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- Sutton, Tracey T., et al. Show all 9 Authors
- Journal of biogeography 2018 v.45 no.2 pp. 500-514
- algorithms; basins; biogeography; biotopes; climatology; ecosystem management; environmental factors; environmental models; latitude; oceans; wildlife management
- ... AIM: Following the biogeographical approach implemented by Longhurst for the epipelagic layer, we propose here to identify a biogeochemical 3‐D partition for the mesopelagic layer. The resulting partition characterizes the main deep environmental biotopes and their vertical boundaries on a global scale, which can be used as a geographical and ecological framework for conservation biology, ecosyste ...
- Sutton, Tracey, et al. Show all 9 Authors
- Molecular phylogenetics and evolution 2016 v.104 pp. 73-82
- Coryphaenoides; biogeography; habitat preferences; marine fish; oceans; phylogeny; species diversity; taxonomic revisions; Atlantic Ocean; Pacific Ocean
- ... Here we consider the role of depth as a driver of evolution in a genus of deep-sea fishes. We provide a phylogeny for the genus Coryphaenoides (Gadiformes: Macrouridae) that represents the breadth of habitat use and distributions for these species. In our consensus phylogeny species found at abyssal depths (>4000m) form a well-supported lineage, which interestingly also includes two non-abyssal sp ...
- Sutton, Tracey, et al. Show all 12 Authors
- Progress in oceanography 2015 v.138 pp. 105-115
- biogeography; nekton; oceans; zooplankton; Arctic region; Atlantic Ocean
- ... Broad-scale patterns in the distribution of deep-sea pelagic species and communities are poorly known. An important question is whether biogeographic boundaries identified from surface features are important in the deep mesopelagic and bathypelagic. We present community analyses of discrete-depth samples of mesozooplankton and micronekton to full-ocean depth collected in the area where the Mid-Atl ...