai L, Lan Y, Tong H, Li Y, Jamieson AJ, Bajic VB, Drazen JC, Bartlett D, Qian P-Y. (2018) Genome reduction in Psychromonas species within the gut of an amphipod from the ocean’s deepest point. mSystems 3:e00009-18.

2017

83) Danovaro R., Aguzzi, J., Fanelli E., Billett D., Gjerde K., Jamieson A.J, Ramirez-Llodra E., Smith C.R., Snelgrove P.V.R., Thomsen L., Van Dover C. (2017) An ecosystem-based deep-ocean strategy. Science. 355 (6324), 452-454.

82) Gerringer, M.E., Drazen, J.C., Linley, T.D., Summers, A.P., Jamieson A.J., Yancey, P.H. (2017) Distribution, composition, and functions of gelatinous tissues in deep-sea fishes. Royal Society Open Science. 4:171063

81) Gerringer, M.E., Linley, T.D., Jamieson A.J., Goetze, E. Drazen, J.C. (2017) Pseudoliparis swirei: A newly-discovered hadal liparid (Scorpaeniformes: Liparidae) from the Mariana Trench. Zootaxa 4358 (1), 161-177.

80) Gerringer, M.E., Popp, B.N., Linley, T.D., Jamieson, A.J., Drazen, J.C. (2017) Comparative feeding ecology of hadal fishes through stomach contents and amino acid isotope analysis. Deep-Sea Research I.121, 110-120.

79) Jamieson, A.J., Linley T.D., Craig, J. (2017) Baited camera survey of deep-sea demersal fishes of the West African oil provinces: 1200-2500m depth, East Atlantic Ocean. Marine Environmental Research. 129, 347-364.

78) Jamieson, A.J., Malkocs, T., Piertney, S.B., Fujii, T., Zhang, Z. (2017) Bioaccumulation of persistent organic pollutants in the deepest ocean fauna. Nature Ecology and Evolution. 1, 0051

77) Linley, T. D., M. Lavaleye, P. Maiorano, M. Bergman, F. Capezzuto, N. J. Cousins, G. D’Onghia, G. Duineveld, M.A. Shields, L. Sion, A Tursi, I.G. Priede (2017) "Effects of cold‐water corals on fish diversity and density (European continental margin: Arctic, NE Atlantic and Mediterranean Sea): Data from three baited lander systems." Deep Sea Research Part II: Topical Studies in Oceanography 145: 8-21.

76) Linley, T.D., Stewart, A., McMillan, P., Clark, M., Gerringer, M.E., Drazen, J.C., Fujii, T., Jamieson, A.J. (2017). Bait attending fishes of the abyssal zone and hadal boundary: community structure, functional groups and species distribution in the Kermadec, New Hebrides and Mariana trenches. Deep-Sea Research I. 121, 38-53.

75) Ritchie, H., Jamieson A.J., Piertney, S.B. (2017) Genome size variation in deep-sea amphipods. Royal Society Open Science. 4, 170862

74) Ritchie, H., Jamieson, A.J., Piertney, S.B. (2017) Population genetic structure of two congeneric deep-sea amphipod species from geographically isolated hadal trenches in the Pacific Ocean. Deep-Sea Research I. 119, 50-57.

2016

73) Eustace, R.M., Kilgallen, N.M., Ritchie, H., Piertney, S.B., Jamieson, A.J. (2016) Morphological and ontogenetic stratification of abyssal and hadal Eurythenes gryllus (Amphipoda: Lysianassidae) from the Peru-Chile Trench. Deep-Sea Research I. 109, 91-98.

72) Fujii, T. Jamieson A.J. (2016) Fine-scale monitoring of fish movements and multiple environmental parameters around a redundant offshore oil platform: a pilot study in the North Sea. Ocean Engineering. 126, 481-487.

71) Jamieson, A.J. (2016) Landers: baited cameras and traps. In: Biological Sampling in the Deep Sea (Eds. M. Clarke, M. Consalvey, A.A. Rowden), Wiley-Blackwell, Oxford. 228-259.

