About UM Rosenstiel School

About the University of Miami’s Rosenstiel School The University of Miami is one of the largest private research institutions in the southeastern United States. The University’s mission is to provide quality education, attract and retain outstanding students, support the faculty and their research, and build an endowment for University initiatives. Founded in the 1940’s, the Rosenstiel School of Marine & Atmospheric Science has grown into one of the world’s premier marine and atmospheric research institutions. Offering dynamic interdisciplinary academics, the Rosenstiel School is dedicated to helping communities to better understand the planet, participating in the establishment of environmental policies, and aiding in the improvement of society and quality of life. For more information, please visit www.rsmas.miami.edu.

Provosts’ and AGU Student Paper Award Winners

Several UM Rosenstiel School faculty received awards for their research from the UM Office of the Provost.

Bill Johns accepts research awardWilliam Johns, professor of ocean sciences, received a Provost’s Funding Award. This new UM research award recognizes productivity in research, as evidenced by sustained, peer-reviewed extramural funding and is selected by a committee of Research Deans. “Your ability to propose and perform innovative and relevant research, and thus maintain a well-funded research program over an extended period of time, is exemplary,” said UM Vice Provost for Research John Bixby.

Johns is a seagoing oceanographer specializing in the use of long-term moored instrumentation to study ocean circulation. His research involves studies of the large-scale wind-driven circulation, with emphasis on the dynamics of western boundary currents, and on deep flows related to the global thermohaline circulation and climate variability.

The 2017 Provost’s Research Award recipients from the Rosenstiel School are:

  • Douglas Crawford Department of Marine Biology & Ecology                            Project, titled “Providing Physiological Phenotypes for 1,000 Human Genomes to Interpret the Importance of DNA Sequence Variation.”
  • Cassandra Gaston Department of Atmospheric Sciences                               Project, titled “Determining the Impact of Saharan Dust on Clouds and Climate.”
  • Neil Hammerschlag Department of Marine Ecosystems & Society                   Project, titled “Assessing Performance Breadth of Large Mobile Fishes in Relation to Temperature Variability Using Multi-sensor Biotelemetry.”

The Provost’s Awards for Scholarly Activity and Research Awards were presented on March 29 at a special event to recognize their research accomplishments. The Provost’s Research Awards are administered by the UM Office of the Vice Provost for Research to provide salary support and direct research costs to faculty for research.

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AGU Outstanding Student Paper Award

AJDA SAVARIN

AJDA SAVARIN

UM Rosenstiel School graduate student Ajda Savarin won the AGU Outstanding Student Paper Award at the 2016 AGU Fall Meeting for her research presentation, titled “Diurnal Cycle of Convection and Air-Sea-Land Interaction Associated with MJO over the Maritime Continent.”

“There is a lot of competition for this distinguished award,” Michael G. Brown, professor of ocean sciences and director of the UM Rosenstiel School graduate program, “Congratulations to Ajda!”

Savarin is pursuing a Ph.D. in Meteorology and Physical Oceanography. Her research relates to the study of an atmospheric phenomenon called the Madden-Julian Oscillation (MJO), including in its initiation, and its eastward propagation across the region of Maritime Continent, and modeling those processes using the Unified Wave Interface – Coupled Model (UWIN-CM).

UM Rosenstiel School Professor Named UCAR Trustee

Professor Shuyi ChenProfessor Shuyi Chen is one of five new trustees named to the University Corporation for Atmospheric Research (UCAR) board. UCAR manages the National Center for Atmospheric Research (NCAR).

Chen, professor of ocean sciences at the UM Rosenstiel School in an expert in the prediction of extreme weather events, including tropical cyclones and winter storms. She has also been an affiliate scientist at NCAR since 2006. She serves as vice chair of the National Academies Board of Atmospheric Science and Climate (BASC). A fellow of the American Meteorological Societ. Read more about Chen.

UCAR is a nonprofit consortium of 110 North American colleges and universities focused on research and training in the atmospheric and related Earth system sciences. UCAR manages the National Center for Atmospheric Research for Atmospheric Research with sponsorship by the National Science Foundation. UCAR’s community programs offer a suite of innovative resources, tools, and services in support of the consortium’s education and research goals.

Have you seen these drift cards?

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Scientists need your help in locating these small, eco-friendly wood cards, as part of a scientific experiment studying our local ocean currents.

The Biscayne Bay Drift Card Study (#BayDrift) is a collaborative community science project studying the current flows in Biscayne Bay to better understand how trash, sewage, oil, and harmful algae blooms get transported through South Florida waters by the wind and ocean currents. The effort is led by CARTHE (Consortium for Advanced Research on Transport of Hydrocarbon in the Environment) at the University of Miami Rosenstiel School of Marine and Atmospheric Science, Vizcaya Museum and Gardens, and the Patricia and Phillip Frost Museum of Science.

