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School of Computer Science News

Stepping Toward Better Mobility Natalie Hatcher Turns Closed Doors Into Open Futures for High School Students - The Piper - Carnegie Mellon University When One Drone Isn’t Enough: CMU Builds Swarms for High-Stakes Response Efforts Carnegie Mellon’s Richard King Mellon Hall of Sciences Enters New Phase of Construction Researchers Channel AI To Solve Open Mathematical Problems Fujitsu Joins CMU Robotics Innovation Center The Missing Infrastructure for AI-Powered Robots - Robotics Institute Carnegie Mellon University CMU Partners WithOptiTrack For Motion Capture Technology in Robotics Innovation Center CMU Team Rises to Amazon Nova AI Challenge - Language Technologies Institute - School of Computer Science - Carnegie Mellon University NoRILLA Wins Global Competition Don’t Let FOMO Be Your Organization’s AI Strategy CMU Researchers Train Robots With Internet Videos - Robotics Institute Carnegie Mellon University Carnegie Mellon and Meta Partner To Develop AI Tools for Emergency Response Singing a New Tune: Computational Music — The Link - The Magazine of CMU's School of Computer Science Pathak Receives 2026 PAMI Young Researcher Award Carnegie Mellon Team Helps Farmers Fight Crop Disease With Robots EcoAssist Shows Devs Greener Ways to Code Bacteria Can Learn and Form Memories Without a Brain Sandholm Receives SIGecom Test of Time Award SURF Grant Powers Research Into the Genetics of Bipolar Disorder Chen Receives NSF CAREER Award for Research in Machine Learning Systems Vatican Calls on Waibel to Help Shape AI Ethics — The Link - The Magazine of CMU's School of Computer Science Frank Pfenning Receives Herbrand Award How Do Boomers Really Feel About AI? Decoding Muscle Fatigue With Radar - Electrical and Computer Engineering - College of Engineering - Carnegie Mellon University Listening to Your Fingertips Test of Time Award - Electrical and Computer Engineering - College of Engineering - Carnegie Mellon University Let Me Entertain You: How SCS Trains the Minds Who Shape How We Play — The Link - The Magazine of CMU's School of Computer Science Delphi Group Uses Data To Forecast the Flu and Other Epidemics Carnegie Mellon extends historic run with its fifth straight MITRE eCTF title NVIDIA Founder, CEO Jensen Huang to Carnegie Mellon University Graduates: ‘Shape What Comes Next’ CMU Researchers Develop AI System to Help Prevent Airport Collisions Kaplow Named 2026 Searle Scholar New CMU Tool Reduces Manual Work To Accelerate Medical Analysis Rosenfeld Named University Professor Work Hard and Dream Harder Xing Named 2026 ISCB Fellow CMU Tool Prevents Anxiety Spirals When Searching for Medical Advice Online Design Tweaks That Keep Students Learning Job Interviews, But Make It a Game Night CyLab study finds “privacy-preserving” tracking alternatives may still expose users Bringing Computational Sciences to Health and Human Services — The Link - The Magazine of CMU's School of Computer Science How Transformational Play Is Shaping CMU’s Next Research Frontier - Center for Transformational Play - Carnegie Mellon University Playing on Common Ground: CMU Monster Game Helps Groups Work Across Differences Fujitsu, CMU Launch Joint Center for Physical AI Pennsylvania Universities and Commonwealth Leaders Launch Keystone AI + Quantum Factory CMU Teams Recognized in Moonshots AI Competition After you’re gone, who gets your passwords? Compeau Inducted Into 2026 AIMBE College of Fellows Chan Wins AHA Career Development Award CMU Tops U.S. News Graduate CS Rankings The AI Is in the Room Bridging the Communication Gap With AI Earbuds that Listen to the Heart - Electrical and Computer Engineering - College of Engineering - Carnegie Mellon University CMU Launches Keystone Astronomy & AI Visiting Fellows Program Obituary: David J. Farber Earned Nickname 'Grandfather of the Internet' Teaching AI-Generated Scenes To Obey Physics Saxena, Saint Phalle Receive Stehlik Scholarship Application Opens for 2026 LearnLab Summer School AI4BIO Selects Inaugural Projects for Biomedical Discovery - Center for AI-Driven Biomedical Research - School of Computer Science - Carnegie Mellon University When an AI Bot Becomes Your Boss MSCF Program Adds Accelerated Option for CMU Undergraduates Akshat Prakash Serano Tannason
CMU Research Challenges Long-Held Ecological Belief of How Rare Species Survive
2026-03-24 · via School of Computer Science News
CMU computational biologists found that a long-standing idea about how ecosystems work may not hold up when habitats are fragmented. Their work was supported by data from bird species in Japan's Ryukyu Islands.