70) Lacey, N.C., Rowden, A.A., Clarke, M., Kilgallen, N.M., Linley, T.D., Mayor, D.J., Jamieson, A.J. (2016) Community structure and diversity of scavenging amphipods from bathyal to hadal depths in three South Pacific trenches. Deep-Sea Research I. 111, 121-137.

69) Linley, T.D., Gerringer, M.E. Yancey, P.H., Drazen, J.C. Weinstock, C.L., Jamieson A.J. (2016) Fishes of the hadal zone including new species, in situ observations and depth records of hadal snailfishes. Deep-Sea Research I.114, 99-110.

68) Mills S., Leduc D., Drazen J. C., Yancey P., Jamieson A. J., Clark M. R., Rowden A. A., Mayor D. J., Piertney S., Heyl T., Bartlett D., Bourque J., Cho W., Demopoulos A., Fryer P., Gerringer M., Grammatopoulou E., Herrera S., Ichino M., Lecroq B., Linley T. D., Meyer K., Nunnally C., Ruhl H., Wallace G., Young C. and Shank T. M. (2016) 10,000 m under the sea: an overview of the HADES expedition to Kermadec Trench. Proceedings of Kermadec, Discoveries and Collections Science Symposium, April 11-12, 2016, Wellington.

67) Ritchie, H., Jamieson, A.J. and Piertney, S.B. (2016). Isolation and Characterization of Microsatellite DNA Markers in the Deep-Sea Amphipod Paralicella tenuipes by Illumina Miseq Sequencing. Journal of Heredity, 107(4), 367-371

2015

66) Craig, J., Priede, I.G., Aguzzi, J., Company, J.B., Jamieson, A.J. (2015) Abundant bioluminescent sources of low-light intensity in the deep Mediterranean Sea and North Atlantic Ocean. Marine Biology. 8.162, 1637-1649.

65) Craig, J., Youngbluth, M., Jamieson, A.J., Priede, I.G. (2015) Near seafloor bioluminescence, macrozooplankton and macroparticles at the Mid-Atlantic Ridge. Deep-Sea Research I. 98, 62-75.

64) Ichino, M.C., Clark, M.R., Drazen, J.C., Jamieson, A.J., Jones, D.O.B., Martin, A.P., Rowden, A.A., Shank, T.M., Yancey, P.H., Ruhl, H.A. (2015) The distribution of benthic biomass in hadal trenches: a modelling approach to investigate the effect of vertical and lateral organic matter transport to the seafloor. Deep-Sea Research I. 100, 21-33.

63) Jamieson, A.J. (2015) The Hadal Zone; Life in the Deepest Oceans’, Cambridge University Press.

62) Ritchie, H., Jamieson, A.J., Kilgallen, N.M., Piertney, S.B. (2015) Phylogenetic relationships among hadal amphipods of the Superfamily Lysianassoidea: Implications for taxonomic revision and biogeographic distribution. Deep-Sea Research I. 105, 119-131.

61) Techtmann, S. M., Fortney, J. L., Ayers, K. A., Joyner, D. C., Linley, T. D., Pfiffner, S. M. & Hazen, T. C. (2015). The unique chemistry of Eastern Mediterranean water masses selects for distinct microbial communities by depth. PLoS One, 10, e0120605.

2014

60) Amon, D.J., Copley, J.T., Dahlgren, T.G., Jamieson, A.J., Smith, C.R., Wiklund, H., Glover, A.G. (2014) Three new species and an expansion of range for the genus Osedax (Annelida: Siboglinidae) in the deep Antarctic. Zoologica Scripta, 43(4), 405-417.

59) Yancey, P.H., Gerringer, M.E., Drazen. J.C., Rowden, A.A., Jamieson, A.J. (2014) Marine fish may be biochemically constrained from inhabiting deepest ocean depths. Proceedings of the National Academy of Sciences, 111(12), 4461-4465.

2013

58) Adrián-Martínez, S., et al [KM3NeT Collaboration]. (2013). Detection potential of the KM3NeT detector for high-energy neutrinos from the Fermi bubbles. Astroparticle Physics, 42, 7-14.

