Assistant Professor of Biological Sciences at Fort Hays State University and part of the soils systems research team for the Kansas NSF EPSCoR RII Track-1 Award OIA-1656006 titled: Microbiomes of Aquatic, Plant, and Soil Systems across Kansas (MAPS) talked with Mike Cooper, host of Community Connections, in October of 2017 about the MAPS grant award and research. Community Connections is local TV show in Hays, Kansas, that highlights local news. Dr. Greer discussed what the Kansas NSF EPSCoR MAPS grant is, what the researchers are looking for, and what it means for Fort Hays State University.
To see the full interview, go to Community Connection: Mitch Greer, Dr. Mitch Greer,
Kansas NSF EPSCoR RII Track-1 Award OIA-1656006 titled: Microbiomes of Aquatic, Plant, and Soil Systems across Kansas promotes outreach communications and funds workforce development and educational objectives designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce or prepare a new generation for STEM careers in the areas of aquatic, plant and soil microbiome environments and ecological systems.
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Welcome to the archive of Kansas NSF EPSCoR (KNE) news and announcements blog. Stay up-to-date with all the happenings, discoveries, events and funding opportunities associated with KNE by visiting https://nsfepscor.ku.edu./
Monday, October 16, 2017
Hays, Kansas Community Connections interviews MAPS Fort Hays State Researcher
Wednesday, October 4, 2017
Kansas NSF EPSCoR receives 20 million dollar grant to survey and study aquatic, plant and soil microbiomes
NSF EPSCoR Research Infrastructure Improvement Track-1 (RII Track-1) award this year. RII Track-1 awards provide up to $20 million total for 5 years to support improvements to physical and cyber infrastructure as well as human capital development in research areas selected by the jurisdiction's EPSCoR steering committee as having the best potential to improve future research and development (R&D) competitiveness of the jurisdiction. Furthermore, the project's research activities must align with the specific research priorities outlined in the jurisdiction's Science and Technology (S&T) Plan. The other recipients of the NSF EPSCoR RII Track-1 awards for 2017 are Alabama, Rhode Island, South Carolina and Wyoming.
The Kansas EPSCoR project titled, Microbiomes of Aquatic, Plant, and Soil Systems across Kansas (MAPS), involves the collaboration of researchers from the University of Kansas, Kansas State University, Wichita State University, Fort Hays State University, and Haskell Indian Nations University. These researchers will work together to conduct surveys of plant, soil and aquatic microbiomes and then record their environmental characteristics. Because Kansas has large gradients in precipitation and agricultural land use, it is an ideal environment for studying these microbiomes. Kristin Bowman-James, a KU distinguished professor of chemistry, Director for Kansas NSF EPSCoR and the principal investigator of the project explained “Studying these tiny living things can be critical to understanding several key issues for the state, including agricultural sustainability, water quality, greenhouse gases, plant productivity and soil fertility."
The Kansas NSF EPSCoR research team will specifically focus on the plant, soil and aquatic microbiomes’ environmental characteristics as well as assess the ability of these microbiomes to influence crop production, soil condition and water quality. Major project goals involve the development of a mechanistic understanding of microbiome-mediated ecosystem functions; predicting ecosystem responses to changes in precipitation and land-use patterns; and identifying ways to select for and utilize microbiomes to produce desired characteristics. Some of these desired characteristics could increase agricultural productivity or drought tolerance, determine efficient nutrient utilization, and enhance soil quality.
In addition, the project team will seek to expand the workforce in microbial, plant, and soil science, genomics, bioinformatics and ecology with the intent to integrate the research into educational activities designed to improve Science, Technology, Engineering, and Mathematics (STEM). The educational goals of the project will encourage the participation of both urban and rural areas of mainstream, the economically disadvantaged, first-generation college students, Native Americans, and other under-represented groups culminating in an effort to expand the workforce in microbial, plant, and soil science, genomics, bioinformatics and ecology.
To read more about the project and the award go to:
The Kansas EPSCoR project titled, Microbiomes of Aquatic, Plant, and Soil Systems across Kansas (MAPS), involves the collaboration of researchers from the University of Kansas, Kansas State University, Wichita State University, Fort Hays State University, and Haskell Indian Nations University. These researchers will work together to conduct surveys of plant, soil and aquatic microbiomes and then record their environmental characteristics. Because Kansas has large gradients in precipitation and agricultural land use, it is an ideal environment for studying these microbiomes. Kristin Bowman-James, a KU distinguished professor of chemistry, Director for Kansas NSF EPSCoR and the principal investigator of the project explained “Studying these tiny living things can be critical to understanding several key issues for the state, including agricultural sustainability, water quality, greenhouse gases, plant productivity and soil fertility."
