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Léa Bogdziewiez has developed new tools that make it possible to study how plant cells attach to each other, a feature that enables trees to grow several meters tall (photo: Roxane Bogdziewiez).
How can a tree grow several meters tall? The answer lies in the ability of plant cells to attach to each other. This process has long been difficult to study, but PhD student Léa Bogdziewiez has developed methods that make it possible to study the process on a whole new level.
Read more: New tools to study how plant cells stick together
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Rishikesh Bhalerao (left), Åsa Strand (middle) and Nathaniel Street (right) each lead a project exploring key aspects of plant development, environmental adaptation and resilience (photo credit (from left to right): Andreas Palmén, Vaughan Hurry, Fredrik Larsson).
Last week, the Swedish Research Council announced the recipients of funding under its call for research projects in natural and engineering sciences. Among those selected are three projects led by UPSC researchers Rishikesh Bhalerao, Åsa Strand and Nathaniel Street. Their research explores how trees regulate the timing of bud break in spring, how photosynthesis is established, and the evolutionary innovations that have shaped conifers.
Read more: Three UPSC research projects receive funding from the Swedish Research Council
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Photo: Anne Honsel
The new quarterly newsletter UPSC Insights will share highlights from ongoing research, feature interviews with alumni and offer updates on events and opportunities. It aims to strengthen connections within the UPSC community and link the centre’s research more closely with alumni, collaborators and industry partners.
Read more: UPSC launches “UPSC Insights” – sharing science and stories beyond the centre
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PhD student Laura Tünnermann studied how plants take up amino acids (photo: Anne Honsel).
Plants can absorb amino acids as an alternative nitrogen source to nitrate and ammonium but little is known about how this process is regulated. PhD student Laura Tünnermann has now identified new molecular regulators, offering insights that may help reduce fertilizer-related pollution.
Read more: New insights into how plants regulate the uptake of organic nitrogen
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PhD student Tuuli Aro has studied how the roots of boreal trees, such as birch, respond to cold (photo: Anne Honsel).
Climate change likely leads to thinner snow cover during winter in northern Europe, leaving tree roots more exposed to cold. PhD student Tuuli Aro found that boreal tree species respond differently to this kind of stress and highlights how genomic tools can help breed for more frost-tolerant trees.
Read more: Thinner snow, colder roots – boreal trees show unique cold responses
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Tamara Hernández-Verdeja is now working on establishing her research group at the Centro de Biotecnología y Genómica de Plantas UPM-INIA in Madrid (photo: Oxel Urra).
Tamara Hernández-Verdeja shifted her research focus to chloroplasts when joining Åsa Strand’s group at UPSC and chloroplasts are still keeping her curiosity alive. End of last year, she received a Ramón y Cajal fellowship from the Spanish Ministry of Science and Innovation, enabling her to move back to Spain and establish her own research line. In this interview, we have asked her about her career, her motivation to stay in academia and her favourite memories from her time at UPSC.
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PhD student Özer Erguvan (left) at his favourite microscope, together with his supervisor Stéphane Verger (right) (photo: Anne Honsel).
PhD student Özer Erguvan discovered two key sites in plant cell walls that help cells stick together - findings that challenge textbook knowledge. He also found that sugars play a role in this process. In this interview, he shares insights from his PhD journey.
Read more: New discovery challenges old assumptions about how plant cells stick together
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PhD student Laura García Romañach is participating in the Researcher's Grand Prix.
On October 10, Laura García Romañach, a PhD student at SLU, will take to the stage at SciFest to compete in the Researcher's Grand Prix. Using dating apps as a metaphor, she will explain the science behind tree breeding – and why her research is crucial in the face of climate change.
Read more: Looking for the perfect tree partner – Laura competes in the Researcher's Grand Prix
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Ove Nilsson's group has identified a "temperature sensor" that helps trees integrate temperature and day length when deciding to enter dormancy. Four of the six authors of the study are still active in the group (from left to right): Keh Chien Lee, Laura García Romañach, Bo Zhang, Ove Nilsson (photo: Anne Honsel).
Even in summer, sudden cold snaps are common in northern regions such as Umeå. To survive, trees must know when to keep growing and when to stop and prepare for winter. Now, researchers at UPSC have discovered how aspen trees sense temperature and combine it with daylight to make that decision.
Read more: Aspen trees integrate light and temperature to time bud set
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From bud burst to bud set: The different stages of the annual growth cycle in a juvenile aspen tree. Illustration: Domenique André
Aspen trees follow a precise annual rhythm, shaped by the changing seasons. Researchers at UPSC have mapped this natural calendar at the genetic level, comparing trees grown outdoors and in the lab. Their study offers a detailed look into the molecular choreography behind the trees’ seasonal life.
Read more: Scientists map aspen tree genes across seasons, creating a detailed genetic roadmap