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On Friday, December 9th, 280 small, eco-friendly wood cards were released into Biscayne Bay from 7 sites near downtown Miami by students from elementary to high school. The “drift cards” are brightly painted and float along the water’s surface, moved by the currents. Each card is coded so the project team can identify where it was deployed. By tracking the location where drift cards are released and found, we will learn how the currents distribute debris in Biscayne Bay.

The ultimate goal of the project is to advance our understanding of the area’s flow patternsMap, demonstrating how the ocean and bay currents transport various substances, but also to give students a hands-on STEAM activity (Science Technology Engineering Art Math). By hosting informative art events at Vizcaya, the Ramble at Fairchild Tropical Botanic Garden,
the Miami Science Barge, Nerd Nite Miami, the Key Biscayne Citizen Scientist Lecture, and Art Miami at Art Basel, as well as partnering with the youth poetry competition, Piano Slam, the backs of the drift cards are full of colorful images and inspiring poetry. Over 100 of the cards feature poems written by Piano Slam students inspired by the music Migrant Voyage by Manuel Valera and the migration of the ocean currents. The Bay Drift team hopes these eye catching additions will increase the chance of the cards being discovered and reported to the scientists.

Ten local organizations and seven schools participated in the December 9th Bay Drift release:

Organizations Schools
CARTHE at the University of Miami Lamar Louise Curry Middle School
Vizcaya Museum & Gardens Leisure City K-8 Center
Patricia & Philip Frost Museum of Science MAST Academy
Biscayne Bay Aquatic Preserves Mater Grove Academy
International Seakeepers Society Miami Northwestern Sr. High School
Key Biscayne Citizen Scientist Project Miami Springs Middle School
Miami Waterkeeper South Pointe Elementary School
Miami Science Barge
Piano Slam
Surfrider Foundation – Miami Chapter

This is the second #BayDrift release to date. The first took place on September 12, 2016 and 38 cards were reported, some very close to the release point and some nearly 70 miles aP1110178way. CARTHE scientists also released 15 biodegradable, custom-made, GPS-equipped drifters, providing detailed tracks of their journey. Preliminary analysis shows that most o
f the drifters remained inside the Bay for much longer than some predicted. This could have important implications for resource managers and decision makers in the event of some type of spill inside Biscayne Bay.

If you find a drift card, you are asked to report the location, data, time and a photo using #BayDrift or BayDriftMiami@gmail.com.  For more information on the Bay Drift study, visit www.CARTHE.org/BayDrift.

 

Scientists Launch Hurricane-Tracking Satellites

A new kind of weather observation system was launched by NASA today that will provide information to help better monitor and forecast tropical cyclones around the world. The 8-microsatellite constellation of observatories was the brainchild of a group of scientists from the University of Michigan.  UM Rosenstiel School Professor Sharan Majumdar and Dr. Robert Atlas, Director of NOAA’s Atlantic Oceanographic and Meteorological Laboratory (AOML) were tasked with assembling and guiding a team of researchers to conduct data impact studies on hurricane model analyses and predictions.

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After three days of delays, the Cyclone Global Navigation Satellite System (CYGNSS) was carried aloft aboard Orbital ATK’s Stargazer L-1011 aircraft, inside a three-stage Pegasus XL rocket from Cape Canaveral Air Force Station in Florida and launched over the Atlantic Ocean at 7:38 a.m. EST on Thursday, December 15.  At approximately 40,000 feet over the western Atlantic Ocean, the Pegasus rocket was released from the aircraft at 8:38 a.m.  The rocket was then launched in mid-air to take all 8 CYGNSS spacecraft in to orbit around Earth.

Once in orbit, CYGNSS will make frequent and accurate measurements of ocean surface winds throughout the lifecycle of tropical storms and hurricanes. The constellation of eight observatories will measure surface winds in and near a hurricane’s inner core, including regions beneath the eyewall and intense inner rainbands that previously could not be measured from space because of the heavy precipitation.

“The University of Miami and NOAA AOML team has demonstrated the potential for CYGNSS data to improve numerical analyses and predictions of the surface wind structure in tropical cyclones.  We expect that the investment in new microsatellite technologies such as CYGNSS will pave the way for better predictions of tropical cyclone impacts to benefit society around the globe,” said Majumdar.

Majumdar and colleagues wrote about the scientific motivation and the primary science goal of the mission, which is to better understand how and why winds in hurricanes intensify, in a March 2016 article in the Bulletin of the American Meteorological Society.

The local CYGNSS research team included Sharan Majumdar and Brian McNoldy from the UM Rosenstiel School, Robert Atlas from NOAA AOML, and Bachir Annane, Javier Delgado and Lisa Bucci (also a UM graduate student) from the UM Rosenstiel School’s Cooperative Institute for Marine and Atmospheric Science (CIMAS).  They have been working with simulated CYGNSS data since early 2013 to demonstrate and maximize the data’s impact in hurricane forecast models through the use of an OSSE, or Observing System Simulation Experiment, summarized by McNoldy in a NASA blog post.

