- Leduc D, Zhao ZQ, (2021) Litinium gludi sp. nov. (Nematode , Oxystominidae) from Kermadec Trench, Southwest Pacific Ocean. European Jour. of Taxonomy. 748:138-154
- Leduc D, Zhao ZQ. (2021) Molecular characterization of free-living nematodes from Kermadec Trench (Nematodea: Aegialoalaimidae, Xyalidae) with description of Aegialoalaimus tereticauda n. sp. Zootaxa 4949:341-352
- Franco-Cisterna B, Stief P, Glud RN.. (2021) Temperature effects on carbon mineralization of sinking copepod carcasses. Mar. Ecol. Prog. Ser.
- Thamdrup B, Schauberger C, Larsen M, Trouche B, Maignien L, Arnaud-Haond S, Wenzhöfer F, Glud RN. (2021) Anammox bacteria drive fixed nitrogen loss in hadal trench sediments. PNAS.
- Tingcang H, Luo m, Wünsch UJ, He D, Gieskes J, xu y, Fang J, Chen D. (2021) Probing sedimentary DOM in the deepest sector of Earth's surface. Mar. Chem.
- Jamieson AJ, Lingley TL (2021) Hydrozoans, Scyphozoans, Larvaceans and Ctenophores observed in situ at hadal dephts. J. Plank Rese 42(1): 20-32.
- Swan JA, Jamieson AJ, Lingley T, Yancey T, PY (2021) Worldwide distribution and depth limits of decapod crustaceans (Penaeoidea, Oplophoidea) across the abyssal -hadal transition zone of eleven subduction trenches and five additional deep-sea features. JI Crust Biol. 41,1
- Fernández-Urruzola I, Ulloa O, Glud RN, Pinkerton MH, Schneider W, Wenzhöfer F, Escribano R. (2021) Plankton respiration in the Atacama Trench region: Implications for particulate organic carbon flux into the hadal realm. Limnol. Geogr.
- Maciute A, Holovachov O, Berg P, Glud RN, Broman E, Nascimento FJA, Bognalia S. (2021) A microsensor-based method for measuring respiration of individual nematodes. Methods in Ecol and Evol.
- Stief P, Elvert M, Glud RN. (2021) Respiration by "marine snow" at high hydrostatic pressure: Insight from continuous oxygen measurements in a rotating pressure tank. Limnol. Oceanogr.
- Weston JNJ, Espinosa-Leal L, Wainwright JA, Stewart EC, Gonzáles CE, Linley TD, Reid WDK, Hidalgo P, Oliva ME, Ulloa O, Wenzhöfer F, Glud RN, Jamieson AJ. (2021) Eurythenes atacamensis sp. nov. (Crustacea: Amphipoda) exhibits ontogenetic vertical stratification across abyssal and hadal depths in the Atacama Trench, eastern Pacific Ocean. Mar. biodiv.
- Grzelak K, Zeppelini D, Shimabukuro M, Sørensen MV. (2021) Hadal mud dragons: . Frontiers in Mar. Scien.
- Sanei H, PM Outridge, K Oguri , GA Stern, B Thamdrup , F Wenzhöfer , F Wang , RN Glud. (2021) High mercury accumulation in deep ocean hadal sediments. Scient. Reports. 11:10970.
- Xu Y,Luo M, Xiao W, Fang J, Rashid H, Peng Y, Li W, Wenzhöfer F, Rowden AA, Glud RN. (2021) Distribution, source and burial of sedimentary carbon in Kermadec and Atacama Trenches. Jour. of Geophysi. Res. Biogeosci.
- Nakajima R, Tsuchiya M, Yabuki A, Masuda S, Kitahashi T, Nagano Y, Ikuta T, Isobe N, Nakata H, Ritchi H, Oguri K, Osafune S, Kawamura K, Suzukawa T, Yamauchi T, Iijima K, Yoshida T, Chiba S, Fujikura K. (2021) Massive occurrence of benthich plastic debris at the abyssal seafloor beneath the Kuroshia Extension, the North West Pacific. ScienceDirect.
