We are excited to share the latest updates on the impactful research happening at the Prophet Aquatic Research and Outreach Center (PAROC). Thanks to generous support from the community, our students and faculty continue to make strides in understanding and protecting freshwater ecosystems. At PAROC, we pride ourselves on fostering student-led research projects that tackle real-world environmental challenges. Our students take the lead in designing experiments, collecting data, analyzing results, and presenting their findings at conferences. This hands-on experience prepares them for environmental science, conservation, and resource management careers.
Current research activities focus on addressing critical environmental issues, including invasive species, habitat restoration, and innovative molecular techniques for biodiversity assessment. Below are some of the projects currently underway at PAROC.
The Impact of Artificial Light on Freshwater Fish
Light pollution from streetlights and docks alters natural environments, but its effects on fish remain largely unknown. This year, we studied how Bluegill respond to constant exposure to artificial light, examining their growth, stress levels, and ability to avoid predators. Understanding these impacts can help guide better lighting practices near lakes and rivers to minimize ecological disruption.
Using DNA to Track Pollinators
Pollinators like bees and butterflies are critical to healthy ecosystems, yet their populations are in decline. Our researchers are pioneering the use of environmental DNA (eDNA)—tiny genetic traces left behind on flowers—to identify pollinators visiting restored prairies. This innovative, noninvasive approach is improving how we monitor pollinator health and informing conservation efforts.
Understanding the Effects of Invasive Carp on Native Fish
Invasive Bighead and Silver Carp continue to spread throughout waterways in the USA, competing with native fish for food. Over the last couple of years, our team has investigated how native species like Bluegill and Gizzard Shad are adapting by studying changes in their body shape and feeding habits. These findings will help fisheries managers develop strategies to mitigate the impact of invasive species.
How Carp Invasions Disrupt Entire Food Webs
Beyond their direct competition with native fish, invasive carp alter entire aquatic ecosystems. By analyzing chemical markers in fish tissue, our researchers are tracking shifts in food sources and nutrient use among native species. This research is providing critical insights into how carp invasions reshape local waterways and fish communities.
The Role of Riparian Buffers in Water Quality
Healthy riparian buffer zones—vegetated areas along streambanks—are critical for reducing runoff pollution, improving water quality, and preventing erosion. This year, we are using satellite imagery and water sensors to assess how well these buffer zones filter pollutants and reduce sediment levels in Kansas streams. A key focus is studying how these zones impact E. coli levels in the Neosho River, a concern for both human and environmental health. By combining remote sensing technology with field sampling, we hope to develop better strategies for stream restoration and water quality management.
Controlling Harmful Algal Blooms in King Lake
Cyanobacteria, also known as blue-green algae, can form harmful algal blooms (HABs) that produce toxins and degrade water quality. King Lake, located on the Emporia State University campus, experienced a HAB last year, prompting research into solutions for improving water health. This year, we are testing the use of aluminum sulfate (alum) treatments to reduce excess phosphorus—the primary driver of cyanobacteria growth. Alum binds to phosphorus in the water, preventing it from fueling future blooms. By monitoring changes in water chemistry, algae levels, and aquatic life, we aim to determine the effectiveness of this approach as a long-term lake management strategy.
Tracking a Mysterious Freshwater Jellyfish
One of our most intriguing projects this year involves a little-known freshwater jellyfish, the peach blossom jellyfish, which is appearing in lakes and ponds across North America. Using eDNA, we are working to map its spread and understand its impact on native aquatic life. These findings will help determine whether it poses a threat and how to manage its presence.
This past year, our students have presented their findings at conferences, contributed to scientific publications, and gained valuable field and laboratory experience. With your help, PAROC continues to lead aquatic conservation, providing hands-on learning experiences for students and producing research that informs real-world environmental solutions. In the coming year, we plan to expand our research initiatives, strengthen partnerships, and continue training students to become conservation and environmental science leaders. We look forward to sharing more discoveries with you in the years to come!
