harmful algal bloom – Page 2 – NOAA Teacher at Sea Blog

August 13, 2009April 6, 2021

Bryan Hirschman, August 13, 2009

NOAA Teacher at Sea
Bryan Hirschman
Onboard NOAA Ship Miller Freeman (tracker)
August 1 – 17, 2009

Mission: 2009 United States/Canada Pacific Hake Acoustic Survey
Geographical area: North Pacific Ocean; Newport, OR to Port Angeles, WA
Date: August 13, 2009

Weather Data from Bridge (0800)
Visibility: 10 nautical miles
Wind: 6 knots
Wave Height: 1 ft
Wave Swell: 1-2 ft
Ocean temperature: 15.2⁰C
Air Temperature: 14.2⁰C

Science and Technology Log

This is the net reel. The unit attaches with four bolts in each corner

Life at sea can be very unpredictable. One minute everything is working great, and the next minute problems occur. Last evening a problem occurred with the net reel. The net reel is a large bull wheel that the nets roll into and out of when lowered in the water. The reel is spun by a huge engine that pulls the nets in when they are loaded with fish. This net reel is anchored to the boat with 16 huge bolts and nuts. Four of the bolts were found last night to be weakened during one of the daily inspections of ship’s mechanical instruments. The crew is constantly inspecting each piece of equipment to ensure the safest working conditions. Once this problem was seen all fish tows were canceled. We will be heading into port four days early to fix the problem.

An incorrect assembly of the bolts on the net reel

A correct assembly of the bolts on the net reel

Once in port the entire net reel will have to be lifted by crane and all the bolts will be replaced. The reel will then be lowered back in place and locked in place with nuts. Even though we are not fishing, other work on the ship is still occurring. The XBT (Expendable Bathythermograph) is deployed at regular intervals. This device sends depth and temperature data to a science laboratory to be recorded and used later (discussed in more detail in log 2).

Toxin-producing phytoplankton pseudo-nitzschia.

The HABS (Harmful Algal Bloom Sampling) research is also still being completed by Nick Adams, an oceanographer with NOAA. He takes water samples approximately every 10 nautical miles (1 nautical mile = 1.15 miles). After collecting the samples, he filters them for toxin and chlorophyll analysis. He also collects seawater for phytoplankton numeration and identification. His main focus is on toxin-producing genera, such as Pseudo-nitzschia and Alexandrium which are responsible for Amnesic Shellfish Poisoning and Paralytic Shellfish Poisoning, respectively. At the end of the cruise, Nick will be able to create a map of the concentrations and locations of toxin- producing phytoplankton. This will then be compared with data from years past to determine patterns and trends.

Toxin-producing phytoplankton Alexandrium

The phytoplankton themselves are not harmful to humans, but as they accumulate in the food chain there can be human-related sickness. If we eat the organisms that are eating the plankton that produce toxins, we can become ill. Not much is known about the cause of the toxin producers, but with more research like Nick’s, scientists continually increase their understanding and ultimately hope to prevent human sickness from these phytoplankton.

Personal Log

I am saddened to be cutting my journey earlier then expected, but I will leave the ship with fond memories of Pacific Hake, Humboldt Squid, and all the wonderful people who work on the ship. I am particularly grateful to the seven scientists who have gone out of their way to make me feel at home on the ship and have answered all of my questions. They are: the acoustic scientists: Dr. Dezhang Chu, Larry Hufnagle, and Steve de Blois; the fish biologists: Melanie Johnson and John Pohl; the oceanographers: Steve Pierce and Nick Adams. They are each extremely dedicated and passionate about their research and equally passionate about protecting our oceans and the organisms living there.

Scientists Steve de Blois, Larry Hufnagle, Dr. Dezhang Chu, and John Pohl

Challenge Yourself
Volunteers play an integral role in supporting the environmental stewardship conducted every day by the National Oceanic and Atmospheric Administration. Across the United States and its coastal waters, opportunities exist for volunteers to take part in research, observation and educational roles that benefit science, our citizens and our planet.