- Schauberger C, Middelboe M, Larsen M, Peoples L, Bartlett DH, Kirpekar F, Rowden AA, Wenzhoefer F, Thamdrup B, Glud RN (2021) Spatial variability of procaryotic and viral abundance in the Kermadec and Atacama Trench regions. Limnol. Oceanogr. 66,2095-2109
- Glud RN, Berg P, Thamdrup B et al. Hadal trenches are dynamic hotspots for early diagenesis in the deep sea. Commun Earth Environ 2, 21 (2021).
- Fujiwara Y, Kawato M, Poulsen JY, Ida H, Chikaraisho Y, Ohkouchi N, Oguri K, Gotoh S, Ozawa G, Tanaka S, Miya M, Sado T, Kimoto K, Toyofuku T, Tsuchida S, (2021). Discovery of a colossal slickhead (Alepocephaliformes: Alepocephalidae): an active-swimming top predator in the deep waters of Suruga Bay, Japan. Nature Sci. Reports. 11,2490.
- Zhao X, Chen H, Li W, Xu Y. (2021) Temporal and spatial distribution of particulate organic carbon and microbial community respiration of Atacama Trench surface water , Chile. Oceanol. et Limnol. Sinica. 52(3) 648-656. (in Chinese, cover article)
- Xiang Y, Wang Y, Xiao W, Xu Y. (2021) Comparison of fatty acids in sediment from hadal and non-hadal sites of the Atacama Trench. Oceanol. et Limnol. Sinica. 52(3):635-647 (in Chinese with English abstract)
- Jamieson AJ, Lingley TD, Eigler SJ, Macdonald T. (2021) A global assessment of fishes at lower abyssal and upper hadal dephts (5000-8000m) Deep-Sea Res. Part 1 178: 103642
- Leduc D (2021) New free-living nematode species and records (Chromadorea: Plectida and Desmodorida) ffrom the edge and axis of Kermadec Trench, Southwest Pacific Ocean. Peer J: 12037
- Yilun C, Luo M, Chen D. (2021) Geochemical characteristics of detrital sediments in the Atacama Trench: Insight into the sediment provenance. Geoch. (in Chinese with English abstract)
- Schauberger C, Glud RN, Hausmann B, Trouche B, Maignien L, Poulain J, Winker P, Arnaud-Haond S, Wenzhöfer F, Thamdrup B. (2021) Microbial community structure in hadal sediments: high similarity along trenches and strong changes along redox gradients. ISME Jour.
- Jamieson AJ, Stewart HA, Rowden AA, Clark MR. (2020) Geomorphology and benthic habitats of the Kermadec Trench, SW Pacific Ocean. 949-966 in : Harris PT, Baker EK. (Editors) (Second edition) Elsevier Insight Series. (Elsevier , London, UK)
-
Xu Y, Zehoa J, Xiao W, Fang J, Wang Y, Luo M, Wenzhöfer F, Rowden AA, Glud RN. (2020) Glycerol dialkyd glycerol tetraethers in surface sediments from three Pacific trenches; Distribution, sources and environmental implications. Org. Chem. 147:10479
- Froe de E, Rovelli L, Glud RN, Maier SR, Duineveld G, Mienis F, Lavaleye M, Oevelen van D (2019) Benthic oxygen and nitrogen exchange on a cold-water coral reef in the North-East Atlantic Ocean. Frontiers Mar Sci 6:665
- Purser A, B Dorschell, S Dreutter, L Hehemann, H Herr, AJ Jamison, T Linley, RN Glud, HA Stewart, F Wenzhöfer (2019) Depression chains in seafloor of contrasting morphology, Atacama Trench margin. A comment on Marsh et al. 2018. R Soc Open Sci 6: 182053. h
- Stief P, ASB Lundgaard, TG Nielsen, RN Glud (2018) Feeding-related controls on microbial nitrogen cycling associated with the Arctic marine copepod Calanus hyperboreus. Mar Ecol Prog Ser: 602:1-14
