Environmental impacts of the deep-water oil and gas industry: a review to guide management strategies EE Cordes, DOB Jones, TA Schlacher, DJ Amon, AF Bernardino, ... Frontiers in Environmental Science 4, 58, 2016 | 398 | 2016 |
Hydrothermal vents and methane seeps: rethinking the sphere of influence LA Levin, AR Baco, DA Bowden, A Colaco, EE Cordes, MR Cunha, ... Frontiers in Marine Science 3, 195812, 2016 | 371 | 2016 |
Community structure and organization of tidepools A Metaxas, RE Scheibling Marine Ecology Progress Series, 1993 | 294 | 1993 |
Quantifying the “bio-” components in biophysical models of larval transport in marine benthic invertebrates: advances and pitfalls A Metaxas, M Saunders The Biological Bulletin 216 (3), 257-272, 2009 | 249 | 2009 |
Behaviour in flow: perspectives on the distribution and dispersion of meroplanktonic larvae in the water column A Metaxas Canadian Journal of Fisheries and Aquatic Sciences 58 (1), 86-98, 2001 | 219 | 2001 |
The current application of ecological connectivity in the design of marine protected areas AC Balbar, A Metaxas Global ecology and conservation 17, e00569, 2019 | 188 | 2019 |
Scientific rationale and international obligations for protection of active hydrothermal vent ecosystems from deep-sea mining CL Van Dover, S Arnaud-Haond, M Gianni, S Helmreich, JA Huber, ... Marine Policy 90, 20-28, 2018 | 183 | 2018 |
Estimating dispersal distance in the deep sea: challenges and applications to marine reserves A Hilário, A Metaxas, SM Gaudron, KL Howell, A Mercier, NC Mestre, ... Frontiers in Marine Science 2, 6, 2015 | 183 | 2015 |
Predicting suitable habitat for deep-water gorgonian corals on the Atlantic and Pacific Continental Margins of North America TL Bryan, A Metaxas Marine Ecology Progress Series 330, 113-126, 2007 | 175 | 2007 |
Promoting inclusive metrics of success and impact to dismantle a discriminatory reward system in science SW Davies, HM Putnam, T Ainsworth, JK Baum, CB Bove, SC Crosby, ... PLoS biology 19 (6), e3001282, 2021 | 152 | 2021 |
Embryology of vestimentiferan tube worms from deep-sea methane/sulphide seeps CM Young, E Vázquez, A Metaxas, PA Tyler Nature 381 (6582), 514-516, 1996 | 129 | 1996 |
Assessment of scientific gaps related to the effective environmental management of deep-seabed mining DJ Amon, S Gollner, T Morato, CR Smith, C Chen, S Christiansen, ... Marine Policy 138, 105006, 2022 | 113 | 2022 |
Operationalizing ecological connectivity in spatial conservation planning with Marxan Connect RM Daigle, A Metaxas, AC Balbar, J McGowan, EA Treml, CD Kuempel, ... Methods in Ecology and Evolution 11 (4), 570-579, 2020 | 106 | 2020 |
Vertical, lateral and temporal structure in larval distributions at hydrothermal vents LS Mullineaux, SW Mills, AK Sweetman, AH Beaudreau, A Metaxas, ... Marine Ecology Progress Series 293, 1-16, 2005 | 104 | 2005 |
Kelp in hot water: I. Warming seawater temperature induces weakening and loss of kelp tissue EJ Simonson, RE Scheibling, A Metaxas Marine Ecology Progress Series 537, 89-104, 2015 | 94 | 2015 |
High recruitment of the introduced bryozoan Membranipora membranacea is associated with kelp bed defoliation in Nova Scotia, Canada M Saunders, A Metaxas Marine Ecology Progress Series 369, 139-151, 2008 | 92 | 2008 |
Deep-sea misconceptions cause underestimation of seabed-mining impacts CR Smith, V Tunnicliffe, A Colaço, JC Drazen, S Gollner, LA Levin, ... Trends in Ecology & Evolution 35 (10), 853-857, 2020 | 91 | 2020 |
Responses of echinoid larvae to food patches of different algal densities A Metaxas, CM Young Marine Biology 130, 433-445, 1998 | 88 | 1998 |
Distribution of deep-water corals along the North American continental margins: relationships with environmental factors TL Bryan, A Metaxas Deep Sea Research Part I: Oceanographic Research Papers 53 (12), 1865-1879, 2006 | 87 | 2006 |
Exploring the ecology of deep-sea hydrothermal vents in a metacommunity framework LS Mullineaux, A Metaxas, SE Beaulieu, M Bright, S Gollner, BM Grupe, ... Frontiers in Marine Science 5, 49, 2018 | 85 | 2018 |