What's New Archive
This summer, PMEL is hosting 9 undergraduate students through the NOAA’s Ernest F. Hollings Scholarship program, NOAA’s College-Supported Internship Program at Smith College, the National Science Foundations’ Research Experience for Undergraduates, and the University of Washington’s Joint Institute for the Study of the Atmosphere and Ocean (JISAO) internship program. They are working across multiple groups at PMEL: Acoustics, Earth Ocean Interactions, Atmospheric Chemistry, Ocean Acidification, Madden-Julian Oscillation (MJO), and Large Scale Ocean Physics. The students spend 10 weeks at PMEL with their mentors getting hands-on research experience at both the Seattle and Newport locations. They are all so passionate and can't wait to see what they accomplish this summer.
This year's cohort are: Will Christian from Michigan Technological University, Tina Chen from Middlebury College, Max Garvue from University of Nebraska - Lincoln, Nick Barber from Drexel University, Danielle Naiman from the University of California - San Diego, Gabby Kalbach from California State University - Monterey Bay, Sophie Shapiro and Courcelle Stark from Smith College, Emily van Auken from Stonehill College. Read more about each of them and their projects here.
Learn more about NOAA’s Ernest F. Hollings (Hollings) Undergraduate Program, the National Science Foundation Research Experience for Undergraduate (NSF-REU) program, JISAO summer intership program, and the NOAA College-Supported Internship Program.
Maximum wave amplitude for the October 28, 2012 Haida Gwaii Tsunami computed with the MOST forecast model. The insets show the space-time TEC variations at 2 epochs within 27 mins interval (08:10 to 08:37 UT - October 28, 2012) at the sub-ionospheric points for 5 satellites showing TIDs, overplotted the tsunami MOST model. The TIDs are consistent in time and space with the tsunami waves.
Tsunamis can produce gravity waves that propagate up to the ionosphere, is a region of the Earth’s atmosphere where there is a high concentration of ions and electrons that can affect the spread of radio waves. These ionospheric disturbances can be studied in detail using ionospheric total electron content (TEC) measurements collected by continuously operating ground-based receivers, for example GPS, from the Global Navigation Satellite Systems (GNSS).
The existing tsunami warning system developed by the NOAA Center for Tsunami Research (NCTR) at PMEL currently relies on numerical modeling MOST (Method of Splitting Tsunami model) and buoy observations to produce timely and accurate tsunami forecast for potentially vulnerable U.S. coastal communities. Ground GNSS observations processed in real-time may have the potential to enhance the current system by independently providing the tsunami speed and amplitude.
In a study published in Scientific Reports, the authors present results using a new open-source approach named VARION (Variometric Approach for Real-Time Ionosphere Observation) that focuses on the real-time detection of the Traveling Iononspheric Disturbances (TIDs) caused by tsunami atmospheric gravity waves. This method, combined with real-time data from different sources (e.g. seismometers, buoys, GNSS receivers), may be considered as a novel contribution to future integrated operational tsunami early warning system.
This study was a collaboration among the University of Rome, NASA JPL, NCTR and the University of Washington. Dr. Yong Wei from NCTR and UW’s Joint Institute for the Study of the Atmosphere and Ocean provided MOST modeling of tsunami waves near Hawaiian Islands, more than 4,000-km away from the tsunami source, generated by the October 28, 2012 Haida Gwaii earthquake. The model/data comparison shows the TIDs are very consistent in time and space with the model simulated tsunami waves, offering insight with regard to the ionospheric response to the tsunami-driven atmospheric gravity wave.
May 16-June 2: The second summer field season for the Arctic Heat Open Science Experiment began with its first flight out of Kotzebue, Alaska. The research team, including Kevin Wood, are flying aboard a specially-outfitted NOAA Twin Otter aircraft to launch traditional atmospheric and oceanographic probes as well as the experimental Air-Launched Autonomous Micro-Observer (ALAMO) floats into the Chukchi Sea. After last year's field missions, two ALAMO floats made it through the winter and are currently profiling every 5 days. Check out the raw data for float 9085 and float 9076.
Arctic Heat is an open science experiment, publishing data generated by the project to further NOAA Science Missions with real-time data to facilitate timely observations for use in weather and sea-ice forecasts, to make data readily accessible for model and reanalysis assimilation, and to support ongoing research activities across disciplines.
