Hydrothermal cooling of mid ocean ridge axes: Do measured and 717 modeled heat fluxes agree? Earth and Planetary Science Letters, vol.263, pp.140-150, 2007. ,
Hydrothermal plumes 719 along segments of contrasting magmatic influence, 15°20'-18°30'N, East Pacific 720 Rise; Influence of axial faulting: Geochemistry, Geophysics, Geosystems, p.721, 2001. ,
, , p.723, 2012.
, Structure, temporal evolution, and heat flux estimates from the Lucky Strike deep-724 sea hydrothermal field derived from seafloor image mosaics: Geochemistry, p.725
, , vol.13, p.4007
Permeability of the Lucky Strike 727 deep-sea hydrothermal system: Constraints from the poroelastic response to ocean 728 tidal loading: Earth and Planetary Science Letters, v. 408, pp.146-154, 2014. ,
731 Temporal variability and tidal modulation of hydrothermal exit-fluid temperatures 732 at the Lucky Strike deep-sea vent field, Journal of Geophysical 733 Research: Solid Earth, vol.119, issue.4, pp.2543-2566, 2014. ,
Hydrothermal chemistry of seawater from 25° to 735 350°C, vol.278, pp.838-860, 1978. ,
, , p.737
Fast and slow-spreading 738 ridges: Structure and hydrothermal activity, ultramaphic topographic highs, and 739 CH4 output, Journal of Geophysical Research, vol.98, issue.B6, pp.9643-9651, 1993. ,
Hydrothermal methane venting between 12°N and 741 26°N along the Mid-Atlantic ridge, Journal of Geophysical Research, vol.98, issue.B6, pp.742-9625, 1993. ,
, , p.744
, , p.745
MoMAR-D: a technological challenge to monitor the dynamics 746 of the Lucky Strike vent ecosystem: ICES Journal of Marine Science, vol.68, pp.747-416, 2011. ,
Three-dimensional geometry of axial magma chamber roof and faults at 750 Lucky Strike volcano on the Mid-Atlantic Ridge, Journal of Geophysical Research: 751 Solid Earth, 2015. ,
, , p.753
Hydrothermal vent fields and chemosynthetic biota on the 755 world's deepest seafloor spreading centre, Nature communications, p.756, 2012. ,
Hydrothermal seismicity beneath the summit of Lucky Strike 759 volcano, Mid-Atlantic Ridge: Earth and Planetary Science Letters, vol.373, p.128, 2013. ,
, , p.762
Crustal structure, magma chamber 763 and faulting beneath the Lucky Strike hydrothermal fields, Diversity, p.764, 2010. ,
, Hydrothermal Sytems on Slow Spreading Ocean Ridges, pp.765-113
, Evolution and Biogeography of Deep-Sea Vent and Seep Invertebrates: Science, v. 768 295, pp.1253-1257, 2002.
, , p.770
Evidence of a recent magma dike intrusion at the 771 slow spreading Lucky Strike segment, Journal of Geophysical 772 Research, vol.109, p.12102, 2004. ,
, , p.774
Globally-aligned photo mosaic of the Lucky 775 Strike hydrothermal Vent Field (Mid-Atlantic Ridge, 37°18.5'N): release of geo-776 referenced data, mosaic construction and viewing software, p.777, 2008. ,
, , vol.9, p.12009
, , p.779
Globally aligned photomosaic of 780 the Lucky Strike hydrothermal vent field (Mid-Atlantic Ridge, 37 degrees 18.50 ` N): 781 Release of georeferenced data, mosaic construction, and viewing software: 782 GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, 2008. ,
Lucky 784 Strike seamount: Implications for the emplacement and rifting of segment-centered 785 volcanoes at slow spreading mid-ocean ridges: Geochemistry, p.786, 2014. ,
, , vol.15, pp.4157-4179
ROV Jason 2 near-bottom multibeam bathymetry grids 788 from 6 vent fields in the Lau Back-arc Basin: Integrated Earth Data Applications 789 (IEDA), 2012. ,
Variable 791 morphologic expression of volcanic, tectonic, and hydrothermal processes at six 792 hydrothermal vent fields in the Lau back-arc basin: Geochemistry, p.793, 2008. ,
, , vol.9, p.7022
Along-axis hydrothermal 795 flow at the axis of slow spreading Mid-Ocean Ridges: Insights from numerical 796 models of the Lucky Strike vent field (MAR): Geochemistry, p.797, 2014. ,
, , vol.15, pp.2918-2931
, , p.799, 2011.
