Lock Haven University

04/29/2026 | Press release | Distributed by Public on 04/29/2026 14:30

Student research advances understanding of water quality in mining-impacted regions

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Student research advances understanding of water quality in mining-impacted regions

Mansfield

Posted Apr. 29, 2026

By Jaime North, Digital Marketing Specialist

BINGHAMTON, N.Y. - Caiden Henley, a senior forensic chemistry major at Commonwealth University-Mansfield, recently presented original research at the 8th Annual Binghamton University Conference in Undergraduate and Graduate Chemistry Research, highlighting new insights into the environmental behavior of lithium in acid mine drainage (AMD) systems.

Henley's poster, "Lithium Behavior in an AMD-Impacted Watershed: Comparison with Rare Earth Elements," examined how lithium and rare earth elements (REEs) move through an AMD-impacted watershed. The research demonstrated that while lithium and rare earth elements are transported through the system via similar mechanisms, their ultimate environmental fates diverge due to differences in their chemical properties.

Henley conducted the research under the guidance of faculty mentor Gregory Carson, associate professor of physical and environmental sciences at Mansfield. The project contributes to a growing body of knowledge aimed at improving understanding of watershed chemistry and environmental remediation strategies.

The Binghamton University conference, now in its eighth year, provides a platform for undergraduate and graduate students to share research findings, engage with peers and faculty, and gain professional presentation experience. Participation in the event reflects Henley's commitment to academic excellence and hands-on scientific inquiry.

Henley's work underscores the importance of undergraduate research opportunities in preparing students for careers in science, environmental analysis, and forensic chemistry. By exploring the behavior of elements in environmentally impacted systems, the research also supports broader efforts to monitor and manage water quality in regions affected by legacy mining activity.

Lock Haven University published this content on April 29, 2026, and is solely responsible for the information contained herein. Distributed via Public Technologies (PUBT), unedited and unaltered, on April 29, 2026 at 20:33 UTC. If you believe the information included in the content is inaccurate or outdated and requires editing or removal, please contact us at [email protected]