Visit this website to see where you can help

August 12, 2009April 6, 2021

Justin Czarka, August 12, 2009

NOAA Teacher at Sea
Justin Czarka
Onboard NOAA Ship McArthur II (tracker)
August 10 – 19, 2009

Mission: Hydrographic and Plankton Survey
Geographical area of cruise: North Pacific Ocean from San Francisco, CA to Seattle, WA
Date: August 12, 2009

Weather Data from the Bridge

Sunrise: 06:25 a.m.
Sunset: 20:03 (8:03 p.m.)
Weather: isolated showers/patchy coastal fog
Sky: partly cloudy
Wind direction and speed: North 10-15 knots (kt)
Visibility: unrestricted to less than 1 nautical mile (nm) in fog
Waves: northwest 4-6 feet
Air Temperature: 17.3 °C
Water Temperature: 16.6 °C

Science and Technology Log

Justin Czarka collects water samples to use in nutrient and chlorophyll research. While on the deck during “ops” (operation) all personnel must wear a life jacket and hardhat.

This log discusses the purpose behind the scientific cruise aboard the McArthur II. The cruise is titled, “Hydrographic and Plankton Survey.” The cruise is part of a larger study by many scientists to, in the words of chief scientist, Bill Peterson, “understand the effects of climate variability and climate change on biological, chemical and physical parameters that affect plankton, krill, fish, bird and mammal populations in Pacific Northwest waters.” This specific cruise focuses on hydrology, harmful algal blooms, zooplankton, krill, fish eggs, fish larvae, and bird and mammal observations.

I will provide an overview of these aspects of the cruise. The McArthur II is set up with sensors for salinity, temperature, and fluorescence that provide a continuous monitoring of the ocean (hydrology) throughout the cruise. In addition at various points along the transect lines (see the dots on the diagram of the cruise route on page 2), the CTD is deployed into the water column at specific depths to determine salinity (via measuring conductivity), water temperature, and depth (via pressure), and collect water samples (which we use to measure chlorophyll and nutrient levels at specific depths). The transects (predetermined latitudes that forms a line of sampling stations) have been selected because they have been consistently monitored over time, some since the late 1980s. This provides a historical record to monitor changes in the ocean environment over time.

The dots represent planned sampling station. Due to sea conditions, these have been slightly modified.

One scientist, Morgaine McKibben from Oregon State University, is researching harmful algal blooms (HAB). HABs occur when certain algae (the small plants in the ocean that are the basis of the food web) produce toxins that concentrate in animals feeding on them. As these toxins move up the food web through different species, they cause harmful effects in those species, including humans. Bill Peterson (NOAA/ Northwest Fisheries Science Center) and Jay Peterson (OSU/Hatfield Marine Science Center) are studying copepod reproduction. They are collecting data on how many eggs are laid in a 24 hour period, as well as how the copepod eggs survive in hypoxic (low oxygen) conditions. Mike Force, the bird and marine mammal observer is keeping a log of all species spotted along the cruise route, which is utilized by scientists studying the species.

Personal Log

Tiny squid collected in a vertical net and viewed under microscope on Crescent City transect line at 41 deg 54 min North.

Who said you never find the end of the rainbow? All you have to do is go out to sea (or become a leprechaun!). We have been going through patches of fog today, putting the foghorn into action. When it clears out above, yet is foggy to the horizon, you get these white rainbows which arc down right to the ship. We have become the pot of gold at the end of the rainbow. Who knew it was the McArthur II! If you follow the entire rainbow, you will notice that it makes a complete 360° circle, half on top the ocean and half in the atmosphere near the horizon.

I enjoyed using the dissecting microscope today.

The water collected from the vertical net is stored in a cooler on the deck to be used in experiments. I was able to collect a sample of the water, which contained a diverse group of organisms, from tiny squids to copepods to euphausiids. These tiny organisms from the size of a pinhead to a centimeter long are critical to the diets of large fish populations, such as salmon. Under magnification, one can see so much spectacular detail. I have learned how essential it is to have an identification guide in order to identify the names of each copepod and euphausiid. On the other hand the scientists tend to specialize and become very adept at identifying the different species.