57) Blanco, R., Shields, M.A., Jamieson, A.J. (2013) Macrofouling of deep-sea instrumentation after three years at 3690 m depth in the Charlie Gibbs Fracture Zone, Mid-Atlantic Ridge, with emphasis on hydroids (Cnidaria: Hydrozoa). Deep-Sea Research II, 98, 370-373.

56) Chalmers, S.J., Jamieson, A.J., Polanski, J.R., Priede, I.G., Bagley, P.M. (2013) Design and implementation of a low-cost near-shore cabled observatory. In OCEANS-Bergen, 2013 MTS/IEEE. 1-6. IEEE.

55) Cousins, N.J., Linley, T.D., Jamieson, A.J., Bagley, P.M., Blades, H., Box, T., Chambers, R., Ford, A., Shields, M.A., Priede, I.G. (2013) Bathyal Demersal Fishes of Charlie-Gibbs Fracture Zone region (49°-54°N) of the Mid Atlantic Ridge: II. Baited camera lander observations. Deep-Sea Research II, 98, 397-406.

54) Eustace, R.M., Kilgallen, N.M., Lacey, N.C., Jamieson, A.J. (2013) Population structure of the hadal amphipod Hirondellea gigas from the Izu-Bonin Trench. Journal of Crustacean Biology. 33 (6), 793-801.

53) Fujii, T., Kilgallen, N.M., Rowden, A.A., Jamieson, A.J. (2013) Amphipod community structure across abyssal to hadal depths in the Peru-Chile and the Kermadec Trenches. Marine Ecology Progress Series, 492: 125-138.

52) Glover, A.G., Wiklund, H., Taboada, S., Avila, C., Smith, C.R., Kemp, K.M., Jamieson, A.J., Dahlgren, T.G. (2013) Bone-eating worms from the Antarctic: the contrasting fate of whale and wood remains on the Southern Ocean seafloor. Proceedings of the Royal Society Part B, 280, 20131390

51) Jamieson, A.J., Boorman, B. & Jones, D.O.B. (2013) Deep-Sea Sampling. In: Methods for the Study of Marine Benthos (Eds. A. Eleftheriou) 4th Edition, Wiley-Blackwell, Oxford. ISBN: 978-0-470-67086-6

50) Jamieson, A.J., Lacey, N.C., Lörz, A-N., Rowden, A.A., Piertney, S.B. (2013) The supergiant amphipod Alicella gigantea (Crustacea: Alicellidae) from hadal depths in the Kermadec Trench, SW Pacific Ocean. Deep-Sea Research II. 92, 107-113

49) Jeffreys, R.M., Burke, C., Jamieson, A.J., Narayanaswamy, B., Ruhl, H.A., Smith, K.L., Witte, U. (2013) Feeding preferences of abyssal macrofauna inferred from in situ pulse chase experiments. PLOS One, 8(11): e80510

48) KM3NeT Collaboration. (2013) Expansion cone for the 3-inch PMTs of the KM3NeT optical modules. Journal of Instrumentation 8, (03): T03006.

47) Lacey, N.C., Jamieson, A.J., Søreide, F. (2013) Successful capture of ultra-deep sea animals from the Puerto Rico Trench. Sea Technology, 54(3) 19-21

46) Linley, T.D., Alt, C.H.S., Jones, D.O.B., Priede, I.G. (2013) Bathyal demersal fishes of the Charlie-Gibbs Fracture Zone region (49˚–54˚N) of the Mid-Atlantic Ridge: III. Results from remotely operated vehicle (ROV) video transects. Deep Sea Research Part II: Topical Studies in Oceanography, 98(Part B), 407-411.

45) Niedzielski, T., Høines, A., Shields, M.A., Linley, T.D., Priede, I.G. (2013). A multi-scale investigation into seafloor topography of the northern Mid-Atlantic Ridge based on geographic information system analysis. Deep Sea Research Part II: Topical Studies in Oceanography, 98, 231-243

44) Søreide, F. & Jamieson, A.J. (2013) Ultradeep-sea exploration in the Puerto Rico Trench. Proceedings of the Oceans '13, MTS/IEEE, San Diego, 1-4.

