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    Over the past few years, Dr. Sheppard and his team have been performing the largest and deepest survey ever attempted of our Solar System’s fringes. In December 2018, he announced the most-distant object ever observed in our Solar System. His team’s work has shown that the farthest-out-there objects—beyond the Kuiper Belt and the influence of the known major planets—are strangely grouped together in space.

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Strategies for limiting climate change must take into account their potential impact on water quality through nutrient overload, according to a new study from Carnegie’s Eva Sinha and Anna Michalak published by Nature Communications. Some efforts at reducing carbon emissions could actually increase the risk of water quality impairments, they found.

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Climate can play a major role in determining which tree communities will thrive in the harshest conditions, according to new work from Carnegie’s Leander Anderegg and University of Washington’s Janneke Hille Ris Lambers. Their findings are an important step in understanding how forest growth will respond to a climate altered by human activity.

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Heather Meyer, a postdoctoral fellow in David Ehrhardt’s Plant Biology lab since 2016, has been awarded Carnegie’s twelfth Postdoctoral Innovation and Excellence Award. These prizes are given to postdocs for their exceptionally creative approaches to science, strong mentoring, and contributing to the sense of campus community. The nominations are made by the departments and are chosen by the Office of the President.

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Carnegie’s Andrew Steele is a member of the Rensselaer Polytechnic Institute-led Earth First Origins project, which has been awarded a $9 million grant by NASA’s Astrobiology Program. The five-year project seeks to uncover the conditions on early Earth that gave rise to life by identifying, replicating, and exploring how prebiotic molecules and chemical pathways could have formed under realistic early Earth conditions.

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Until now, computer models have been the primary tool for estimating photosynthetic productivity on a global scale. They are based on estimating a measure for plant energy called gross primary production (GPP), which is the rate at which plants capture and store a unit of chemical energy as biomass...
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Carnegie researchers are developing new scientific approaches that integrate phylogenetic, chemical and spectral remote sensing perspectives - called Spectranomics - to map canopy function and biological diversity throughout tropical forests of the world. Mapping the composition and chemistry of...
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The MESSENGER (MErcury Surface, Space ENvironment, GEochemistry, and Ranging) mission to orbit Mercury following three flybys of that planet is a scientific investigation of the planet Mercury. Understanding Mercury, and the forces that have shaped it is fundamental to understanding the...
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Broad Branch Road Neighborhood Lectures
Thursday, March 28, 2019 - 6:30pm to 7:45pm

As extreme weather, rising seas, and severe droughts bring home the reality of global climate change, we are increasingly aware of the world’s pressing need for carbon-free energy sources...

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Astronomy Lecture Series
Monday, April 1, 2019 - 7:00pm to 8:45pm

Popular images of galaxies, while beautiful, do not provide the information that astronomers need to measure their inherent properties, such as their dynamics and the compositions of their stars...

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Capital Science Evening Lectures
Tuesday, April 2, 2019 - 6:30pm to 7:45pm

One of our greatest scientific challenges is to effectively understand and make use of the vast amount of data being produced in a variety of fields. Visual data analysis will be among our most-...

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Experimental petrologist Michael Walter became director of the Geophysical Laboratory beginning April 1, 2018. His recent research has focused on the period early in Earth’s history, shortly after the planet accreted from the cloud of gas and dust surrounding our young Sun, when the...
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Volcanologist Diana Roman is interested in the mechanics of how magma moves through the Earth’s crust, and in the structure, evolution, and dynamics of volcanic conduit systems. Her ultimate goal is to understand the likelihood and timing of volcanic eruptions. Most of Roman’s research...
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Juna Kollmeier’s research is an unusual combination—she is as observationally-oriented theorist making predictions that can be compared to current and future observations. Her primary focus is on the emergence of structure in the universe. She combines cosmological hydrodynamic...
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March 13, 2019

Carolyn Beaumont, a senior at the Potomac School in McLean VA, won 5th place in the 78th Regeneron Science Talent Search. During the summer of 2018, she worked with Geophysical Laboratory staff members George Cody and Bjorn Mysen on a project to shed light on the molecular details of how water interacts with silicate melts. During her time, she learned how to run all aspects of the experiment, including how to operate a piston cylinder pressure apparatus that generates pressures on the order of 1.5 GPa and temperatures in excess of 1400°C. She also used molecular spectroscopy and nuclear magnetic resonance spectroscopy, to obtain detailed

Aerial view of red tide along Florida’s gulf coast - summer/fall 2018 by Ryan McGill, purchased form Shutterstock
February 26, 2019

Washington, DC—Strategies for limiting climate change must take into account their potential impact on water quality through nutrient overload, according to a new study from Carnegie’s Eva Sinha and Anna Michalak published by Nature Communications. Some efforts at reducing carbon emissions could actually increase the risk of water quality impairments, they found.