The Breakdown

  • Research challenging a cornerstone of ecology could improve species conservation and help fight diseases.
  • When species in an ecosystem cannot mix, the advantage that normally helps rare species survive may no longer work.
  • Researchers hope this work can help increase biodiversity to aid with conservation and decrease cell diversity when treating diseases such as cancer.

 ***

A biological process long thought to protect biodiversity and help species coexist may actually threaten diversity when species are separated by natural landscapes, infrastructure or other barriers, according to new research from Carnegie Mellon University's School of Computer Science. The finding could help scientists better protect biodiversity — and may even offer new insights into how diseases like cancer evolve.

Researchers from the Ray and Stephanie Lane Computational Biology Department found that a long-standing idea about how ecosystems work may not hold up when habitats are fragmented. The concept, known as negative frequency-dependent (NFD) selection, suggests that rarer species tend to perform better than more common ones, preventing any single species from dominating an ecosystem. This dynamic gives rarer species a better chance at survival and has been used to explain patterns across biology, from bird species in Japan to cancer cells in the human body.

However, most ecological and evolutionary studies of NFD selection assume that populations mix freely rather than being divided by mountains, roads or other barriers. The new research shows that when species are separated, the advantage of being rare may disappear.

"My lab is trying to understand how the social and spatial structures in the world affect the evolution of pathogenic systems, from the microbiome to bacteria and viruses," said Oana Carja, an assistant professor in computational biology. "This work is important because we want to increase diversity in some cases, like animal species. But clonal diversity in cancer is harmful, and we want to minimize it. If we understand how spatial arrangement influences biodiversity, we can use that knowledge to make a real impact."

Carja said this research opens the door to more work into how space impacts biodiversity. Conservation groups spend millions of dollars building corridors to reconnect habitats, and these projects are even more important because of how separation impacts biodiversity. In the reverse, understanding how space impacts disease transmission could mean new avenues to treat illnesses.

NFD selection can help explain why one species doesn't take over if it is fitter. In smaller or well-mixed ecosystems, rarer species can persist because their rarity provides an advantage. Less common bird species might specialize in feeding on a specific insect in their local environment, for example. But in fragmented ecosystems, that advantage may break down.

The same concept applies to the human body. Inside a tumor, NFD selection allows rare cancer cells to survive and grow. In a small region of the tumor, rare cells and more common ones coexist, without the more fit cell taking over. But tumors often contain separated areas, like barriers of dead tissue. If these barriers didn't exist and the cancer cells could mix freely across the whole tumor, the local advantage of rare cells would diminish, making it less likely for them to persist throughout the tumor and decreasing the tumor's evolutionary potential.

"Earlier in my research, I saw a gap in how we understood spatial structure and these classic NFD selection results," Carja said. "In real systems we see in our world, from birds on islands off the coast of Japan to cancer cells inside the body, spatial structure is everywhere. These systems are not well mixed, and it was mind-boggling to me that this was not studied. Does spatial structure change these prior results examining negative frequency dependence?"

Carja and Ph.D. student Anush Devadhasan used mathematical models to see how rare species survive in fragmented ecosystems. They compared a species with two variants, one rarer and the other more common.

In one scenario, the rare species has an advantage or NFD selection is in place. In the other, all species were treated equally. In this initial experiment, the populations were separated and couldn't easily mix. Researchers found that, despite previously held assumptions, ecosystems with species treated equally maintained coexistence for longer than those with NFD selection. The local advantage NFD selection provides doesn't translate when species cannot easily mix. Even with more species added to the model, this result held.

Devadhasan then found a real-life dataset that mimicked the mathematical models and simulations: bird species in Japan's Ryukyu Islands. Researchers used this dataset to check their results. They found that NFD selection does operate locally at the specific island level, but the advantage rarer species have doesn't necessarily translate across the island cluster.

Moving forward, the researchers hope to develop tools that help build corridors between fragmented ecosystems, promoting biodiversity and species coexistence.

The paper was published in the Proceedings of the National Academy of Sciences.