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School of Science and Engineering

The Harrington STEM Lectures

2017 - 2018 Harrington STEM Lecture Series

The School of Science and Engineering sponsors a series of lectures on major topics of current scientific interest in Science, Technology, Engineering and Math (STEM). These lectures, each designed for a general scientific audience, are given by recognized scholars from around the country who will also be available to meet faculty and students on the days of their visits. The public is cordially invited to these lectures at no charge. For further information, please email lavaller@newpaltz.edu or call 845-257-3784.

Location: SUNY New Paltz
Reception: 4:30 p.m., Coykendall Science Building Lobby
Lecture: 5:00 p.m., Coykendall Science Building Auditorium


Tuesday, November 7


Smart Devices in Sport
Dr. Kim Blair
Founder, Science Technology and Engineering @ MIT (STE@M)

Abstract: Advances in sensor technology, data analysis algorithms, and wireless communication have resulted in everything around us becoming “smart.” Sports equipment is no exception. Over the past couple of decades, there have been a plethora of products coming to market that provide information and feedback to a user. These products include sports equipment, wearable devices, and smart environments. In this presentation, we will take a look back at the past 20 years of developments in this field, the reasons for the current growth in the number of smart sports products coming to the market place, and a look into the current challenges in launching successful products or businesses based around smart devices.


Spring 2018 Lectures

Tuesday, February 13



Lecture Title TBD
Dr. Sankar Varanasi, Vassar Brothers Medical Center
Director, Clinical Cardiac Electrophysiology Service

Tuesday, March 13


A Passion for Lakes and Ecological Puzzles: How Cyanobacteria, Cyberinfrastructure, Citizens and Scientists are Advancing Freshwater Science
Dr. Kathleen Weathers, Carey Institute
Ecosystem Ecologist

Tuesday, April 10


Carbon Monoxide from Wood Pellets: Where it Comes From and How to Make it Go Away
Dr. Philip Hopke, Clarkson University
Director, Center for Air Resources Engineering and Science (CARES) and Bayard D. Clarkson Distinguished Professor Emeritus


Past Lectures:

Thursday, October 5


The Critical Role of Trees in the Flux of Water Through the Earth’s Permeable Skin
Dr. Kamini Singha, Colorado School of Mines

Professor, Department of Geology and Geological Engineering and Associate Director of the Hydrologic Science and Engineering Program

Abstract: Earth’s “critical zone” — the zone of the planet from treetops to base of groundwater — is critical because it is a sensitive region, open to impacts from human activities, while providing water necessary for human consumption and food production. Quantifying water movement in the subsurface is critical to predicting how water-driven critical zone processes respond to changes in climate and human perturbation of the natural system. While shallow soils and aboveground parts of the critical zone can be easy to instrument and explore, the deeper parts of the critical zone — through the soils and into rock — are harder to access, leaving many open questions about the role of water in this environment.

Tuesday, September 19, 2017


Quantitative Modeling for All (click on link to view this past lecture)
Dr. David Ferguson, Stony Brook University
Distinguished Service Professor of Technology and Society and Applied Mathematics and Statistics

Abstract: One of the more powerful ways to understand some aspect of the "real world" is to build models of some part of that reality.  Such models--ranging from readability formulas to approaches to understanding climate change--can be amazing tools for understanding and predicting phenomena.  In this presentation, we will use a variety of examples--drawn from everyday life, risk assessment, estimation of the sizes of populations, medical tests, and old and new decision problems.  Participants, regardless of their academic backgrounds, will actively engage in efforts to solve an array of problems.  Consequently, participants will better understand the power and limitations of certain approaches to modeling. Participants should come to work and have fun!


Sherri Mason, Professor of Chemistry, SUNY Fredonia, April 18, 2017 - "Beads of Destruction: A Survey of Great Lakes Plastic Pollution" - Click on link to view this past lecture.

Abstract: The study of plastic pollution started in the world’s oceans, most famously focused on what has been called the ‘Great Pacific Garbage Patch.’ Despite a United Nations’ report suggesting that 80% of this oceanic debris came from land and, thus, was likely transported through a freshwater system, very little research with regard to marine debris has focused upon these freshwater systems. Given the size and importance of the Laurentian Great Lakes, they provide a significant representative model for other freshwater ecosystems throughout the world. During the summers of 2012 and 2013, we conducted the first-ever survey for plastic pollution within the open-waters of the Great Lakes. We present here our results from these initial open-water surveys, as well as additional investigations that were engaged upon as a result of these studies.


Matthew Deady, Professor of Physics, Bard College, March 7, 2017 - "The Higgs Boson:  What, How, and Why We Care" - Click on link to view this past lecture.