Animals Seen Today

Arrow worms (long clear, with bristles)
Shrimp Copepods
Tiny rockfish (indigo colored eyes)
Fish larvae

August 4, 2009April 6, 2021

Bryan Hirschman, August 4, 2009

NOAA Teacher at Sea
Bryan Hirschman
Onboard NOAA Ship Miller Freeman (tracker)
August 1 – 17, 2009

Mission: 2009 United States/Canada Pacific Hake Acoustic Survey
Geographical area: North Pacific Ocean; Newport, OR to Port Angeles, WA
Date: August 4, 2009

Weather Data from the Bridge (0800)
Visibility: 10 miles
Wind: 2 knots
Wave Height: <1 ft
Wave Swell: 3 ft
Ocean temperature: 15.5⁰C
Air Temperature: 15.5⁰C

Science and Technology Log

We will be conducting several types of oceanographic sampling during our cruise: 2-3 Pacific hake tows per day (weather permitting), an open net tow where fish are viewed through a camera, XBTs: Expendable Bathythermograph (take temperatures at various depths), HABS: Harmful Algal Bloom Sampling, CTD: Conductivity, Temperature, and Density (also at various depths), and a Multiple Opening Plankton Net (collects living organisms at various depths). We will also release a Surface Drifter: floats with currents and sends information about currents via satellite.

The tows, XBTs and HABS are done from 7:00 am to 9:00 pm, while the CTD and plankton net are used during nighttime hours. By working in daytime and nighttime shifts the scientists are maximizing the boat’s usage. I was fortunate enough to help with the plankton net last night. Five samples were collected while I observed. Each sample was labeled and preserved for later use in a laboratory. Observed were amphipods, copepods, shrimp, and crab larvae.

Can you identify the animal I’m holding?

Our first Pacific hake tow came at approximately 8:00 am. The acoustic scientists use four transducers that are attached to the bottom of the boat. Each transducer sends out pulses of sound at a different frequency toward the bottom of the sea floor. The sound pulse then travels back to the boat and is recorded onto graphs. Fish and other biological organisms also reflect sound pulses. Each type of fish gives off a different signal depending on its size, shape, and orientation. The fish are then identified on a computer using acoustic analysis software. The strength of the sonar signal helps determine the biomass and number of fish. When the chief scientist see an interesting aggregation of fish to tow on, he calls the bridge (the brains of the boat–this is where the boat is controlled) and reports the latitude and longitude of where he wishes to fish. The ship then turns about and the deck hands work to lower the tow net and prepare to collect fish at the depth the scientists observed the fish.

After the fish are collected, the Pacific hake are weighed and counted. A sub-sample of about 300 Pacific hake is sexed and lengthed. Another sub-sample of about 50 Pacific hake is weighed, sexed, and lengthed; sexual maturity is determined by observation of the gonads, and ear bones are removed – this will enable scientists to determine the age of the fish. About 10 Pacific hake have their stomach contents sampled as well. All this information is collected and used by Fishery Biologists to determine the population dynamics of the overall Pacific hake stock. The acoustic scientists also save all their data in an acoustic library. This will help scientists to analyze the Pacific hake biomass (population) while minimizing how many live specimens they need to collect. In total we completed three tows today. That’s a lot of Pacific hake to measure, weigh, and sex.

Personal Log

The ship is loud. Sleep was hard to come by last night. Living in quiet Vermont has made me a light sleeper. I need to work on adjusting to the constant noise. The food and staff are great. Everyone takes pride in their ship and the work which is done on the ship.

Question of the Day
Can you identify the beast in the picture to the picture?

Animals Seen Today
Pacific Hake, Humboldt Squid, Myctophids, Breaching Whale (too far away to identify; most likely a Humpback)

July 26, 2009April 5, 2021

Jennifer Fry, July 26, 2009

NOAA Teacher at Sea
Jennifer Fry
Onboard NOAA Ship Miller Freeman (tracker)
July 14 – 29, 2009

Mission: 2009 United States/Canada Pacific Hake Acoustic Survey
Geographical area of cruise: North Pacific Ocean from Monterey, CA to British Columbia, CA.
Date: July 26, 2009

Weather Data from the Bridge
Wind speed: 10 knots
Wind direction: 100° [from the east]
Visibility: fog
Temperature: 13.5°C (dry bulb); 13.5°C (wet bulb)
Sea water temperature: 10°C
Wave height: 1ft.
Swell direction: 315° Swell height: 6 ft.

Science and Technology Log

We conducted a number of HAB, Harmful Algal Bloom sample tests. The Harmful Algal Bloom test takes samples at predetermined location in our study area. The water is filtered to identify the presence of toxic plants (algae) and animals (zooplankton). The plankton enter the food chain specifically through clams and mussels and can be a possible threat to human health.