- Stief P, Lundgaard ASB, Treusch AH, Thamdrup B, Grossart HP, Glud RN (2018): Freshwater copepod carcasses as pelagic microsites for dissimilatory nitrate reduction to ammonium. FEMS Micro. Ecol,
- Marzocchi U, Thamdrup B, Stief P, Glud RN (2018): Effect of settled diatom-aggregates on benthic nitrogen cycling. Limnology and Oceanography 63:431-444
- Luo M, RN Glud, B Pan, F Wenzhöfer, Y Xu, G Lin, D Chen (2018) Benthic carbon mineralization in hadal trenches: Insights from in situ determination of benthic oxygen consumption. Geophys Res Let 45:2752-2760 5,
- Stief P, ASB Lundgaard, A Morales-Ramierz, B Thamdrup, RN Glud (2017) Fixed-nitrogen loss associated with sinking zooplankton carcasses in a coastal oxygen minimum zone (Golfo Dulce, Costa Rica). Frontiers Mar Sci 4:152
- Lundsgaard, ASB, Treusch, A., Thamdrup, B, Glud, RN. (2017) Nitrogen cycling and bacterial community structure of sinking and ageing diatom aggregates. Aquatic Microbial Ecol. 79, 85-99
- Kitazato, H., K. Fujikura, P. Y.G. Sumida, V. Pellizari and J.A. Perez (2017) Rich geo- and bio-diversities exist in the South West Atlantic deep-sea: the first human-occupied submerse Shinkai 6500 dive cruise (Iata piuna). Deep-sea Res., II, 146, 1-3.
- Larsen M, P Lehner, SM Borisov, I Klimant, JP Fischer, FJ Stewart, DE Canfield, RN Glud (2016) In situ quantification of ultra-low O2 concentrations in oxygen minimum zones: Application of novel optodes. Limnol Oceanogr Meth 14:784-800
- Glud RN, P Berg, H Stahl, A Hume, M Larsen, BD Eyre, PLM Cook (2016) Benthic carbon mineralization and nutrient turn-over in a Scottish sea loch: An integrative in situ study. Aqua GeoChem 22:443-467
- Kamp A, P Stief, LA Bristow, B Thamdrup, RN Glud (2016) Intracellular nitrate of marine diatoms as a driver of anaerobic nitrogen cycling in sinking aggregates. Frontiers Microb 7:1669
- Wenzhöfer F, K Oguri, M Middelboe, T Toyofuku, H Kitazato, RN Glud (2016) Benthic carbon mineralization in hadal trenches: Assessment by in situ O2 microprofile measurements. Deep sea Res116:276-286
- Leduc D, AA Rowden, RN Glud, F Wenzhöfer, H Kitazato, MR Clark (2016) Comparison between infaunal communities of the deep floor and edge of the Tonga Trench: Possible effects of differences in organic matter supply. Deep Sea Res 116:264-275
- Stief P, A Kamp, B Thamdrup, RN Glud (2016) Anaerobic nitrogen turnover by sinking diatom aggregates at varying ambient oxygen levels. Frontiers Microb 7:98
- Glud RN, HP Grossart, M Larsen, KW Tang, KE Arendt, S Rysgaard, B Thamdrup, TG Nielsen (2015) Copepod carcasses as microbial hot spots for pelagic denitrification. Limnol Oceanogr 60:2026-2036
- Santner J, M Larsen, A Kreuzeder, RN Glud (2015) Two decades of chemical imaging of solutes in sediments and soils – a review. Anal Chemi Acta 878:9-42
- Rovelli L, KM Attard, LD Bryant, S Flögel; H Stahl; JM Roberts, P Linke, RN Glud (2015) Benthic O2 uptake of two cold-water coral communities estimated with the non-invasive eddy-correlation technique Mar Ecol Prog Ser 525:97-104
- Donis D, M Holtappels, C Noss, C Cathalot, K Hancke, P Polsenaere, F Wenzhöfer, A Lorke, FJR Meysman, RN Glud, DF McGinnis (2015) An assessment of the precision and confidence of aquatic eddy correlation measurements. J Atm Ocean Tech 32:642-655