The Kansas NSF EPSCoR research team will specifically focus on the plant, soil and aquatic microbiomes’ environmental characteristics as well as assess the ability of these microbiomes to influence crop production, soil condition and water quality. Major project goals involve the development of a mechanistic understanding of microbiome-mediated ecosystem functions; predicting ecosystem responses to changes in precipitation and land-use patterns; and identifying ways to select for and utilize microbiomes to produce desired characteristics. Some of these desired characteristics could increase agricultural productivity or drought tolerance, determine efficient nutrient utilization, and enhance soil quality.
In addition, the project team will seek to expand the workforce in microbial, plant, and soil science, genomics, bioinformatics and ecology with the intent to integrate the research into educational activities designed to improve Science, Technology, Engineering, and Mathematics (STEM). The educational goals of the project will encourage the participation of both urban and rural areas of mainstream, the economically disadvantaged, first-generation college students, Native Americans, and other under-represented groups culminating in an effort to expand the workforce in microbial, plant, and soil science, genomics, bioinformatics and ecology.
To read more about the project and the award go to:
Education and outreach funding is provided by the Kansas NSF EPSCoR RII Track-1 Award OIA-1656006 titled: "Microbiomes of Aquatic, Plant, and Soil Systems across Kansas." The grant's educational objectives are designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce or prepare a new generation for STEM careers in the areas of aquatic, plant and soil microbiome environments and ecological systems.
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Researchers from across the state meet to strategically plan for the implementation of the research initiatives of the MAPS NSF EPSCoR Track-1 Award
The MAPS Strategic Planning Team |
The MAPS project will utilize fundamental microbiome research to determine how microbiomes, e.g., MAPS, can enhance productivity, mitigate environmental problems in agricultural-dominated landscapes, and conserve native grasslands and their ecosystem functions. The steep precipitation gradient across the state and the importance of agriculture makes Kansas an outstanding outdoor laboratory for testing hypotheses related to the impacts of precipitation on microbial processes. The project's study of the interconnected nature of the soil, plant, and aquatic microbiomes makes it unique and potentially transformative. MAPS includes education and outreach initiatives focusing on microbiome science that extends from K-12 students and teachers to undergraduate and graduate students and faculty members at tribal colleges and four year institutions, including a Haskell-based summer internship program (HERS).
Education, outreach, awards and meetings funding is provided by the Kansas NSF EPSCoR RII Track-1 Award OIA-1656006 titled: Microbiomes of Aquatic, Plant, and Soil Systems (MAPS) The awards educational objectives are designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce or prepare a new generation for STEM careers in the areas of Biology, Ecology and Evolutionary Biology.
Friday, September 29, 2017
Former Kansas NSF EPSCoR First Award Recipient Receives NSF PIRE Award
Gurpreet Singh, Associate Professor of Mechanical and Nuclear Engineering, and the Harold O. and Jane C. Massey Neff Professor in Mechanical Engineering at Kansas State University and former Kansas NSF EPSCoR First Award recipient, has been selected to receive a National Science Foundation Partnerships for International Research and Education (PIRE) five year, $4,694,233 award. His project is titled "High-Temperature Ceramic Fibers: Polymer-Based Manufacturing, Nanostructure and Performance," and he has partnered with collaborators from five other U.S. universities, two national labs and two industries, as well as 10 foreign partners. PIRE is an NSF-wide program that supports research endeavors across all NSF disciplines. The goal of the program is to support research and education advances that could not occur without international collaboration and seeks to engage the U.S. science and engineering community.
This award will leverage relationships with France, Germany, Italy, the United Kingdom and Japan. The U.S collaborators will bring expertise in in the area of structure and thermo-chemo-mechanical property characterization of glass ceramics and the international partners offer expertise in the area of non-oxide fibers. This collaboration will generate a diverse and engaged U.S. science and engineering workforce in precursor-derived ceramic fibers. Singh explained "The project’s aim is to encourage and increase student opportunities for learning abroad."
To read more about this award, go to K-State News: Advanced materials manufacturing and international study opportunities focus of new NSF gran Monday, Sept. 25, 2017
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Thursday, September 28, 2017
Two Kansas Assistant Professors receive NSF EPSCoR Track-4 Awards
NSF EPSCoR Track-4 Award recipients, Dr. Katie Mitchell-Koch and Dr. Joycelyn McDonald |
The NSF EPSCoR Track- 4 provides up to $200,000 of funding for non-tenured investigators to visit and utilize the nation’s premier private, governmental, or academic research centers. These research experiences are designed to enhance their individual research potential. Through these visits, the EPSCoR Track-4 Research Fellows gain access to and learn new research techniques using unique equipment and facilities. Furthermore, the research experience and networking connections gained through this program lead to future research collaborations and are expected to build research capacity in their institutions and jurisdictions.