Rainfall and other precipitation wash nutrients from human activities like agriculture into waterways. When waterways get overloaded with nutrients, a dangerous phenomenon called eutrophication can occur, which can sometime lead to toxin-producing algal blooms or low-oxygen dead zones called hypoxia.

Subalpine forests of the Colorado Rockies are expected to be strongly affected by climate change. Photo courtesy of Lee Anderegg.
February 25, 2019

Washington, DC— On the mountain slopes of the western United States, climate can play a major role in determining which tree communities will thrive in the harshest conditions, according to new work from Carnegie’s Leander Anderegg and University of Washington’s Janneke Hille Ris Lambers.

Their findings, published in Ecology Letters, are an important step in understanding how forest growth will respond to a climate altered by human activity.

As researchers try to anticipate how climate change will affect forest ecosystems, it is crucial to understand the factors that influence how forest habitats change over time—including both environmental

February 19, 2019

Heather Meyer, a postdoctoral fellow in David Ehrhardt’s Plant Biology lab since 2016, has been awarded Carnegie’s twelfth Postdoctoral Innovation and Excellence Award. These prizes are given to postdocs for their exceptionally creative approaches to science, strong mentoring, and contributing to the sense of campus community. The nominations are made by the departments and are chosen by the Office of the President. The recipients receive a cash prize and are celebrated at an event at their departments.  

Heather initiated a pioneering scientific project to identify the molecular mechanisms that plants use to sense and respond to seasonal temperatures in order to

March 28, 2019

As extreme weather, rising seas, and severe droughts bring home the reality of global climate change, we are increasingly aware of the world’s pressing need for carbon-free energy sources and reliable, affordable energy storage systems.

Already, we’re seeing the forefront of a new energy economy, with Denmark generating almost half of its power through wind energy and California moving toward its goal of operating on 100 percent clean energy by 2045. We also are gaining a deeper, more-nuanced understanding of the highly specific local impacts of pollution from shortened life expectancy to coral reef bleaching. But we still face daunting obstacles in our search for new

April 1, 2019

Popular images of galaxies, while beautiful, do not provide the information that astronomers need to measure their inherent properties, such as their dynamics and the compositions of their stars and gases. Using the latest technological advances, Dr. McGurk is building a new, custom-designed instrument for Carnegie Observatories' Magellan Telescopes, which will reveal the universe in extreme detail–making it possible to efficiently create 3-D maps of galaxies, nebulae, and more.

Dr. Rosalie McGurk: Fellow in Instrumentation, Carnegie Observatories

#GalaxyMap

April 2, 2019

One of our greatest scientific challenges is to effectively understand and make use of the vast amount of data being produced in a variety of fields. Visual data analysis will be among our most-important tools for understanding such large-scale, complex data sets. Visualization facilitates the reasoning process by supporting the human capacity to perceive, understand, and discuss complex data. In this talk, Dr. Johnson will present visual analysis techniques, insights, and examples of how visualization can enable understanding in the fields of biology, astronomy, medicine, and engineering.

He will be joined for a discussion of how data visualization can drive scientific discovery

April 15, 2019

Some meteorites contain rare, tiny grains of dust that formed in the explosions of ancient stars and became part of the gas and dust cloud that formed our Solar System. Dr. Nittler will discuss how he uses microscopic analyses to understand what these “presolar” stellar fossils tell us about the evolution and inner workings of stars, and the chemical history of the matter that became the Sun and planets.

Dr. Larry Nittler: Staff Scientist, Department of Terrestrial Magnetism, Carnegie Science

#StellarFossils

The Carnegie-Spitzer-IMACS (CSI) survey, currently underway at the Magellan-Baade 6.5m telescope in Chile, has been specifically designed to characterize normal galaxies and their environments at a distance of about 4 billion years post Big Bang, expresses by astronomers as  z=1.5.