, Hydrothermally-induced melt lens cooling and segmentation along the axis of fast-800 31 and intermediate-spreading centers: Geophysical Research Letters, vol.38, p.801
, , p.803
A detailed study of the Lucky 804 Strike hydrothermal site and discovery of a new hydrothermal site, Menez Gwen, 1994. ,
, , p.808
Hydrothermal exploration of the Fonualei 809 Rift and Spreading center and the Northeast Lau spreading center, p.810, 2006. ,
, , vol.7, p.11022
, , 1996.
, Azores Triple Junction: tectonic control of venting at slow-spreading ridges: Earth 813 and Planetary Science Letters, vol.138, pp.93-104
, , p.815
Heat, volume and chemical fluxes from submarine venting: A synthesis 816 of results from the Rainbow hydrothermal field, 361N MAR: Deep-Sea Research I, vol.57, pp.518-527, 2010. ,
Non-transform 819 offsets along the Mid-Atlantic Ridge south of the Azores (38°N-34°N): Ultramafic 820 exposures and hosting of hydrothermal vents: Earth and Planetary Science Letters, vol.821, pp.89-103, 2000. ,
Volcano-tectonic variability 823 along segments of the Mid-Atlantic Ridge between the Azores platform and Hayes 824 fracture zone: Evidence from submersible and high-resolution side-scan sonar data, Modern ocean floor processes and the geological 826 record, vol.825, pp.1-15, 1998. ,
, , p.828
Diking, young 829 volcanism and diffuse hydrothermal activity on the southern Mid-Atlantic Ridge: 830 The Lilliput field at 9°33?S: Marine Geology, vol.266, pp.52-64, 2009. ,
Manifestations of 832 hydrothermal discharge from young abyssal hills on the fast-spreading East Pacific 833 Rise flank: Geology, vol.33, pp.153-156, 2005. ,
835 Geotectonic setting of hydrothermal activity on the summit of Lucky Strike 836 seamount (37°17'N, Mid-Atlantic Ridge): Geochemistry, Geophysics, Geosystems, vol.3, pp.10-1029, 2002. ,
Detailed morphology of the TAG active 839 hydrothermal mound: Insights into its formation and growth: Geophysical Research 840 Letters, vol.23, pp.3443-3446, 1996. ,
Hydrothermal sulfide 842 accumulation along the Endeavour Segment, Juan de Fuca Ridge: Earth and 843 Planetary Science Letters, v. 395, pp.136-148, 2014. ,
Geologic setting of the Snake Pit hydrothermal site: 845 an active vent field on the Mid-Atlantic Ridge: Marine Geophysical Researches, vol.846, pp.91-107, 1988. ,
Establishing a new era of submarine 848 volcanic observatories: Cabling Axial Seamount and the Endeavour Segment of the 849, 2014. ,
, Marine Geology, vol.352, pp.426-450
Relations between volcanism, 852 tectonism and hydrothermalism along the TAG segment of the Mid-Atlantic ridge, p.853, 1993. ,
Hydrothermal 855 manganese plumes in the Mid-Atlantic Ridge rift valley: Nature, v. 314, pp.727-731, 1985. ,
Fossil hydrothermal sulfide deposits at the 857, 1989. ,
, Galapagos Spreading Centre near 85°00 West: geological setting, mineralogy and 858 chronology: Oceanologica acta, vol.12, pp.1-8
, , p.860
Hydrothermal vents near a mantle hot spot: the Lucky Strike 862 vent field at 37°N on the Mid-Atlantic Ridge: Earth and Planetary Science Letters, vol.148, pp.69-91, 1997. ,