Dr. Mitchell-Koch has titled her research project Electronic Structure Calculations to Characterize Mechanisms of Regioselective Additions to Olefins and to Advance P-31 NMR as a Reporter of Catalytic Intermediate. The project’s intent is to create a better understanding of chemical reactions between metals and organic compounds and study the mechanisms and potential molecular structures involved in these reactions. She hopes to optimize reaction processes and predict molecular structures similar to those used for the synthesis of drug candidates and pharmaceuticals. Dr. Mitchell-Koch and her students will travel to the University of Illinois Urbana-Champaign (UIUC) to use the resources available at the National Center for Super-computing Applications.
Dr. McDonald will focus her research on creating a better understanding of the development of collectives, a group of cells, as they move together to help form tissues and organs within fruit fly embryos. Her project is titled Dynamic Live Imaging and Manipulation of Migrating Collectives Inside Tissues. Dr. McDonald and a postdoctoral fellow will travel to the University of California, Santa Barbara to learn new advanced microscopic methods that can reveal how collectives move in tissues as well as how to use light to control cell movements. She and her postdoctoral fellow will then bring these advanced techniques back to KSU.
Monday, September 11, 2017
KS EPSCoR sponsors KU Natural History Museum's physics programs presented to KU TRIO Talent middle school stduents
Trio students conducting physics experiments at the KU Biodiversity Institute and Natural History Museum |
Kansas EPSCoR had previously partnered with Dr. Teresa Macdonald, Associate Director, Public Programs for the KU Biodiversity Institute & Natural History Museum, this past spring to provide funding support for Kansas middle school students attending her physics hands-on activity programs. To continue that partnership Kansas NSF EPSCoR extended its support to cover these two KU TRIO summer camps' participation in the following physics programs. For the Career Horizons group, they selected the Cartoon Guide to Energy program and for the Discover Technology students, they selected the Quarks: Ups, Downs and the Universe program. Dr. Macdonald taught both programs.
Dr. Macdonald said the partnership with the KU TRIO programs began in 2016 when Rebecca Dukstein, Director of KU TRIO Talent Search, was referred to Dr. Macdonald, by Dr. Alice Bean of the KU Physics and Astronomy Department. When Ms. Dukstein contacted Dr. Macdonald they discussed the possibility of creating physics-themed activities that could become part of these two TRIO summer programs. Ms. Dukstein commented, “We wanted our students to have the opportunity to learn about physics in a fun, interactive way, with hands-on science demonstrations and experiments.”
As for what the students thought about these learning experiences, on their end of the day evaluations Ms. Dukstein said the students wrote “they loved the activities.... They also commented that it was one of the best activities of the day and they sited different things they learned during the science session at the museum.” Dr. Macdonald also heard from the students informally, and they told her “they really liked the program, had fun, and learned new things.” Both Ms. Dukstein expressed her appreciation to Kansas NSF EPSCoR by saying “If it wasn’t for this 'Scholarship Fund', we would not have been able to bring our students to the museum and enhance the opportunity to learn about physics.” Dr. Macdonald echoed her gratitude by commenting, “We appreciate the funding provided by Kansas NSF EPSCoR ... that helped us offer engaging science learning experiences to underrepresented audiences.”
The KU TRIO Talent Search is a free college access program sponsored by the University of Kansas and funded through the U.S. Department of Education. The goals of the KU TRIO Talent Search are to encourage 7th and 8th grade students attending public schools in Kansas City and Wyandotte County to remain in school, pursue post-secondary education, and eventually earn a certificate, associate’s degree, or bachelor’s degree.
Education and outreach funding for the physics teacher workshop was provided by the Kansas and Nebraska NSF EPSCoR Track 2 Grant #1430519 titled: "Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules, and Nanostructures." The grant's educational objectives are designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce or prepare a new generation for STEM careers in the areas of atomic/molecular/optical science.
Wednesday, September 6, 2017
Kansas Elementary Teachers Learn About The Nature of Matter With The Support of Kansas NSF EPSCoR
As a further extension of outreach to Kansas Science teachers, the Track 2 Grant #1430519 titled: Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules, and Nanostructures sponsored the Operation Primary Physical Science (OPPS) Workshop at Fort Hays State University. The workshop was held July 17 – 18, 2017. Twenty four elementary school teachers, mostly from the rural communities across the state, were invited to participate in this two day workshop to study how to teach the Nature of Matter and aligned it with the Next Generation Science Standards (NGSS).
