seabirds – Page 17 – NOAA Teacher at Sea Blog

April 22, 2005March 18, 2021

Melissa Fye, April 22, 2005

NOAA Teacher at Sea
Melissa Fye
Onboard NOAA Ship Hi’ialakai
April 4 – 25, 2005

Mission: Coral Reef Ecosystem Survey
Geographical Area: Northwest Hawaiian Islands
Date: April 22, 2005

Location: Latitude: 23*36.3’North, Longitude: 164*43.0’W

Weather Data from the Bridge
Visibility: 10
Wind Direction:90
Wind Speed: 14 knots
Sea Wave Height: 2-4 feet
Swell Wave Height: 5-7 feet
Sea Level Pressure: 1018.8
Cloud Cover: 2/8 Cu, As, Si
Temperature outside: 24.4

Science and Technology Log

At 0500, surveying of the ocean floor was concluded and transit to Honolulu began. Scientists in the lab compiled more data and finished up the survey trip with a benthic habitat map of the French Frigate shoals. There are still a few bits of editing to do on the map and some borders need to be added to the final form, but overall it is complete. Scientist Joyce Miller showed me an overview of the completed work using Fladermouse, or a computer mouse, that gives an onlooker the view a bat would have flying over the map. It is a 3-D view of the map, giving its operator the ability to zoom in on underwater pinnacles, sand waves, and coral reefs from any direction. The contours of the ocean floor were very apparent and Joyce Miller commented that the AHI, new software, etc., enabled the scientists to create the final product much faster; this being the first time they had all the data compiled into map form before the end of a cruise. It was exciting to see all the surveying work put into one picture. With surveying complete for this cruise, and much of the editing done, scientists and crew spent the day doing laundry, finishing up tidbits of work, watching the sunset, etc. The HI’IALAKAI is expected to arrive in the University of Hawaii’s port by 0800, Saturday, April 23, 2005.

Personal Log

I spent the day answering the last of the emails from students, printing off previously completed emails and logs, and snapping pictures of the ship and persons aboard. Scientists showed me completed benthic maps in the lab and I began packing up my things. It has been a terrific experience and I was lucky to be onboard with such hospitable people. I have truly enjoyed my time aboard the HI’IALAKAI and I have learned so much about ships, coral ecosystems, the Hawaiian islands, scientific data collecting, and those people on board this cruise. I’m taking back to my classroom a wealth of resources like maps, charts, a binder of lessons, and many photographs and digital movies to weave into science lessons. But more importantly than those things, I will be bringing back to the classroom real-life enthusiasm for the application of science in the real world. I have experienced first hand, biological ecosystems, weather instruments and measurements, and map making, in a real life context. I want my students to know that life is not a collection of things, but a collection of experiences. I hope this trip (the resources and anecdotal stories I bring back to the classroom) encourages them to explore opportunities as they arise in their own lives. As a teacher, my underlying goal is to teach my students that learning should be a life long adventure! And isn’t that what this trip is really all about? Even with all the pictures I have taken and emails I have written, no one will ever have an experience like I have had on board the HI’IALAKAI. Thank you to NOAA, CO Kuester, Lead Scientist Scott Ferguson, and everyone else I have encountered on this trip!

QUESTION OF THE DAY: There are “rivers” of water in oceans that are called currents. What is name of the current that runs the entire length of the east coast? How does it affect people on the east coast?

ANSWER TO YESTERDAY’s Question: CO Kuester (commanding officer) has given commands for the ship to arrive at the entrance to Honolulu Harbor by 0700 on Saturday, April 23rd. The ship has 260 nautical miles to still cover, and we travel ten knots an hour. 1) How many hours will it take us to reach our destination? 26 hours 2) A nautical mile > a statute mile (mile on land) if…

1 nautical mile (1 knot) = 1.15 statute miles then… 260 knots = 299 statute miles

April 20, 2005March 18, 2021

Melissa Fye, April 20, 2005

NOAA Teacher at Sea
Melissa Fye
Onboard NOAA Ship Hi’ialakai
April 4 – 25, 2005

Mission: Coral Reef Ecosystem Survey
Geographical Area: Northwest Hawaiian Islands
Date: April 20, 2005

Location: Latitude: 23*36.3’North, Longitude: 164*43.0’W

Science and Technology Log

Early before daybreak we arrived at Nihoa island to conduct a CTD cast (conductivity, temperature, and depth measurements). By three o’clock a.m., the HI’IALAKAI began running north/south and east/west survey lines of the ocean floor. The ship continued throughout the day, surveying the ocean floor using the multibeam system for benthic habitat mapping.