Arctic Heat is a joint effort of NOAA Pacific Marine Environmental Laboratory (PMEL) Arctic Research, the Innovative Technology for Arctic Exploration (ITAE) program, the ALAMO development group at the Woods Hole Oceanographic Institution (WHOI), and the Joint Institute for the Study of the Atmosphere and Ocean (JISAO) at the University of Washington.
This week, the US Virgin Island National Park will deploy the 12th Noise Reference Station in the National Park. PMEL's Acoustic program built the hydrophone and provided the instrumentation and software. Identical hydrophones have been deployed at the other reference stations to ensure consistency across the data sets. Data collected by the NOAA Ocean Noise Reference Station Network contributes to national monitoring efforts and assesses potential noise impacts on marine resources, including endangered marine mammals and fish. This Noise Reference Station is part of a large-scale effort to monitor long-term changes and trends in underwater sound across U.S. water. The network of stations provide fundamental data to understand what ambient ocean sound levels are now, how they're changing over time and how man-made noise, such as from shipping, may be impacting marine life. The locations of the network range from as far north as the Arctic coast of Alaska to American Samoa in the South Pacific.
This project is a collaboration with a variety of partners, including NOAA’s National Ocean Service (NOS), NOAA’s National Marine Fisheries Services Science Centers, NOS National Marine Sanctuary System, and Department of the Interior’s National Park Service. For more information on this collaborative project, see NOAA/PMEL Ocean Noise Reference Station Network, and the NOAA/NMFS-OST feature story.
The EcoFOCI spring mooring cruise departed on Earth Day, April 22, from Kodiak, AK to service a biophysical mooring array in the Bering Sea, including M2. This is one of 11 research cruises the program will participate in from March-October. Aboard the NOAA research ship Oscar Dyson, scientists from PMEL, JISAO and AFSC are in Alaskan waters to retrieve and redeploy moorings, collect CTD (conductivity-temperature-depth) and other data. Peter Proctor from PMEL/JISAO is the Chief Scientist on the cruise and Geoff Lebon is the lead mooring scientist. The M2 mooring has been deployed in the southeastern Bering Sea for over 20 years and has been providing year-round measurements of temperature, salinity, nitrite, chlorophyll, and currents in this highly productive area. Long-term time-series at this site are a critical tool for adapting to climate change and guiding sustainable management of living resources in the Bering Sea.
EcoFOCI will also be field testing and using several technologies in collaboration with PMEL’s Innovative Technology for Arctic Exploration program; including the Prawler, Oculus and Acrobat Towed Vehicle. These technologies enhance shipboard and mooring research with more data collection over a fine scale region.
The EcoFOCI program is a collaborative research effort by scientists at the Pacific Marine Environmental Lab (PMEL) and Alaska Fisheries Science Center (AFSC) focusing on the unique and economically important high-latitude ecosystems of Alaska. Learn more about the program here.
Registration for 2017 NOAA Science Camp is now open! NOAA Science Camp is held at the NOAA Campus in Seattle, WA and introduces both middle and high school students to the diverse range of careers and research conducted by our scientists. Three programs are offered: Middle School Science Camp, High School Junior Leadership Program and a Remotely Operated Vehicle Mini Session. PMEL scientists (NOAA and JISAO) lead activities relating to engineering and oceanography, including how scientists conduct their research when they go to sea, how scientists work with engineers to solve complex marine questions, how currents and trace chemicals move throughout the ocean, and even how buoys help predict large-scale climate events such as Tsunamis. The camps will run at various times from July 10-26.
The middle school camp offers two sessions: July 10-14 and July 17-21, 2017. NOAA Science Camp has partnered again with Atlantis STEAM to offer a three-day mini-session where campers will get to design, build, and drive their own Remotely Operated Vehicles (ROVs). This is an exciting addition to our summer programming - please check out the website and register for this session being offered on July 24-26, 2017. Look for the green registration button on each page to register your camper.
PMEL’s Global Tropical Moored Buoy Array group has begun the 2017 field season of the Research Moored Array for African-Asian-Australian Monsoon Analysis and Prediction (RAMA) in the Indian Ocean.