2012

43) 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

42) Hunter, W.R., Jamieson, A.J., Huvenne, V.A.I., Witte, U. (2012) Sediment community responses to marine vs. terrigenous organic matter in a submarine canyon. Biogeosciences Discussions, 9 11331-11374.

41) Jamieson, A.J., Fujii, T., Priede, I.G. (2012) Locomotory activity and feeding strategy of the hadal munnopsid isopod Rectisura cf. herculea (Crustacea: Asellota) in the Japan Trench. Journal of Experimental Biology, 215: 3010-3017

40) Jamieson, A.J., Lörz, A-N., Fujii, T., Priede, I.G. (2012) In situ observations of trophic behaviour and locomotion of Princaxelia amphipods (Crustacea, Pardaliscidae) at hadal depths in four West Pacific Trenches. Journal of the Marine Biology Association of the United Kingdom. 91 (1) 143-150.

39) Jamieson, A.J., Priede, I.G., Craig, J. (2012) Distinguishing between the abyssal macrourids Coryphaenoides yaquinae and C. armatus from in situ photography. Deep-Sea Research I, 64, 78-85

38) Jamieson, A.J., Yancey, P.H. (2012) On the validity of the Trieste flatfish; dispelling the myth. Biological Bulletin. 222, 171-175

2011

37) Craig, J, Jamieson, A.J., Bagley, P.M. Priede, I.G. (2011) Naturally occurring bioluminescence on the deep-sea floor. Journal of Marine Systems. 88: 563-567

36) Craig, J., Jamieson A.J., Bagley, P.M. & Priede, I.G. (2011) Seasonal variation of deep-sea bioluminescence in the Ionian Sea. Nuclear Instruments and Methods in Physics Research A, doi:10.1016/j.nima.2010.04.074.

35) Bagley, P.M., et al., [KM3NeT Collaboration]. (2011) KM3NeT Technical Design Report for a Deep-Sea Research Infrastructure in the Mediterranean Sea Incorporating a Very Large Volume Neutrino Telescope, Technical Report, [ISBN:978-90-6488-033-9].

34) Jamieson, A.J. (2011) Ecology of Deep Oceans: Hadal Trenches. In: Encyclopedia of Life Sciences (ELS). John Wiley & Sons, Ltd, Chichester. DOI: 10.1002/9780470015902.a0023606

33) Jamieson, A.J.,T. Fujii (2011) Trench Connection. Biology Letters, 7: 641-643 doi:10.1098 /rsbl.2011.0231

32) Jamieson, A.J., Fujii, T., Bagley, P.M., Priede, I.G. (2011) The scavenging dependency of the deepwater eel Synaphobranchus kaupii on the Portuguese dogfish Centroscymnus coelolepis. Journal of Fish Biology. 79, 205-216

31) Jamieson, A.J., Gebruk, A., Fujii, T., Solan, M. (2011) Functional effects of the hadal sea cucumber Elpidia atakama (Holothuroidea, Elasipodida) reflect small scale patterns of resource availability. Marine Biology 158 (12) 2695-2703.

30) Jamieson, A.J., Kilgallen, N.M., Rowden, A.A., Fujii, T., Horton, T., Lörz, A-N., Kitazawa, K., Priede, I.G. (2011) Bait-attending fauna of the Kermadec Trench, SW Pacific Ocean: evidence for an ecotone across the abyssal-hadal transition zone. Deep-Sea Research I 58, 49-62

29) Wolff, G.A., Billett, D.S.M., Bett, B.J., Holtvoeth, J., FitzGeorge-Balfour, T., Fisher, E.H., Cross, I., Shannon, R., Salter, I., Boorman, B., King, N.J., Jamieson, A.J., Chaillan, F. (2011) The Effects of Natural Iron Fertilisation on Deep-Sea Ecology: The Crozet Plateau, Southern Indian Ocean. PLOS One 6(6): e20697. doi:10.1371/journal.pone.0020697

2010

28) Craig, J., Jamieson, A.J., Hutson, R., Zuur, A.F. & Priede, I.G. (2010) Factors influencing the abundance of deep pelagic bioluminescent zooplankton in the Mediterranean Sea. Deep-Sea Research I. 57, 1474-1484

27) Fujii, T., Jamieson, A.J., Solan, M., Bagley, P.M. & Priede, I.G. (2010) A large aggregation of liparids at 7703 m depth and a reappraisal of the abundance and diversity of hadal fish. BioScience, 60(7), 506-515.