Personal Log

The trip is winding down and as the end approaches, I am finishing my interviews with the crew of the HI’IALAKAI. I sent out word that I would take anything that anyone has to give away. Several of the officers and crew have been kind enough to give me CDs of past diving trips, maps, and photographs taken on board that I may have missed. I have been reading some of the weather and ocean resources aboard also. We did have an unexpected visitor aboard today. A four foot Wahu fish was caught on the chief steward’s fishing line and filleted for dinner. Its scales were a silvery blue/green color and it had rows of very sharp teeth. I’ve included pictures of it in this log. I also concluded some interviews with other members of the scientific team. Information on scientists Scott Ferguson, Kyle Hogrefe, Emily Lundblad, Jonathan Weiss, and Rob O’Connor are included in this log.

Lead Scientist Scott Ferguson works for the University of Hawaii and acts as a contract scientist for NOAA. He is originally from Colorado and Tennessee and went to college in Boston. While in high school, he remembers becoming interested in oceanography and also recalls opening a National Geographic Magazine as an adolescent, which contained hand drawn maps of the ocean and may have subsequently planted the seed for his current specialization in benthic habitat mapping. He obtained a degree in biology, specializing in genetics, while an undergraduate student in Boston. His current assignment is based on grant work submitted by a group of scientists to collect data, based on the most available science, about the sea floor in the Northwestern Hawaiian Island chain. The data collected from this trip, which in turn will be made into maps, will be made available to any managers of the various resource management groups (including the Fisheries Department, state agencies, agencies which protect sea turtles, monk seals, etc.). Nautical charts available at this time are inadequate for use for management of resources in the area, so the multibeam sonar and the scientists aboard have been collecting much more detailed data about the ocean floor for these agencies. The information gathered will determine fishing guidelines, etc., and will help determine boundaries for sanctuary designation of this ecological system. Mr. Ferguson finds this career interesting because it is not routine and provides opportunities for problem solving. The tool he uses most is the computer to collect data. He comments that someone interested in this field of science should build knowledge through mathematics courses, computer classes, and be able to express themselves well through written medium. Persons who consistently pay attention to detail and are inquisitive are well suited to this work, according to Mr. Ferguson. Mr. Ferguson and his wife, scientist Joyce Miller, will spend 3-4 months a year on assignment in the Pacific Ocean. As an added side note, he, his wife, and their cat take up permanent residence on a boat when not working in the office or out to sea!

Marine Ecosystem Specialist, Kyle Hogrefe, spoke to me in an earlier log about the Ghost Net Project and marine debris trips he has taken part in. I took the time today to interview him more thoroughly about the work he does. Mr. Hogrefe is originally from Medina, Ohio and obtained an undergraduate degree from the University of Colorado in environmental science. He has worked as a debris specialist, fisheries observer in Alaska, and taken jobs related to data management and mapping to increase his knowledge base. His duties on this cruise involve the deployment and retrieval of oceanographic data platforms. His job is important because these devices collect long term data about ocean currents, temperatures, etc. which may effect populations of aquatic species of plants and animals over time. Mr. Hogrefe comments that the best part of his job involves the sense of adventure, travel, and diving he gets to do. He comments images from childhood watching Jacques Cousteau may have led to his career choice. He will spend roughly 6 months at sea this year and the drawbacks of his career involve time away from friends and family. The tool he uses most often is his brain to make decisions and a physical piece of equipment he utilizes often is a lift bag. Patience and an ability to put personal differences aside while working with colleagues are attributes one should possess; according to Scientist Hogrefe.

GIS (Geography Information Systems) scientist Emily Lundblad is originally from the state of Texas and has a master’s degree in Marine Resource Management. Her interest in mapping was sparked from a guest speaker who spoke at her high school. It is a very math/science oriented field and the computer is her most important tool. She believes the best part of her job is the travel and the ability to see the application of her work. She enjoys going to sea to help collect the data, whereas she would normally just edit and process it. Miss Lundblad will take part in three cruises at sea this year to help collect mapping data. She mentions that her job on land requires normal eight hour days, but time at sea is different , requiring 12 hour shifts.