- Turnewitsch R, S Falahat, J Stehlikova, K Oguri, RN Glud, M Middelboe, H Kitazato, F Wenzhöfer, K Ando, S Fujio, D Yanagimoto (2014) Recent sediment dynamics in hadal trenches: Evidence for the influence of higher-frequency (tidal, near-inertial) fluid dynamics. Deep Sea Res I 90:125-138
- Oguri K, K Kawamura, A Sakaguchi, T Toyofuku, I Kasaya, M Murayama, K Fujikura, RN Glud, H Kitazato (2013) Hadal disturbance in the Japan Trench induced by the 2011 Tohoku-Oki earthquake. Scientific reports 3:1915
- Glud RN, F Wenzhöfer, M Middelboe, K Oguri, R Turnewitsch, DE Canfield, H Kitazato (2013) High rates of microbial carbon turnover in sediments in the deepest oceanic trench on Earth. Nature geoscience 6:284-288
- Kawagucci, S., Y. T. Yoshida, T. Noguchi, M. C. Honda, H. Uchida, H. Ishibashi, F. Nakagawa, U. Tsunogai, K. Okamura, Y. Takaki, T. Nunoura, J. Miyazaki, M. Hirai, W. Lin, H. Kitazato and K. Takai, (2012) Disturbance of deep-sea environments induced by the M9.0 Tohoku Earthquake. Scientific Reports, 2, 270;
- Tang KW, RN Glud, A Glud, S Rysgaard, TG Nielsen (2011) Copepod guts as biogeochemical hotspots in the sea: Evidence from microelectrode profiling of Calanus spp. Limnol Oceanogr 56: 666-672
- Gooday, A.J., K. Uematsu, H. Kitazato, T. Toyofuku, and J. Young, (2010) Traces of dissolved particles, including coccoliths, in the tests of agglutinated foraminifera from the Challenger Deep (10,897 m water depth, western equatorial Pacific). Deep-sea Res. I, v. 57, 239-247
- Revsbech NP, RN Glud (2009) Biosensor for laboratory and lander-based analysis of benthic nitrate plus nitrite distribution in marine environments. Limnol. Oceanogr Meth 7:761-770
- Berg P, RN Glud, A Hume, H Stahl, K Oguri, V Meyer, H Kitazato (2009) Eddy correlation measurements of oxygen uptake in deep ocean sediments. Limnol Oceanogr Meth 7:576-584
- Kitazato, H., K. Uematsu, Y. Todo and A.J. Gooday, (2009) New species of Leptohalysis (Rhizaria, Foraminifera) from an extreme hadal site in the western Pacific Ocean. Zootaxa, v. 2059, 23-32.
- Gooday, A. J., Y. Todo, K. Uematsu, and H. Kitazato, (2008) New organic-walled Foraminifera (Protista) from the ocean’s deepest point, the Challenger Deep (western Pacific Ocean). The Zoological Journal to the Linnean Society, v. 153, 399-423
- Todo, Y., H. Kitazato, A. J. Hashimoto and A. J. Gooday, (2005) Simple foraminifera flourish at the ocean’s deepest point. Science, v. 307, 689.
- Nomaki, H., P. Heinz, M. Shimanaga, T. Nakatsuka and H. Kitazato, (2005) Species specific uptake of organic carbon by deep-sea benthic foraminifera: in situ tracer experiments. Limnology and Oceanography, v. 50, 134-146
- Kitazato, H., H. Nomaki, P. Heinz and T. Nakatsuka, (2003) The role of benthic foraminiferain deep-sea food webs at the sediment-water interface: Results from in situ feeding experiments in Sagami Bay. Frontier Research on Earth Evolution, v. 1, 227-232.
- Kitazato, H., Y. Shirayama, T. Nakatsuka, S. Fujiwara, M. Shimanaga, Y. Kato, Y. Okada, J. Kanda, A. Yamaoka, T. Masuzawa, and K. Suzuki, (2000) Seasonal phytodetritus deposition and responses of bathyal benthic foraminiferal populations in Sagami Bay, Japan: --Preliminary results from "Project Sagami". Marine Micropaleont., v. 40, no. 3, 135-149.