Chonnam National University identifies dual-function rice gene that boosts drought tolerance and grain yield

New findings reveal how a chloroplast gene helps rice withstand environmental stress

Chonnam National University, The Research Information Management Team, Office of Research Promotion

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OsFeSOD3 enhances drought resilience and yield by coordinating ROS scavenging and chloroplast development in rice

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Credit: Geupil Jang at Chonnam National University

As climate change intensifies droughts and other environmental stresses, maintaining crop productivity has become a major challenge for global agriculture. Drought can impair chloroplast development, reducing photosynthetic efficiency and ultimately lowering crop yields. Despite the importance of chloroplasts in plant growth and productivity, the molecular mechanisms that link chloroplast development with stress responses remain poorly understood.

Now, a research team led by Professor Geupil Jang at Chonnam National University has identified a rice gene called OsFeSOD3 that plays a dual role in protecting plants from environmental stress while supporting chloroplast development. Their findings were published online on 17 December 2025 and appeared in Volume 24, Issue 4 (2026) of the Plant Biotechnology Journal.   

OsFeSOD3 encodes a chloroplast-localized iron superoxide dismutase, an enzyme known for detoxifying reactive oxygen species (ROS), harmful molecules that accumulate under stressful conditions. Using time-lapse visualization of cellular ROS dynamics and genetic analyses, the researchers found that drought-induced ROS accumulation begins primarily within chloroplasts before spreading throughout plant cells. Increasing OsFeSOD3 expression reduced chloroplast ROS levels, limited overall cellular damage, and enhanced drought tolerance in rice plants. “Chloroplast development is highly sensitive to environmental stresses such as drought, and this sensitivity is closely associated with growth inhibition and yield reduction under stress conditions,” explained Professor Geupil Jang.

The study also uncovered an unexpected function of OsFeSOD3. Beyond its antioxidant role, the protein was found to act as a component of the plastid-encoded RNA polymerase (PEP) complex, a molecular machinery essential for chloroplast gene expression and development. Through direct interactions with other PEP-complex proteins, OsFeSOD3 helps regulate chloroplast biogenesis, linking stress protection with the maintenance of photosynthetic capacity. This dual functionality allows the gene to support both chloroplast health and plant survival under adverse conditions.

To assess the agricultural significance of this discovery, the team conducted field trials over two consecutive growing seasons. Rice plants engineered to overexpress OsFeSOD3 produced 33–42% higher grain yields under drought conditions than wild-type plants. The increase was largely driven by improved grain filling and greater grain numbers. In contrast, rice plants lacking OsFeSOD3, generated using CRISPR-Cas9 technology, developed severe chloroplast defects, exhibited albino leaves, and showed arrested growth, highlighting the gene’s essential role in normal plant development.

The findings could have important implications for crop improvement. Plant breeders often face a trade-off between productivity and stress tolerance, as stronger stress defenses can sometimes reduce yield. By simultaneously enhancing stress resistance and supporting photosynthesis, OsFeSOD3 may help overcome this limitation. “Our findings suggest that OsFeSOD3 serves as a bifunctional regulator that coordinates chloroplastic ROS metabolism and chloroplast biogenesis in rice,” concluded Prof. Jang.

As droughts, heat waves, and other climate-related stresses become more frequent, the ability to develop crops that remain productive under adverse conditions will become increasingly important. The researchers believe that understanding genes such as OsFeSOD3 could contribute to the development of climate-resilient, high-yield crops capable of supporting food security in vulnerable regions worldwide.

 

Reference                                                           
Title of original paper: OsFeSOD3 Functions as an Enzymatic Component of the PEP Complex, Bifunctionally Regulating Chloroplastic ROS Metabolism and Chloroplast Biogenesis in Rice
Journal: Plant Biotechnology Journal
DOI: https://doi.org/10.1111/pbi.70508                                                         

About the institute
Chonnam National University (CNU), established in 1952 as Korea’s first national university, is a leading institution of higher learning located in Gwangju and South Jeolla Province. Building on its founding commitment to cultivating leaders of integrity and professional excellence, CNU contributes to national development and global progress through the pursuit of knowledge, ethical responsibility, and inclusive excellence. Guided by the core motto “Truth, Creativity, and Service,” the university advances research, education, and public engagement that strengthen resilient societies, foster sustainable development, and promote the well-being of future generations. As a trusted partner in the global community, CNU remains dedicated to addressing complex challenges in an increasingly interconnected world.Website: https://global.jnu.ac.kr/jnumain_en.aspx

About the author
Geupil Jang is a Professor in School of Biological Sciences and Technology at Chonnam National University, Republic of Korea. He received his Ph.D. in Biological Sciences from the University of East Anglia, UK. His research focuses on the molecular mechanisms underlying chloroplast biogenesis, chloroplast signaling, and root development in plants. His laboratory combines molecular genetics and genomics approaches to understand plant growth and stress adaptation and develops CRISPR/Cas-based genome-editing technologies to create high-yielding, stress-resilient crops for sustainable agriculture and food security.

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Journal

Plant Biotechnology Journal

DOI

10.1111/pbi.70508 

Method of Research

Experimental study

Subject of Research

Cells

Article Title

OsFeSOD3 Functions as an Enzymatic Component of the PEP Complex, Bifunctionally Regulating Chloroplastic ROS Metabolism and Chloroplast Biogenesis in Rice

 

Taking a step back changes group discussions in virtual environments

Third-person avatar perspectives in virtual environments may reduce intragroup conflict and improve consensus-driven decision-making

Waseda University

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Researchers reveal that adopting a third-person perspective in a virtual environment can help improve collaborative decision-making while reducing intragroup conflict.