Sea floor mapping specialist Jonathan Weiss is a Northern Virginia native, originally from Alexandria, and a graduate of William and Mary. His undergraduate degree is in Geology and he received a graduate degree in Marine Geology from the University of Hawaii. He comments that he has always been curious about the earth and its structure and that research on plate tectonics has revolutionized this field of scientific research. His job requires him to work on backscatter to process the imagery data about the sea floor texture and his most important tool is the computer. He encourages anyone interested in this line of work to take lots of math courses and a broad overview of the sciences. He enjoys his first post graduate job because the hours are flexible enough for hobbies (like surfing), his bosses are encouraging, and he works with many people his own age. He will spend roughly four months at sea this year in the field.

Rob O’Connor, GIS specialist, originates from Texas but has spent most of his life in Maui, Hawaii. His educational background includes an undergraduate degree in Geography from the University of Hawaii. He comments that the computer is also his most important tool for his job and that he became interested in aspects of the earth after taking some introductory geography courses in college. His duties include data processing and cartography (map making). The travel is an added benefit for this line of work and Mr. O’Connor adds that a person should possess good interpersonal skills and computer knowledge to be successful in this occupation. This is his first cruise of the year as a GIS specialist.

QUESTION OF THE DAY: I have seen many sea creatures around the Northern Hawaiian Islands coral reef ecosystem. Animals such as the whitetip shark, sea turtles, and monk seals. These animals are all living things that eat other living things for energy. In a food web, they are called _______________________.

ANSWER TO YESTERDAY’s Question: Ms. Fye saw a humpback whale near the starboard side of the ship the other day. It was performing an adaptive behavior. Fill in the blank to find out what adaptation the whale was performing. The movement of an animal from one region to another and back again is called migration.

April 14, 2005March 18, 2021

Melissa Fye, April 14, 2005

NOAA Teacher at Sea
Melissa Fye
Onboard NOAA Ship Hi’ialakai
April 4 – 25, 2005

Mission: Coral Reef Ecosystem Survey
Geographical Area: Northwest Hawaiian Islands
Date: April 14, 2005

Location: Latitude: 23*36.3’North, Longitude: 164*43.0’W

Science and Technology Log

Today’s operations involved launching the AHI once again, with 3 scientists onboard, to do more benthic habitat mapping around the more shallow areas of the French Frigate Shoals. Mapping operations were cut short early today for a little rest and relaxation for the crew, scientists, and some NOAA corps members. Around two o’clock pm, the AHI was recovered and the ship launched speedboat HI#1 with 7 members of our ship to Tern Island for a barbeque. Tern Island, as mentioned in previous logs, is a bird sanctuary run by the Fisheries Service of the Department of Interior. In has anywhere from 6-14 personnel at a time counting, tagging, and collecting data on reproductive rates of bird species on the island. The scientists and volunteers on Tern Island invited the HI’IALAKAI for some rest and good food, in turn for a tour of the ship. After the first shuttle was launched, it brought back 4 members of Tern Island to take a tour of the ship, and it then turned around and took 10 more of the crew to the barbeque. The shuttle ran all day, some members of the HI’IALAKAI also went fishing instead of visiting Tern.

At Tern Island, a tour was lead by the manager of the sanctuary, and after a feast of hamburgers and hot dogs and the like, we were lead on a snorkeling trip on the north side of the island. We were careful not to disturb the birds, and entered the ocean to snorkel the underwater ecosystem. Other scientists, Corps officers, crew, engineers, and myself, dove below the surface to see several colorful fish, a small whitetip reef shark, sea slugs, sea turtle, and a submerged barge. It was very clear and the inhabitants of the reef ecosystem were easily seen. The last shuttle returned to the ship around 6:30 p.m., and data editing and sonar mapping resumed on board.

Personal Log

After breakfast this morning, I typed logs and answered email. By mid morning, I helped the chief engineer, below deck, do engine room check of all the machinery below. He showed me how to check the temperature readings and gages on the engines and systems. This type of check, is done three times a day to make sure all machinery is running smoothly. Where there were no gauges to be read, Lobo used a Raytek Thermal Sensor gun, to take readings through pipes. Next, I ate lunch and prepared for the trip to Tern Island. I borrowed snorkeling gear from several members of the ship and embarked on another great adventure. I never thought I would have had so many chances to see the underwater ecosystems of the Northern Hawaiian Islands while out to sea. It is wonderful to explore underwater, and it is new and different every time. The water was particularly clear near Tern and I took pictures of things like brain coral. Its name stems from the fact it looks like a brain and it was a bright green color. I also took pictures of the birds, like the albatross, concentrating this time on recording images of their adaptations (like beak shape and feet formation) to use in later lesson plans. It was a wonderful day and the snorkeling thoroughly wore me out by day’s end.