Abstract
: In the summer of 2012, two teams of scientists working on the Large Hadron Collider in Switzerland announced that they had discovered the long-awaited Higgs Boson.  What is this particle?  Why do physicists think is it so important?  How was it predicted?  How was it discovered?  What are the implications to our understanding of matter, energy, and the universe?  These and other questions will be addressed as we investigate the fundamental particles and forces that underlie all physical phenomena, culminating in the Higgs discovery and consideration of what might be beyond.

John C. Priscu, Professor of Ecology, Montana State University, February 28, 2017 - "Hidden Ecosystems Beneath the Antarctic Ice Sheet" - Click on link to view this past lecture.

Abstract:
Antarctica is the highest, driest and coldest continent on earth. It holds 90% of our world's ice and 70% of its freshwater. If the ice melts sea level will rise about 60 m (about 200 ft.) and inundate more than five million square miles of land. The early explorers referred to it as a place devoid of life. The idea that the Antarctic ice sheet was lifeless persisted for more than 80 years. Recent research has now shown that huge river basins and some of our planets largest lakes exist beneath more than 2 miles of Antarctic ice. Discoveries over the past few years have now proven that subglacial ecosystems in Antarctica form the largest wetland on our planet. Given the dark and cold conditions presented by this environment, we do not find cattails and red winged blackbirds, common to Montana's wetlands; instead the environment is completely microbial. These organisms mine the energy in rocks to obtain energy to support their existence, while at the same time mobilizing nutrients that fuel life in the coastal regions of Antarctica. Professor Priscu will present the events leading up to these discoveries and how they have transformed the way we view the Antarctic continent.

Debra Willard, U.S. Geological Survey, Reston, VA. Nov. 15, 2016 - "Pollen Analysis as a Tool for Forensic Analysis of Trace Evidence" - Click on link to view this past lecture

Abstract: Pollen analysis of sedimentary records traditionally has been used to reconstruct the history of vegetation, temperature, hydrology, and other environmental parameters. These interpretations are possible because the distribution of plant communities is strongly influenced by climate, and the modern distribution of pollen has been mapped over much of North America and other landmasses. The limited geographic range of plant species also makes pollen analysis a valuable tool for forensic analysis of soils and trace evidence collected at crime scenes.  Such evidence can connect suspects and tools used during commission of a crime to victims and crime locations. Although traces of skin, blood and hair can provide definitive links to an assailant, soil, grass and other traces may provide the only clues about the crime scene environment or the movement of a suspect, or even the location of hidden contraband or grave sites. Probabilistic models of the source for forensic soil samples, which integrates data on multiple soil characters that have a limited geographic range, have been developed to narrow down the potential geographic source of a sample. Dr. Willard applied this approach to a case from 2003/2004, in which forensic soil samples from digging tools were examined to narrow the search for a grave site somewhere along the 5000 km traveled by the suspect. In her lecture she will discuss how standard pollen analysis was integrated with other methods to focus the search, as well as its applications to other forensic questions. 


Caleb Scharf, Director, Columbia Astrobiology Center. Oct. 25, 2016 - "Astrobiology: The Science of Life In The Universe"
- Click on link to view this past lecture

Abstract: For a very long time our species has asked the questions: Are we alone? Where do we come from? And for a very long time we've not had many good answers. This is starting to change. With the exploration of our solar system, the discovery of thousands of exoplanets, and a renewed quest to understand the origins of life, there is real progress. I'll review some of this science, including work on building virtual worlds at Columbia University, and will try to take a peek into the near future of astrobiology.

Jarra Jagne, Senior Extension Associate, College of Veterinary Medicine, Cornell University, Sept. 20, 2016 - "Highly Pathogenic Avian Influenza Strains – A Global Threat to Human Health and Livelihoods"

Abstract: Highly pathogenic avian influenza (HPAI) virus, subtype H5N1, was first detected in poultry in November 1996 in southeast China. In 1997, during a poultry outbreak of HPAI H5N1 in Hong Kong, the first human deaths from the virus were recorded. The virus subsequently spread to the rest of the Asian continent, Africa and Europe and in its wake left millions of dead poultry, 850 infected people, 449 human fatalities and billions of dollars in economic damage. In 2015, HPAI subtype H5N2 in the Mid-Western United States caused the death or depopulation of 48 million poultry and cost the Federal government almost a billion dollars to control. This lecture will provide an anatomy of the H5N1 pandemic and the 2015 HPAI H5N2 Mid-Western US epidemic. The zoonotic potential of HPAI viruses and the role of wild birds as natural reservoirs of avian influenza viruses will also be discussed.

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