Filters: Tags: Ascidiacea (X)40 results (104ms)
Semi-quantitative study of macrobenthic fauna in the region of the South Shetland Islands and the Antarctic Peninsula
Recovery of Ecteinascidia turbinata Herman 1880 (Ascidiacea: Perophoridae) populations after different levels of harvesting on a sustainable basis
Natural super(15)N/ super(14)N Abundance as Evidence for N sub(2) Fixation by Prochloron (Prochlorophyta) Endosymbiotic with Didemnid Ascidians
Variability at different spatial scales of a coralligenous assemblage at Giannutri Island (Tuscan Archipelago, northwest Mediterranean)
Does early development of the Chilean tunicate Pyura praeputialis (Heller, 1878) explain the restricted distribution of the species?
Ecology of two introduced marine ascidians and their effects of epifaunal organisms in Long Island Sound
Structure and biodiversity of megabenthos in the Weddell and Lazarev seas (Antarctical: Ecological role of physical parameters and biological interactions
Modeling the effects of doliolids on the plankton community structure of the southeastern US continental shelf
Benthic Epifauna Biomass and Abundance Data, Arctic Marine Biodiversity Observing Network (AMBON) research cruise, August 2017
Marine biodiversity is a key component of ocean health. Monitoring and understanding marine biodiversity is essential for our ability to forecast and respond to changes. The goal of the Arctic Marine Biodiversity Observing Network (AMBON) project is to demonstrate and build an operational marine biodiversity observing network from microbes to whales, integrating diversity levels from genetic to organismal. AMBON field region is located on the Chukchi Sea continental shelf in the US Arctic as a region exposed to climatic changes and anthropogenic influences. This dataset contains biomass and abundance data collected in the Chukchi Sea during the August 2017 Arctic Marine Biodiversity Observing Network (AMBON) research...