QUESTION OF THE DAY for my fourth grade students: Use a reference source. 1) What is the name of the wettest place on earth? (Hint: it somewhere in Hawaii.) 2)List the name of the reference source you used (this includes websites remember!) 3)The annual average rainfall of this place is 661 inches a year. How many feet of water is that?___ How many yards?____

ANSWER TO YESTERDAY’S Question: If the ship rolls 9 times in one minute in 1-2 foot seas, how many times will it roll in one hour? 9×60=540 times How many times will it roll in one 24 hour period? 24×540=12,960 times! Imagine how many times the ship rolls when there is a storm at sea!

PICTURES OF THE DAY: Ship HI’IALAKAI, Tern Island Bird Adaptations (many of the underwater pictures I am taking cannot be posted at this time because they are on film that hasn’t been processed (not digital)

April 8, 2005March 18, 2021

Melissa Fye, April 8, 2005

NOAA Teacher at Sea
Melissa Fye
Onboard NOAA Ship Hi’ialakai
April 4 – 25, 2005

Mission: Coral Reef Ecosystem Survey
Geographical Area: Northwest Hawaiian Island
Date: April 8, 2005

Location: Latitude: 28.5 N, Longitude: 49.3 W

Weather Data from the Bridge
Visibility: 10 nautical miles
Wind Direction: 42
Wind Speed: 16 kts
Sea Wave Height: 3 feet
Swell Wave Height: 3-4 feet
Sea Water Temperature: N/A
Sea Level Pressure: 1021 mb
Cloud Cover: 3/8 SC, AS, Ci

Science and Technology Log

The HI’IALAKAI continued running survey lines laid out by scientists across the Pacific Ocean to add to data for the creation of benthic habitat maps. Approximately 10 AM this morning several scientists deployed the AHI research boat with 2 computer engineers aboard from our ship. The engineers were on board to get the new sonar system up and running and correct any glitches as they occurred. Their services did not require them to be on board for the whole cruise, so they went on the AHI this morning to Tern Island to rendezvous with a small plane to fly them back to Honolulu. I began interviewing Scientist Kyle Hogrefe in the dry lab and he showed me a slide show regarding the GhostNet project and the subtropical convergent zone. The projects concern the studies of winds and currents converging in the Pacific Ocean, sometimes coming together near the Hawaiian Islands, which entangles and clumps debris from humans (fishing nets, Bic liters, toothbrushes-things littered into the sea) and damages coral reefs and kills marine life, choking or strangling them.

Many dead sea animals have been found, the cause of death due to their bodies being full of garbage like lighters and plastics, which ends up getting entangled in their organs or choking them. Mr. Hogrefe works as a Marine Debris Specialist and often goes on diving trips which reclaim some of the pollution that endangers ocean ecosystems. An hour later I boarded a shuttle boat with the Commanding Officer (CO), a deck hand, and chief boatswain to also go to Tern Island and take a tour of the bird, monk seal, and turtle refuge, run by the Fisheries Dep’t (Dep’t of Interior)on the island. Jennifer, the manager of the sanctuary, led the CO and me on a tour of the half mile long island, which is nothing more than a few research barracks, a landing strip, and thousands of birds. The studies they are conducting for Hawaii’s bird population proved to be very interesting.

At this time, a manager and 3 volunteers are stationed on the island for a minimum of 4 months at a time to count bird eggs, tag chicks, and count the adult species. Tern Island bird sanctuary has the largest collection of data in the world on the species of birds which spend their lives flying over the ocean and which are indigenous to the Hawaiian Island Chain. The data has been collected for over 30 years, the reproductive rates of the birds are improving, and the work there will lead to the Albatross bird being put on the endangered species list. More than 90 percent of Hawaii’s bird population uses the island as a mating area. The birds which reproduce on Tern, once adult, may spend up to 4 years flying over the ocean without ever stopping and their bodies have a way for the bird to rest or sleep while in flight. We learned about adaptations, like a waterproofing gland at the base of the bird’s body to protect them from ocean water, and we also saw a monk seal, and 5 huge sea turtles. A binder was also given to me about a unit of lessons called “Navigating Change”, involving the Northwestern Hawaiian Island Chain that can be used to teach respect and understanding of the ocean and environment to 4th and 5th graders. It was an invaluable gift! We then boarded the shuttle back to ship for the 15 minute ride across the ocean. Returned to the HI’IALAKAI at approximately 4:30 PM. A CTD cast was made (Conductivity, Temperature, Depth measurement in the ocean) at approximately 6 pm. Deck hand/Surveyor Jeremy Taylor lead a group of new surveyors through the steps to conducting a cast and retrieving the data sent up through the cable. Survey lines continued to be performed by the ship at 7 knots.