26) Jamieson, A.J., Fujii, T., Mayor, D.J., Solan, M. & Priede, I.G. (2010) Hadal Trenches: the ecology of the deepest places on Earth. Trends in Ecology and Evolution, 25(3), 190-197.

25) Jeffreys, R.M., Lavaleye, M.S.S., Bergman, M.J.N., Duineveld, G.C.A., Witbaard, R., Linley, T.D. (2010) Deep-sea macrourid fishes scavenge on plant material: Evidence from in situ observations. Deep-Sea Research Part I: Oceanographic Research Papers, 57(4), 621-627.

2009

24) Craig, J., Jamieson, A.J., Heger, A. & Priede, I.G. (2009) Distribution of bioluminescent organisms in the Mediterranean Sea and predicted effects on a deep-sea neutrino telescope. Nuclear Instruments and Methods in Physics Research A, 602, 224-226.

23) Jamieson, A.J., Fujii, T., Solan, M. & Priede, I.G. (2009) HADEEP: Free-falling landers to the deepest places on Earth. Marine Technology Society Journal, 43(5), 151-159.

22) Jamieson, A.J., Fujii, T., Solan, M., Matsumoto, A.K., Bagley, P.M. & Priede, I.G. (2009) First findings of decapod crustacea in the hadal-zone. Deep-Sea Research I, 56, 641-647.

21) Jamieson, A.J., Fujii, T., Solan, M., Matsumoto, A.K., Bagley, P.M. & Priede, I.G. (2009) Liparid and Macrourid fishes of the hadal zone: In situ observations of activity and feeding behaviour. Proceedings of the Royal Society Part B, 276, 1037-1045.

20) Jamieson, A.J., Solan, M. & Fujii, T. (2009) Imaging deep-sea life beyond the abyssal zone. Sea Technology, 50(3), 41-46

2008

19) Kemp, K.M., Jamieson, A.J., Bagley, P.M., Collins, M.A. & Priede, I.G. (2008). A new technique for periodic bait release at a deep-sea camera platform: First results from the Charlie–Gibbs Fracture Zone, Mid-Atlantic Ridge. Deep Sea Research II, 55(1-2), 218-228.

18) King, N.J., Jamieson, A.J.,Bagley, P.M. & Priede, I.G. (2008) Deep-sea scavenging demersal fish fauna of the Nazaré Canyon system, Iberian coast, Northeast Atlantic Ocean. Journal of Fish Biology, 72, 1804–1814.

17) Priede, I.G., Jamieson, A.J., Heger, A., Craig, J. & Zuur, A.F. (2008) The potential influence of bioluminescence from marine animals on a deep-sea underwater neutrino telescope array in the Mediterranean sea. Deep Sea Research I, 55, 1474-1483.

2007

16) Bailey D.M., Wagner, H-J., Jamieson, A.J. Ross, M.F. & Priede, I.G. (2007). A taste of the deep-sea: the roles of olfactory, gustatory and tactile searching behaviour by the deep-sea grenadier fish Coryphaenoides armatus. Deep Sea Research I, 54, 99-108.

15) Gillibrand, E.J.V., Bagley P.M., Jamieson, A.J., Herring, P.J., Partridge, J.C., Collins, M.A., Milne, R. & Priede, I.G. (2007). Deep Sea Benthic Bioluminescence at Artificial Food falls, 1000 to 4800m depth, in the Porcupine Seabight and Abyssal Plain, North East Atlantic Ocean. Marine Biology, 150, 1053-1060.