Watch CYGNSS overview animation

Watch the launch!

Learn more about the hurricane-probing mission on NASA’s website.

–UM Rosenstiel School Communications Office

Book Review by Professor Amy Clement

Amy Clement 1UM Rosenstiel School Professor Amy Clement provided the following review of the book “Sea Level Rise in Florida: Science, Impacts, and Options” by Hine, Chambers, Clayton, Hafen, and Mitchum.

It’s a bright day with not a cloud in sight, yet people in Miami Beach are wading across streets through knee-deep water: seawater, that is. This scene has become increasingly commonplace in the lowest lying parts of South Florida, often referred to as sunny day or nuisance flooding. You don’t need to be a scientist to know that something is wrong with this picture. But if you want to look at the problem through the lens of a scientist, the picture comes into awesome relief. That is what ‘Sea Level Rise in Florida: Science, Impacts, and Options’ offers it’s readers. The authors are experts in wide ranging fields, and take readers on a tour of South Florida that begins millions of years ago when Florida was the bottom of a vast ocean that covered what is now most of the continental United States. This aspect of natural history is not just a geological wonder; it is critical to understanding the problem we Floridians face today. We have built a dense urban area and a vast agriculture industry on this porous, limestone rock that barely ekes its way above sea level, vulnerable to the encroaching water from all sides, and from beneath our feet. A chapter on the ecosystem impacts of sea level rise provides lessons about the unique ecology of Florida, which alone is worth the read. Perhaps the most poignant pictures in this well-illustrated book are the elevation maps of the state, highlighting how the southern part of the state is within several feet of sea level, with these low lying areas overlapping the past, present, and projected future development areas. The book’s fourth and final chapter gives some ideas for solutions, though there is clearly no ‘silver bullet.’ It is important for citizens of our state to be aware of efforts to both reduce the greenhouse gas emissions that are at the root cause of the problem and to engineer solutions that may allow us to adapt to the inevitable impacts. This book is an efficient way for Floridians to quickly come up to speed on the basics of a grand, global problem that has very local implications for current residents of our State and for future generations.

Amy Clement is a professor of Atmospheric Science at the University of Miami Rosenstiel School of Marine and Atmospheric Sciences.

Awards and Accolades

Outstanding Mentor Award
Danielle McDonaldUM Rosenstiel School Professor Danielle McDonald is the 2016 recipient of the Outstanding Mentor Award. In its third inauguration, this award is meant to recognize outstanding mentors who go above and beyond in fostering the professional and personal development of RSMAS graduate students. This award is based on student nominations.

McDonald was described as an “engaging researcher and educator who demonstrates a vested interest in her students’ success and personal well-being.”

An associate professor of marine biology and ecology, McDonald directs the UM Toadfish Lab.  She combines whole animal physiology, molecular biology, pharmacology and toxicology research to study the interactions between serotonin (5-HT), its receptors and transporters and the stress hormone, cortisol, as toadfish have a unique physiological process, pulsatile urea excretion, that involves all these components. Her work has toxicological as well as human health relevance as it gives some insight on the impact of chronic antidepressant administration, which has many negative side effects in humans.

 

Graduate Student Receives NASA Fellowship

Ryan KramerUM Rosenstiel School graduate student Ryan Kramer was awarded the NASA Earth and Space Science (NESSF) Fellowship for research in the area of Earth Science. Kramer was one of 73 Earth Science fellows to receive the award, which provides a maximum award of $30,000 for one year, with two more potential years of funding.

Kramer, a PhD student in the UM Rosenstiel School Atmospheric Sciences Program, was awarded for his proposal “Understanding Radiative Feedbacks and Radiative Forcings of the Hydrological Cycle.”

The purpose of the NESSF is to ensure continued training of a highly qualified workforce in disciplines required to achieve NASA’s scientific goals. Awards resulting from the competitive selection are made in the form of training grants to the respective universities and educational institutions, with the faculty advisor serving as the principal investigator.

“I’m extremely honored to receive this Fellowship,” said Kramer. “It will provide me significant freedom to continue my research on the earth’s hydrological cycle as effectively as possible, and will help me build a valuable connection to NASA and their incredible resources.  There is such great work being done at RSMAS, and I am proud to represent the School in some small way.”

Awards for Excellence 

Congratulations to the winners of the 2016 UM Graduate Student Association and TA Excellence Awards:

UM Graduate Student Association Awardees

* Sean Kennelly was awarded the Linda Sher-Collado Memorial Staff Appreciation Award.
* Anna Ling was awarded the GSA Academic Excellence, Leadership, and Service Award.

TA Excellence Awardees

* Zack Daugherty for MSC 328: Introduction to Aquaculture
* Sharmila Giri for MSC 232: Introduction to Marine Biology Laboratory
* Jake Jerome for MSC 460: Spatial Applications for Marine Science