Personal Log

I was very busy today and it was the most exciting day of the trip so far. I arose to eat breakfast and send out my computer logs, answer emails, and send pictures to my class via the internet. I soon interviewed scientist Kyle Hogrefe aboard the ship and learned a lot about marine debris, as mentioned in the science log above. I then boarded the shuttle boat to Tern Island, watched the computer engineers take off in their small Cessna plane and took a fantastic tour of the place. The bird sanctuary teemed with thousands of birds! As soon as you stepped foot on the island, you saw thousands of birds flying and roosting below. Literally thousands of birds blanketed the entire island except for the landing strip in the middle. The entire place is covered with bird feces and I was rightfully inducted as a visitor when a bird pooped on my leg! Ha Ha!

There are many interesting species of birds living on the island and the 4 people living there are tracking the reproductive rates of the birds. The sounds the birds make are actually the same sound bites used in the movie, “The Birds!” After a great tour of the place, I saw my first monk seals and gigantic sea turtles and took many pictures. After returning to the island I spent the afternoon learning how to edit data on the survey computers, so I could help the survey scientists, and I told many members of the crew about the trip to Tern Island since only 4 of us had permits to go. It was quite an informative and exciting day. It was energizing to ride across the ocean on a raft type engine boat and see the coral reef beneath!

QUESTION OF THE DAY for my fourth grade students: If a small plastic bag was found floating in the ocean, and a bird or shark went to eat it, what do you think that small bag looks like to the sea animal (what ocean animal)? After reading the information above, why is it important for humans to recycle?

October 19, 2001March 18, 2021

Jane Temoshok, October 19, 2001

NOAA Teacher at Sea
Jane Temoshok
Onboard NOAA Ship Ronald H. Brown
October 2 – 24, 2001

Mission: Eastern Pacific Investigation of Climate Processes
Geographical Area: Eastern Pacific
Date: October 19, 2001

Latitude: 20º S
Longitude: 85º W
Air Temp. 18.8º C
Sea Temp. 18.4º C
Sea Wave: 3 – 5 ft.
Swell Wave: 3 – 5 ft.
Visibility: 10 miles
Cloud cover: 7/8

Science Log

It’s done! Everyone was up early and out on the fantail (the aft deck) right after breakfast. Although the waves were a bit higher today the sun was bright and the temperature mild. In the complete reverse order of how the old mooring was brought in on Wednesday the new mooring was deployed. People worked from 7 this morning ’till 4 in the afternoon to get this put out properly and safely. Near the very end, after paying out close to 4000 meters of rope, the glass balls were attached, next the release valve, and lastly the anchor. The anchor consists of 3 large solid steel wheels that weigh close to 10,000 pounds! What a splash it made when it hit the water! Now there is a sense of relaxation and success. Tomorrow the onboard computers will check for signals from the mooring and then we will be on our way.

Temoshok 10-19-01 whoiglassballsdeploy4 — The glass balls being deployed. The large objects by the A-frame are anchors. The left side is for the IMET Buoy and he right side is for the TAO Buoys.

Temoshok 10-19-01 whoijaneinribbest — TAS Jane Temoshok in the small boat going out to the buoy.

Temoshok 10-19-01 peoplegirlsinhardhats4 — Women in hard hats on the deck: Claudia (Chile), Charlotte (France), Jane (U.S.), and Olga (U.S.) are ready to work on deck.

Travel Log

Wildlife on board

Gordy Gardipe from the engineering crew says that oftentimes seabirds fly onto deck during the night. They are attracted to the lights on the ship and they fly directly into it. Sometimes they die but sometimes they just get disoriented. Gordy has a special box that he uses to capture the bird. He waits until daylight and then sets them free. He said he used to release them right away but often they would just fly right back and do it again. That’s why he waits for sunlight.

Question of the day: What does a petral (type of sea bird) eat?

Keep in touch,
Jane