Feature Pic: A yellowtail rockfish swims past a pink landscape dominated by strawberry anemones and hydrocorals on Cordell Bank. Photo: MARE and NOAA In July 2018, Marine Conservation Institute staff scientist Samuel Georgian stepped on board the NOAA research vessel Bell M. Shimada, beginning a two-week expedition to explore deep-water coral and sponge habitats off … Continue reading Deep But Not Deserted – Exploring Deep-Sea Ecosystems Off the California Coast
In May 2018, a joint Marine Conservation Institute and Marine Applied Research and Exploration (MARE) expedition will probe the deep seafloor within the Channel Islands National Marine Sanctuary. The sanctuary is home to an astonishing diversity of cold-water corals and sponges that build crucial habitat for a large number of fish and invertebrate species (e.g., … Continue reading Expedition Planning 101 – How Models Can Help Guide Deep-Sea Exploration
Seamounts are underwater mountains that rise from the seabed. Because most of the world’s seafloor is a muddy plain, seamounts are special deep-sea features that support unique creatures. Seamounts can arise along mid-ocean ridges, as isolated landmarks, or as volcanoes in chains and clusters. Off California, several seamounts were ancient islands that only went under … Continue reading 5 Reasons Seamounts Matter
Seamounts are underwater mountains rising thousands of feet from the bottom of the ocean. Due to their size and shape, seamounts exert a strong influence on local currents that results in nutrient enrichment and increased food supply. As a result, these massive features are often highly productive ‘oases’ in the deep sea, supporting a large … Continue reading Needle in a haystack: identifying vulnerable marine ecosystems in the deep sea
When most people think of a coral reef they are imagining a sunny tropical beach, but many coral species are actually found in the dark, cold waters of the deep sea1. These corals, commonly known as cold-water corals due to their preference for low temperatures, form beautiful ecosystems that are teeming with life. One of … Continue reading The Hunt for a Super Coral: Can Cold-Water Corals Adapt to Ocean Acidification?
Human industrial and agricultural activity has released massive quantities of carbon dioxide (CO2) into our atmosphere, with significant effects on our climate and oceans. About one-third of this atmospheric CO2 is absorbed by our oceans1, where it chemically interacts with seawater to reduce its pH – a scale that measures how acidic (lower pH values) … Continue reading A Tale of Two Cold-Water Coral Reefs