PMEL scientists and engineers just finished participating in the collaborative US-Indonesian research cruise aboard the Indonesian research vessel Baruna Jaya VIII in support of the RAMA array. Dr. Michael McPhaden, Tim Nesseth, and William Higley (from the University of Washington’s Joint Institute for the Study of the Ocean and Atmosphere) serviced 5 RAMA moorings along 90°E. The cruise left Jakarta on February 20 and returned to Jakarta on March 16 with a mid-cruise port call in Sabang on northern Sumatra. During the mid-cruise port stop in Mike McPhaden briefed local and regional officials from the Indonesian Agency for Meteorology, Climatology, and Geophysics (BMKG), which partners with NOAA in maintaining RAMA buoys in the eastern Indian Ocean.
RAMA is an international effort to improve understanding and ability to predict of the African-Asian-Australian monsoon system. It complements other moored arrays in the Atlantic (PIRATA) and Pacific (TAO/TRITON) Oceans. Since RAMA began in 2004, the array has since grown through the formation of new partnerships and is now 78% complete. To learn more about RAMA, visit PMEL’s Global Tropical Moored Buoy Array’s website here.
New research published today in Nature Climate Change shows that ocean acidification is spreading rapidly in the western Arctic Ocean in both area and depth, potentially harming shellfish, other marine species in the food web and people who depend on these resources.
This research shows that between 1994 and 2010, acidified waters expanded northward approximately 300 nautical miles from the Chukchi Sea slope off the coast of northwestern Alaska to just below the North Pole. Also, the depth of acidified waters increased from approximately 325 feet to over 800 feet (or from 100 to 250 meters). The international research team determined the saturation state for aragonite, a carbonate mineral that marine organisms need to build shells, from water samples taken in the Arctic during cruises by the Chinese ice breaker XueLong (meaning “snow dragon”) in the summers 2008 and 2010, and during three other cruises. This research results showed that the Arctic Ocean is undergoing a rapid and large-scale increase in acidification, at least twice as fast as that observed in the Pacific or Atlantic oceans.
NOAA PMEL’s Richard Feely is a co-author on the paper led by China’s Key Laboratory of Global Change and Marine-Atmospheric Chemistry of State Ocean Administration, Xiamen, China, and the University of Delaware.
Read the paper in Nature Climate Change here.
On February 22, 2017, Dr. Jessica Cross gave an invited presentation on ocean acidification and its potential impacts to fisheries and natural resources in Alaska to the Alaska State Legislature’s House Resources Committee. Dr. Cross was invited by Rep. Geran Tarr, Co-Chair of the House Resources Committee. The presentation covered impacts on food security and risk assessment for Alaska's fishery sector. Future projections of OA indicate imminent impacts on the Bristol Bay Red King Crab fishery, according to NOAA researchers in OAR and NMFS at the Alaska Fisheries Science Center. While in Juneau, Jessica also gave a talk to the University of Alaska, and the United Fishermen of Alaska (UFA). The Alaska Ocean Acidification Network facilitated these discussions as a way of connecting scientists like Dr. Cross to stakeholders, like UFA, and regulators at the state legislature. The Network brings together these diverse groups to identify knowledge gaps and information needs for future research and community resilience.
Dr. Cross' current research focuses on carbon biogeochemistry and ocean acidification in Arctic regions, especially along the Alaskan coast. Learn more about her work with the Innovative Technology for Arctic Exploration Group here.
From January 21 - March 2, Lauren Roche from the PMEL Acoustics Program will be aboard the R/V Araon deploying six hydrophones (shown in the image below in the Ross Sea, Antarctica. The objective of this research cruise is to use various land- and ship-based research methods to gain a thorough understanding of the Terra Nova Bay region. The PMEL Acoustics Program has been collaborating with the Korea Polar Research Institute (KOPRI) for several years on multiple projects in Antarctica. On this research cruise, Lauren will be replacing a hydrophone triad near the Drygalski Ice Tongue that was deployed last year as well as deploying a second triad in a new location further north. The data collected from these deployments will allow the Acoustics program to characterize the soundscape of the Terra Nova Bay polynya.
On February 8, Lauren successfully recovered hydrophones that likely recorded the Nansen glacier calving event. Read more about the event and the Nansen ice shelf here: http://www.esa.int/Our_Activities/Observing_the_Earth/Copernicus/Sentinel-1/Nansen_gives_birth_to_two_icebergs
Lauren Roche is a new mooring technician with PMEL Acoustics Program through Oregon State University’s Cooperative Institute for Marine Resources Studies (CIMRS). Her background is in bioacoustics and fisheries and will be deploying, recovering, and building the hydrophones for the group. Learn more about the acoustics program here.