Water column hydrothermal plumes on the Juan de Fuca Ridge, Journal 865 of Geophysical Research, vol.95, issue.B8, pp.12829-12842, 1990. ,
Megafaunal distribution and assessment of total methane and sulfide 868 consumption by mussel beds at Menez Gwen hydrothermal vent, based on geo-869 referenced photomosaics: Deep Sea Research Part I: Oceanographic Research 870 Papers, vol.867, pp.93-109, 2013. ,
Quantifying diffuse and discrete venting at the Tour Eiffel vent 873 site, Lucky Strike hydrothermal field: Geochemistry Geophysics Geosystems, vol.874, p.4008, 2012. ,
, , vol.876
877 Direct evicence for the distribution and occurrence of hydrothermal activity 878 between 27°N -30°N on the Mid-Atlantic Ridge: Earth and Planetary Science Letters, vol.879, pp.119-128, 1994. ,
Sources and fluxes of 881 hydrothermal heat, chemicals and biology within a segment of the Mid-Atlantic 882 Ridge: Earth and Planetary Science Letters, vol.171, pp.301-317, 1999. ,
Initial 884 observations, bathymetry and photography of a geothermal site on the Kolbeinsey 885 Ridge, JOA Mexico, vol.88, pp.121-127, 1988. ,
887 Recent volcanic events and the distribution of hydrothermal venting at the Lucky 888 Strike hydrothermal field, Mid-Atlantic Ridge: GEOCHEMISTRY GEOPHYSICS 889 GEOSYSTEMS, 2009. ,
891 Recent volcanic events and the distribution of hydrothermal venting at the Lucky 892 Strike hydrothermal field, p.893, 2009. ,
, , vol.10, p.2006
Detailed study of 895 three contiguous segments of the Mid-Atlantic Ridge, South of the Azores (37°N to 896 38°30'N), using acoustic imaging coupled with submersible observations: Marine 897 Geophysical Researches, vol.19, pp.231-255, 1997. ,
, , p.899, 2010.
Hydrothermal Activity at the Arctic Mid-Ocean Ridges, p.900 ,
, Diversity of Hydrothermal Sytems on Slow 901 Spreading Ocean Ridges, pp.67-89
A novel blending 903 technique for underwater gigamosaicing, IEEE Journal of Oceanic Engineering, vol.37, issue.4, 2012. ,
High-resolution seafloor 906 mapping using the DSL-120 sonar system: Quantitative assessment of sidescan and 907 phase-bathymetry data from the Lucky Strike segment of the Mid-Atlantic Ridge: 908 Marine Geophysical Researches, vol.21, pp.121-142, 2000. ,
Seismic layer 2A variations in 910 the Lucky Strike segment at the Mid-Atlantic Ridge from reflection measurements: 911, Journal of Geophysical Research, vol.115, p.7107, 2010. ,
, , p.913
Discovery of a magma chamber and 914 faults beneath a Mid-Atlantic Ridge hydrothermal field: Nature, v, vol.442, p.1032, 2006. ,
Hundreds of small volcanoes on the median valley floor 917 of the Mid-Atlantic Ridge: Nature, vol.344, pp.427-431, 1990. ,
Widespread active detachment faulting and 919 core complex formation near 13°N on the Mid-Atlantic Ridge: Nature, v. 443, pp.920-440, 2006. ,
Hydrography and flow in the Lucky Strike segment of the Mid-923 Atlantic Ridge, Journal of Marine Research, vol.66, pp.347-372, 2008. ,
, , p.925
Hydrothermal anomalies in the Lucky Strike 926 segment on the Mid-Atlantic Ridge (37°17'N): Earth and Planetary Science Letters, 927 v, vol.142, pp.467-477, 1996. ,
Eruptive 929 hummocks: Building blocks of the upper ocean crust: Geology, vol.40, pp.91-94, 2011. ,