algae – Page 2 – NOAA Teacher at Sea Blog

NOAA Teacher at Sea
Miriam Hlawatsch
Onboard NOAA Ship Nancy Foster
July 29 – August 10, 2007

Mission: Lionfish Survey
Geographical Area: Atlantic Ocean, off the coast of North Carolina
Date: August 3, 2007

NOAA Teacher at Sea Miriam Hlawatsch recording weather data on the Bridge of the NANCY FOSTER.

Weather Data from Bridge
Visibility: 10 miles
Wind Direction: 186º
Wind Speed: 11 knots
Sea Wave Height: 1-2 ft.
Swell Wave Height: 2 ft.
Seawater Temperature: 28.6ºC
Sea Level pressure: 1017.3 mb (millibars)
Cloud Cover: 8 oktas, cumulous, cumulonimbus

Personal Log

I’ve been recording weather data for the last two days and spent three hours on the Bridge learning the responsibilities of the watch crew. When NANCY FOSTER began hydrographic multi-beaming at 1500 hours, there were several ships (tankers and small craft) in the area. The NOAA Officers on watch had to keep a careful eye on those vessels and, at times, let them know survey work was going on … so move over, please! Also, I’ve been able to watch as our dive locations were plotted on the nautical chart of Onslow Bay. Ensign Lecia Salerno explained that, as Navigation Officer, one of her duties is to update the nautical charts when NOAA informs her of changes. She must record these updates by hand as new charts are only printed every few years.

NOAA Teacher at Sea Miriam Hlawatsch attempting to read sea swells and sea wave height from the Bridge.

Science Log

Objective #3: Conduct cryptic/prey fish sampling using a special enclosure quadrat net.

In order to collect cryptic (small) prey fish, NOAA scientist Dr. Roldan Muñoz sets up a special enclosure net during his dive rotation. Divers in the next rotation retrieve the net with captured specimens. Dr. Muñoz examines the catch to determine the type and number of prey fishes (what lionfish may be eating) within a square meter. Such data provides a better understanding of the habitat community.

Objective #4: Characterize and quantify habitat and macroalgae with digital still photography and specimen collections.

Currently, not much is known about off shore Hard Bottom habitats where lionfish appear to be thriving. In order to understand the impact an outside force (i.e. lionfish) has upon a marine community, scientists must first examine the community in its original state. In other words, a baseline must be established. When Marine Phycologist Dr. D. Wilson Freshwater dives, his goal is to identify habitat characteristics and existing macroalgae. This is done via still photographs and specimen collections gathered every five meters along the transect line.

Dr. Freshwater’s photo showing seven types of algae.

Back in the lab, Dr. Freshwater processes his samples for species identification and DNA analysis. He reviews the photos, creates a list of everything he sees, then uses the computer to establish the percentage of cover and frequency of occurrence for each species. A comparison of the different sites is made and, from this empirical data, an overall picture of the community structure begins to emerge.

Note: I learned the term Hard Bottom refers the rocky outcrops that cover much of the continental shelf along the southeastern US from Cape Hatteras, NC to Cape Canaveral, FL. Fish are drawn to the hard bottom outcroppings; here, they find a source of food and shelter on what is otherwise a vast sandy sea floor. It explains why recreational fishermen often seek out hard bottom areas.

Dr. D. Wilson Freshwater processing algae specimens in the lab aboard NOAA ship NANCY FOSTER.

NOAA scientist Dr. Roldan Muñoz counting cryptic fish collected.

Hard Bottom habitat with lionfish invader.

NOAA Teacher at Sea
Patti Connor
Onboard NOAA Ship Albatross IV
July 31 – August 11, 2006

Mission: Sea Scallop Survey
Geographical Area: Northwest Atlantic
Date: August 2, 2006

Data: (collected mid-morning)
Air temperature = 17 C⁰ (62.6 F⁰)
Water temperature = 15.5 C⁰(60 F⁰)
Weather = sunny, windy
Depth of trawl = 45.4 meters (remember, a meter and a yard are pretty close)
Water salinity = 31.54 ppm
Wind speed = 13.52 knots

NOAA Teacher at Sea, Patti Connor, helps to sort sea scallops aboard NOAA ship ALBATROSS IV.

Science and Technology Log

Today we are sailing northeast of our sailing position yesterday. We are going to circle Georges Bank counterclockwise. Our dredges today were interesting. We continue to bring scallops in, but my watch team tells me there are more plentiful spots to come. At one site, we found so many sand dollars that I couldn’t believe my eyes. This particular species of sand dollar produces a very brilliant green colored pigment which stains everything (starfish, algae, fish and me!). I am learning to identify the many species of starfish that we bring in. One of my jobs is to count them at various sites by randomly selecting from the dredge material. At one site, I was counting hundreds of them. It’s amazing how well they can hide and are camouflaged in the algae. Many of the scallops have thick red layers of red algae on them (remember that red algae can grow at deeper depths because the red pigment can trap the minimal amount of sunlight needed for photosynthesis), and they also can be found carrying Porifera (sponges) on them which also helps them to be camouflaged.

Personal Log

I do love it out here. My inner ear and brain has adjusted to the perpetual motion of the boat. I have not had a problem with seasickness yet. It has helped that the weather has been nice. I am also doing well with the midnight to noon work schedule. It is a little funny to see the fog roll across the deck of the boat in the darkness of the night. Sunrise is my favorite time as the light changes how everything looks, especially the dredge samples, and it is nice to see the waves and the great expanse of the water.

Yesterdays invertebrate sample: Starfish (phylum = Echinodermata).

Tag: algae

Miriam Hlawatsch, August 3, 2007

Patti Conner, August 2, 2006