14) Gillibrand, E.J.V., Jamieson, A.J., Bagley, P.M., Zuur, A.F. & Priede, I.G. (2007). Seasonal development of a deep pelagic bioluminescent layer in the temperate northeast Atlantic Ocean. Marine Ecology Progress Series, 341, 37-44.

13) Heger, A., King, N.J., Wigham, B.D. Jamieson, A.J., Bagley, P.M., Priede, I.G. & Pfannkuche, O. (2007). Bioluminescent aggregations of Vargula norvegica (Ostracoda) at artificial food falls at 1000m depth in carbonate mound provinces of the NE Atlantic. Marine Biology, 151(4), 1471-1478.

12) Worall, M.G., Jamieson, A.J., Holford, A.E., Neilson, R.D, Player, M.A. & Bagley, P.M (2007). A variable buoyancy system for deep ocean vehicles, Oceans 2007 – Europe 1-6, ISBN: 978-1-4244-0635-7.

2006

11) Jamieson A.J., Bailey, D.M., Wagner, H-J., Bagley, P.M. & Priede, I.G. (2006). Behavioural responses to structures on the seafloor by the deep-sea fish Coryphaenoides armatus: Implications for the use of baited landers. Deep Sea Research I, 53, 1157-1166.

10) Jamieson, A.J., Godø, O.R., Bagley, P.M., Partridge, J.C. & Priede, I.G. (2006). Illumination of trawl gear by mechanically stimulated bioluminescence. Fisheries Research, 81, 276-282.

9) Kemp, K.M., Jamieson, A.J., Bagley, P.M., McGrath, H., Bailey, D.M., Collins, M.A., & Priede, I.G. (2006). Consumption of a large bathyal food fall, a six month study in the north-east Atlantic. Marine Ecology Progress Series, 310, 65-76.

8) Worall, M.G., Bagley, P.M., Jamieson, A.J., Holford, A.E., Player, M.A. & Neilson, R.D. (2006) The development of a variable buoyancy system. Proceedings of the Worlds Maritime Technology Conference, IMarEST.

2005

7) Bagley P.M., Priede, I.G., Jamieson, A.J., Bailey, D.M., Battle, E.J.V., Henriques, C. & Kemp, K.M. (2005). Lander techniques for deep ocean biological research. Underwater Technology, 26(1), 3-11.

6) Bailey, D.M., Bagley, P.M., Jamieson, A.J., Cromarty, A., Collins, M.A., Tselepidis, A. &. Priede, I.G. (2005). Life in a warm deep sea: routine activity and burst swimming performance of the shrimp Acanthephyra eximia in the abyssal Mediterranean. Marine Biology, 146, 1199-1206.

5) Bailey D.M., Genard, B., Collins, M.A., Rees, J-F., Unsworth, S.K., Battle, E.J.V., Bagley, P.M., Jamieson, A.J. & Priede, I.G. (2005). High swimming and metabolic activity in the deep-sea eel Synaphobranchus kaupii revealed by integrated in situ and in vitro measurements. Physiological and Biochemical Zoology, 78, 335-346.

4) Jamieson A.J. & Bagley, P.M. (2005). The ROBIO and DOBO landers: Deep-sea biodiversity surveys in areas of anthropogenic activity. Sea Technology, 46(1), 54-57.

2003

3) Bagley, PM., Jamieson, AJ. & Player, M. (2003). A buoyancy control system. Patent application No.0319812.4. Filed 22-AUG-03, Ablett and Stebbing, London, UK.

2) Bailey, D.M., Bagley, P.M., Jamieson, A.J., Collins, M.A. & Priede, I.G. (2003). In situ investigation of burst swimming and muscle performance in the deep-sea fish Antimora rostrata (Günther, 1878), Journal of Experimental Marine Biology and Ecology, 285-286, 295-311

2002

1) Bailey, D.M., Jamieson, A.J., Bagley, P.M., Collins, M.A. & Priede, I.G. (2002). Measurement of in situ oxygen consumption of deep-sea fish using an autonomous lander vehicle, Deep-Sea Research, 49, 1519-1529