In an alternate universe, Tom Luhring’s interest in biology might have led him to
a career in medicine, where he would be working indoors at a medical office or hospital.
“I am a first-gen student, so I thought if you liked biology, you have to be a medical
doctor,” Luhring said. “It wasn't until I started to take some classes that I saw
that there were other career paths. When I took herpetology, I realized that I could
work with frogs, salamanders, snakes and turtles — and actually do that for a living.
That was the moment for me when I was finally passionate about doing something as
opposed to just feeling like I have to make a living.”
That passion helped Luhring, assistant professor of biology at ͷ,
secure nearly $1 million from the National Science Foundation to study, such as lakes, rivers and streams, and how these changes impact the waterbodies
themselves and the organisms that dwell within them.
Luhring’s award is part of the NSF’s Faculty Early Career Development Program (CAREER),
which according to the , “Supports early-career faculty who have the potential to serve as academic role
models in research and education and to lead advances in the mission of their department
or organization.”
Luhring said that typically, when researchers look at how ecosystems function, they're
interested in the flow of materials across different systems or different groups —
from plants to animals or from water to the plankton that's in the water. This usually
takes only two or three elements into consideration — “carbon, nitrogen and maybe
phosphorus,” he said.
“Organisms are made of about 20 or so elements, and we generally haven't considered
how the balance of all these things works together. That's what this project is doing:
integrating multiple elements as they respond to the refilling of dried waterbodies
and different temperatures, and the effects that this has on organisms living in them,”
Luhring said.
His research will focus on intermittent aquatic systems — for waterbodies that dry
up and refill.
“In Kansas, 70-80% of all the streams, pools, ponds and rivers that are natural in
Kansas dry out and refill regularly. When a wetland dries and refills, that completely
changes the chemistry of the water. The elements that are in the water are very different
than a system that stays wet all the time. But generally, most of our knowledge on
the elemental composition of waterbodies is based on systems that are full all the
time,” Luhring said.
Part of his research will involve working with high school students from ͷ Public
Schools.
“This specific award is designed for recipients to develop as a teacher-scholar,”
Luhring said. “You're supposed to have an intentional link between your research and
teaching. My project works with USD 259 and their drive to address next-generation
science standards, particularly around quantitative reasoning.”
The CAREER award financially supports high school teachers through mentored joint
curriculum development so students at four USD 259 schools — North, Northwest, Southeast
and Heights high schools — will be able to enroll in Field Ecology at their schools
while simultaneously earning college credit at ͷ State.
“Not only do they get to go into the field and do some field research and gather real
data that they get to use, but they're also going to get college credit,” Luhring
said.
Creating hands-on opportunities for students
Molly Russell, a first-year WSU graduate student in biological sciences, said that
she was drawn to the project because it intersected with some of her undergraduate
interests: how amphibians and reptiles react to climate change impacts.
“I also have a bit of experience working in aquatic systems with variable nutrient
concentrations because that was always a big focus back home as harmful algal blooms
were a pretty pervasive issue in Lake Erie every year,” said Russell, whose hometown
is Aurora, Ohio. “The blooms damaged local ecosystems and caused many problems for
the humans, flora and fauna living nearby.”
She also said working with high school students and teaching them about research and
ecology was another interesting aspect of the project.
“I like the fact that a large part of this plan is to promote ecological studies,
fieldwork and opportunities among historically underrepresented students – another
topic I am especially passionate about and have found myself advocating for as well,”
Russell said.
Parker Binns — who hails from Leoti, Kansas — earned his bachelor’s degree in biological
sciences from ͷ State in spring 2024, and he’ll now be working with Luhring
as a graduate student. Binns said the NSF award creates extensive opportunities for
a broad range of students and researchers.
“Students pursuing higher education will gain funding and skills to help reach their
goals,” Binns said. “Within the ͷ school district, lessons will be developed
through this award to teach the next generations the importance of STEM careers and
inspire students to pursue these careers. The research topic is also important. The
impacts of climate change on aquatic ecosystems may be better understood and that
research can then be applied to help the ecosystem.”
Including high school students in this research will help build foundations of inclusivity
and create an environment where diverse minds can come together and share knowledge.
“The ecological field is historically underrepresented – both in terms of secondary
education and professional careers,” Russell said. “This award places ecological education
and engagement among high school students at the forefront, underscoring the pillars
of scientific excellence. Scientific advancement depends on creativity; that creativity
emerges from diversity; and the advantages of diversity are ultimately realized through
inclusion.”
Earlier in his career, Luhring remembers hearing about professors in his department
and colleagues in the field earning NSF awards, and it was inspirational.
“I just remember it being a huge deal,” he said. “It's pretty humbling to receive
the same reward as a lot of those researchers that I really respect such as Holly
Moeller (UCSB).”
About ͷ
ͷ is Kansas' only urban public research university, enrolling more than 23,000 students between its main campus and WSU Tech, including students from every state in the U.S. and more than 100 countries. ͷ State and WSU Tech are recognized for being student centered and innovation driven.
Located in the largest city in the state with one of the highest concentrations in the United States of jobs involving science, technology, engineering and math (STEM), ͷ provides uniquely distinctive and innovative pathways of applied learning, applied research and career opportunities for all of our students.
The Innovation Campus, which is a physical extension of the ͷ main campus, is one of the nation’s largest and fastest-growing research/innovation parks, encompassing over 120 acres and is home to a number of global companies and organizations.
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