DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Ipnops
Ipnops
The Lower Bathyal and Abyssal Seafloor Fauna of Eastern Australia T
The Lower Bathyal and Abyssal Seafloor Fauna of Eastern Australia T
Euteleostei: Aulopiformes) and the Timing of Deep-Sea Adaptations ⇑ Matthew P
Comparative Feeding Ecology of Abyssal and Hadal Fishes Through Stomach Content and Amino Acid Isotope Analysis
Synopsis of the Ipnopidae (Pisces, Iniomi) with Description of Two New Abyssal Species
Underwater Hyperspectral Imaging As an in Situ Taxonomic Tool for Deep-Sea Megafauna Received: 5 March 2018 Ines Dumke 1,6, Autun Purser2, Yann Marcon 2,3, Stein M
Order AULOPIFORMES
Interrelationships of Aulopiformes
Food Habits and Body Composition of Some Dominant Deep-Sea Fishes from Temperate and Tropical Regions of the Western North Atlantic
Animal Eyes.Pdf
Fishes of the World
Assessment of Deep Demersal Fish Fauna Diversity of the Colombian Caribbean Sea
The Etyfish Project © Christopher Scharpf and Kenneth J
Origin and Phylogenetic Interrelationships of Teleosts Honoring Gloria Arratia
Table of Content
Paulo Presti Phylogenetic Relationships
Osteology and Relationships of Pseudotrichonotus Altivelis (Teleostei: Aulopifornies: Pseudotrichonotidae)
The Evolution of Fangs Across Ray-Finned Fishes (Actinopterygii)
Top View
Observations of Deep-Sea Fishes and Mobile Scavengers from the Abyssal DISCOL Experimental Mining Area Jeffrey C. Drazen1*, Astr
Megafauna of the UKSRL Exploration Contract Area
Cirrate Octopods with Associated Deep-Sea Organisms: New Biological Data Based on Deep Benthic Photographs (Cephalopoda)
Family-Ipnopidae-Overview-PDF-1.Pdf
ON the SUCCESS of the HADAL SNAILFISHES the Influence Of
Observations of Deep-Sea Fishes and Mobile Scavengers from the Abyssal DISCOL Experimental Mining Area
Flow Sensing in the Deep Sea: Morphology of the Lateral Line System in Stomiiform Fishes