The survey selection is done using the Spitzer Space Telescope Legacy fields, which provides as close a selection by stellar mass as possible.

Using the IMACS infrared camera, the survey goal is to study galaxies down to low light magnitudes. The goal is to reduce the variance in the density of massive galaxies at these distances and times to accurately trace the evolution of the galaxy mass

Together with Dr. Jamie Shuda, Steve Farber created a Science Outreach Program, Project BioEYES, that incorporates life science and laboratory education using zebrafish. The outreach program has two main components: educating teachers through hands-on training and tours of our zebrafish facility, and bringing the zebrafish to K-12th grade classrooms for hands-on experiments. The program teaches students about science literacy, genetics, the experimental process, and the cardiovascular system through the use of live zebrafish.

The mission of BioEYES is to foster an enthusiasm for science education, promote interest for future participation in a biology-related field, and allow all

Andrew Steele joins the Rosetta team as a co-investigator working on the COSAC instrument aboard the Philae lander (Fred Goesmann Max Planck Institute - PI). On 12 November 2014 the Philae system will be deployed to land on the comet and begin operations. Before this, several analyses of the comet environment are scheduled from an approximate orbit of 10 km from the comet. The COSAC instrument is a Gas Chromatograph Mass Spectrometer that will measure the abundance of volatile gases and organic carbon compounds in the coma and solid samples of the comet.

The thyroid gland secretes thyroxine (TH), a hormone essential for the growth and development of all vertebrates including humans. To understand TH action, the Donald Brown lab studies one of the most dramatic roles of the hormone, the control of amphibian metamorphosis—the process by which a tadpole turns into a frog. He studies the frog Xenopus laevis, from South Africa, because it is easy to rear. Events as different as the formation of limbs, the remodeling of organs, and the resorption of tadpole tissues such as the tail are all directed by TH. How can a simple molecule control so many different developmental changes? The hormone works by regulating the expression of groups of

Anat Shahar is pioneering a field that blends isotope geochemistry with high-pressure experiments to examine planetary cores and the Solar System’s formation, prior to planet formation, and how the planets formed and differentiated. Stable isotope geochemistry is the study of how physical and chemical processes can cause isotopes—atoms of an element with different numbers of neutrons-- to separate (called isotopic fractionation). Experimental petrology is a lab-based approach to increasing the pressure and temperature of materials to simulate conditions in the interior Earth or other planetary bodies.

Rocks and meteorites consist of isotopes that contain chemical

Allan Spradling is a Howard Hughes Medical Institute Investigator and director of the Department of Embryology. His laboratory studies the biology of reproduction particularly egg cells, which are able to reset the normally irreversible processes of differentiation and aging that govern all somatic cells—those that turn into non-reproductive tissues. Spradling uses the fruit fly Drosophila because the genes and processes studied are likely to be similar to those in other organisms including humans. In the 1980s he and his colleague, Gerald Rubin, showed how jumping genes could be used to identify and manipulate fruit fly genes. Their innovative technique helped establish Drosophila

Volcanologist Diana Roman is interested in the mechanics of how magma moves through the Earth’s crust, and in the structure, evolution, and dynamics of volcanic conduit systems. Her ultimate goal is to understand the likelihood and timing of volcanic eruptions.

Most of Roman’s research focuses on understanding changes in seismicity and stress in response to the migration of magma through volcanic conduits, and on developing techniques and strategies for monitoring active or restless volcanoes through the analysis of high-frequency volcanic seismicity.

Roman is also interested in understanding the seismicity at quiet volcanoes, tectonic and hidden volcanic

Josh Simon uses observations of nearby galaxies to study problems related to dark matter, chemical evolution, star formation, and the process of galaxy evolution.

In one area he looks at peculiarly dark galaxies. Interestingly, some galaxies are so dark they glow with the light of just a few hundred Suns. Simon and colleagues have determined that a tiny, very dim galaxy orbiting the Milky Way, called Segue 1, is the darkest galaxy ever found and has the highest dark matter density ever found. His team has also laid to rest a debate about whether Segue 1 really is a galaxy or a globular cluster—a smaller group of stars that lacks dark matter. Their findings make Segue 1 a