We also conducted XBTs, Expendable Bathythermograph; and one fishing trawl net. The trawling was successful, catching hake, squid, and Myctophids. Fishery scientist, Melanie Johnson collected specific data on the myctophids’ swim bladder. The swimbladder helps fish regulate buoyancy. It acts like a balloon that inflates and deflates depending on the depth of the fish. Sharks on the other hand have no swim bladder. They need to swim to maintain their level in the water. Marine mammals such as dolphins and whales have lungs instead of a swimbladder. Most of the sonar signal from the fish comes from their swimbladder. The study of the swimbladder’s size helps scientists determine how deep the fish are when using the sonar signals and how strong their sonar signal is likely to be.

Commander Mike Hopkins, LTjg Oliver Brown, and crewmember John Adams conduct a marine mammal watch on the bridge before a fishing trawl.

The scientists tried to conduct a “swim through” camera tow, but each time it was aborted due to marine mammals in the area of the net. During the “Marine Mammal Watch” held prior to the net going in the water, we spotted humpback whales. They were observed breeching, spouting, and fluking. The humpback then came within 30 feet of the Miller Freeman and swam around as if investigating the ship.

Animals Seen Today
Fish and animals trawled: Hake, Squid (Cephalopod), and Myctophids.
Marine Mammals: Humpback whale.
Birds: Albatross, Fulmar, and Shearwater.

July 23, 2009April 5, 2021

Jennifer Fry, July 23, 2009

NOAA Teacher at Sea
Jennifer Fry
Onboard NOAA Ship Miller Freeman (tracker)
July 14 – 29, 2009

Mission: 2009 United States/Canada Pacific Hake Acoustic Survey
Geographical area of cruise: North Pacific Ocean from Monterey, CA to British Columbia, CA.
Date: July 23, 2009

Here I am in the lab helping with the HAB samples.

Weather Data from the Bridge
Wind speed: 15 knots
Wind direction: 350°from the north
Visibility: clear
Temperature: 12.0°C (dry bulb); 11.8°C (wet bulb)
Sea water temperature: 9.7°C
Wave height: 2 ft.
Swell direction: 000°
Swell height: 4 ft.

Science/Technology Log

We began the day conducting 2 HAB (Harmful Algal Bloom) sample tests of the ocean. This tests the amount of plankton in the water. Scientists test this because some plankton can carry harmful toxins that can get into the fish and sea life we eat, such as clams. Later we sighted numerous marine mammals including: 2 humpback whales (breaching), 12 Pacific white-sided dolphins, and California sea lions.

We made two trawls which provided plenty of hake for us to observe, measure, and collect data. Acoustic Judging: One important aspect of the acoustic hake survey is what scientists do when not trawling. There is a process called judging that fishery biologist, Steve De Blois spends most of his day doing. While looking at acoustic data, he draws regions around schools of fish or aggregations of other marine organisms and assigns species identification to these regions based on what he sees on the acoustic display and catch information gathered from trawls. He uses 4 different frequencies to “read” the fish signals—each shows different fish characteristics. Having started at the Alaska Fishery Science Center in 1991, this is Steve’s 19^th year of participating in integrated acoustic and trawl surveys and his eighth acoustic survey studying Pacific hake. He’s learned how to read their signs with the use of sonar frequencies and his database. Steve tells us about the importance of science: “Science is a methodology by which we understand the natural world.”

New Term/Phrase/Word Pelagic: relating to, living, or occurring in the waters of the ocean opposed to near the shore. In terms of fish, this means primarily living in the water column as opposed to spending most of their time on the sea floor.

Steve De Blois, NOAA Research Fishery Biologist, shares acoustic datawith Julia Clemons, NOAA Oceanographer, aboard the Miller Freeman. — Steve De Blois, NOAA Research Fishery Biologist, shares acoustic data
with Julia Clemons, NOAA Oceanographer, aboard the Miller Freeman.

Did You Know?
Northern fur seals are pelagic for 7-10 months per year. Pelagic Cormorant birds live in the ocean their entire life.

Animals Seen Today
Humpback whales (2), Pacific white-sided dolphin (12), California sea lions (6), and Northern fur seal.

In Praise of…Harmful Algal Bloom Samples
Crystal cold ocean water running through clear plastic pipes
Be patient as containers are carefully rinsed out three times.
The various sized bottles are filled with the elixir of Poseidon
Accurate measuring is essential.
Consistency ensures accurate results.
Once the water is filtered, tweezers gently lift plankton-laden filter papers.
All samples await analysis in the 20°F freezer.
Data from each test is later recorded;
Levels of domoic acid, Chlorophyll,
And types, populations, and species of phytoplankton and zooplankton.