Dr. Paul Adams, Dean of the College of Education, Anshultz Professor of Education, and Professor of Physics at Fort Hays State University (FHSU), has been involved with the highly successful Track 2 Kansas EPSCoR High School Physics and Chemistry Teachers’ workshop, Modeling the Unseen in the Physical Sciences, for the last 3 years. As a result of the Kansas adoption of the Next Generation Science Standards (NGSS) in June of 2013, a new vision was created for teaching and learning K -12 Science. The relatively new NGSS structure involves transforming traditional science teaching approaches by shifting the focus from the memorization of facts to greater student engagement in the processes of science. Using the NGSS Disciplinary Core Ideas, the Science and Engineering Practices and the Crosscutting Concepts, (known as three dimensional teaching) teachers are now expected to guide students to understand the big ideas of science, conduct investigations and develop models; and bridge concepts across disciplinary boundaries. Because many elementary teachers are not as well prepared to lead students in content-rich, inquiry-based quality instruction, Dr. Adams developed this workshop to meet their need. He also wanted to provide an aligned connection between the NGSS elementary physics curriculum and the NGSS high school curriculum. Specifically, the OPPS workshop addressed enhancing the elementary school teachers’ content knowledge related the particle nature of matter as well as experience and develop a three dimensional learning pedagogical approach.
One Teachers commented “It was good to see actual physics lessons that could be adapted to my level,” and another recognized the need to lead students to figure out solutions on their own. Overall, the teachers were happy to have new curriculum, new experiments, and a different way to teach the states of matter.
Dr. Paul Adams, Dean of the College of Education, Anshultz Professor of Education, and Professor of Physics at Fort Hays State University (FHSU), has been involved with the highly successful Track 2 Kansas EPSCoR High School Physics and Chemistry Teachers’ workshop, Modeling the Unseen in the Physical Sciences, for the last 3 years. As a result of the Kansas adoption of the Next Generation Science Standards (NGSS) in June of 2013, a new vision was created for teaching and learning K -12 Science. The relatively new NGSS structure involves transforming traditional science teaching approaches by shifting the focus from the memorization of facts to greater student engagement in the processes of science. Using the NGSS Disciplinary Core Ideas, the Science and Engineering Practices and the Crosscutting Concepts, (known as three dimensional teaching) teachers are now expected to guide students to understand the big ideas of science, conduct investigations and develop models; and bridge concepts across disciplinary boundaries. Because many elementary teachers are not as well prepared to lead students in content-rich, inquiry-based quality instruction, Dr. Adams developed this workshop to meet their need. He also wanted to provide an aligned connection between the NGSS elementary physics curriculum and the NGSS high school curriculum. Specifically, the OPPS workshop addressed enhancing the elementary school teachers’ content knowledge related the particle nature of matter as well as experience and develop a three dimensional learning pedagogical approach.
Earl Leglieter leading a modeling lesson |
Earl Leglieter conducted a session on Modeling Strategies, similar to the one he presented at the 2017 Kansas EPSCoR Modeling the Unseen in the Physical Sciences high school workshop in June, but with a specific goal to build a particle model of matter, a first step to understanding chemistry and physics. Adams presented the NGSS three dimensional teaching strategies using National Science Teacher Association materials, and later facilitated teachers’ processing discussions.
Teachers were given a pre/posttest which showed a significant gain in content knowledge [(P<2e-10) from a mean of 38 to 71]. In addition, the teachers said they enjoyed learning more about structuring lessons to involve modeling and inquiry; having students work in small groups to develop skills of cooperation and learning from others; how to help children learn by discovery through the use of open questions; and how to give students time to experiment and investigate in order for them to come up with ideas on their own. Furthermore, the teachers really appreciated this opportunity to learn more about NGSS, modeling strategies and teaching physics. One Teachers commented “It was good to see actual physics lessons that could be adapted to my level,” and another recognized the need to lead students to figure out solutions on their own. Overall, the teachers were happy to have new curriculum, new experiments, and a different way to teach the states of matter.
Education and outreach funding for the physics teacher workshop was provided by the Kansas and Nebraska NSF EPSCoR Track 2 Grant #1430519 titled: "Imaging and Controlling Ultrafast Dynamics of Atoms, Molecules, and Nanostructures." The grant's educational objectives are designed to enhance STEM education in Kansas by supporting activities that will lead to an expanded STEM workforce or prepare a new generation for STEM careers in the areas of atomic/molecular/optical science.
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