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Credit: Professor Junko Ichino from Waseda University, Japan

In group decision-making, it is critical for each member to engage in discussions with a broader perspective and with­out fixating on personal values and knowledge. While self-distancing or stepping back and viewing oneself from a third-person perspective has been associated with more objective thinking, its role in multiparty decision-making within virtual environments remains underexplored. As virtual meetings and metaverse platforms become increasingly common, researchers are beginning to explore how virtual environments influence human behavior and decision-making.

In a new study, a research team led by Professor Junko Ichino from Waseda University, Japan, along with Doctoral student Masahiro Ide from Tokyo City University, Japan, Professor Hitomi Yokoyama from Okayama University of Science, Japan, Professor Hirotoshi Asano from Shibaura Institute of Technology, Japan, Professor Hideo Miyachi from Tokyo City University, and Professor Daisuke Okabe from Tokyo City University, investigated whether discussing from a third-person perspective in a virtual environment influences group decision-making, in comparison with a first-person perspective. Their findings were published online in the journal of CHI '26: Proceedings of the 2026 CHI Conference on Human Factors in Computing Systems on April 13, 2026.

“Although many previous studies have applied third-person perspectives in virtual environments, they have primarily focused on their effects on individual-level activities, such as single-player games and sports. Consequently, their effects on group decision-making have remained largely unexplored,” says Ichino.

To investigate this effect, the researchers recruited 144 participants aged 20–49 years and divided them into 48 groups of three people each. Participants completed two different group decision-making tasks in virtual reality. In one condition, they experienced discussions through a standard first-person perspective, seeing the virtual world through their avatar’s eyes. In the second condition, participants viewed their avatars from behind, similar to watching themselves from the perspective of an outside observer. This was referred to as the third-person perspective condition.

They found that participants using the third-person perspective demonstrated significantly stronger consensus agreement and improved accuracy in understanding the opinions of other group members. They also reported lower levels of intragroup and task-related conflict during discussions. These findings suggest that observing oneself from a slight psychological distance may help people avoid becoming overly attached to their own opinions, leading to calmer and more cooperative conversations.

Interestingly, the study also revealed changes in communication behavior. Participants in the third-person perspective condition displayed more “regulating gestures,” such as movements that help manage conversational flow by signaling when to speak, pause, or yield turns to others. At the same time, they used fewer gestures that substituted for verbal expression. According to the researchers, this indicates that the altered perspective may subtly reshape the way people coordinate and interact during discussions.

However, the study also identified an important trade-off. While the third-person perspective improved cooperation and reduced conflict, it also decreased “affective interdependence,” meaning participants felt less emotionally connected to one another. In other words, discussions became more objective and consensus-driven, but slightly less empathetic.

“Our study demonstrates that perspective design in virtual environments can greatly influence people’s social behavior and decision-making processes, going beyond mere usability and immersion. Therefore, it is important to consider not only how realistically environments are reproduced, but also what kinds of psychological states and communication styles should be encouraged through avatar experiences and perspective design in future virtual reality and metaverse applications,” concludes Ichino.

 

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Reference
Authors: Junko Ichino1, Masahiro Ide2, Hitomi Yokoyama3, Hirotoshi Asano4, Hideo Miyachi2, and Daisuke Okabe2/////
DOI: 10.1145/3772318.3791367
Affiliations: 1Waseda University, Japan
2Tokyo City University, Japan
3Okayama University of Science, Japan
4Shibaura Institute of Technology, Japan (Affiliation at the time of paper acceptance: Kogakuin University, Japan)

About Waseda University            
Located in the heart of Tokyo, Waseda University is a leading private research university that has long been dedicated to academic excellence, innovative research, and civic engagement at both the local and global levels since 1882. The University has produced many changemakers in its history, including eight prime ministers and many leaders in business, science and technology, literature, sports, and film. Waseda has strong collaborations with overseas research institutions and is committed to advancing cutting-edge research and developing leaders who can contribute to the resolution of complex, global social issues. The University has set a target of achieving a zero-carbon campus by 2032, in line with the Sustainable Development Goals (SDGs) adopted by the United Nations in 2015. 

To learn more about Waseda University, visit https://www.waseda.jp/top/en  
 

About Professor Junko Ichino
Dr. Junko Ichino is a professor at Waseda University, Japan. Her research interests include human­­­­­­­­­–computer interaction, human interface, virtual reality, and human–robot interaction. She has authored 63 publications with over 200 citations, contributing extensively to research on immersive communication, social interaction, and virtual reality-based collaboration systems.

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DOI

10.1145/3772318.3791367 

Method of Research

Experimental study

Subject of Research

People

Article Title

Effects of Embodied Self-Distancing in Virtual Environments on Group Decision-Making

 

UAB and UB organize the global political ecology conference POLLEN 2026 on power, crises, and alternative futures

Universitat Autonoma de Barcelona

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As the world faces a critical historical conjuncture marked by rising inequality, ecological disruption, and geopolitical fragmentation, the Political Ecology Network (POLLEN) will convene its biennial international conference in Barcelona, Spain, from June 29 to July 3, 2026, hosted across the Universitat Autònoma de Barcelona (UAB) and the University of Barcelona (UB). The event will bring together more than 1,500 researchers, activists, representatives of civil society organizations, and creators from across the globe to dissect contemporary crises and forge pathways toward peaceful, just alternatives.

The welcome reception will take place on Monday the 29th at the Faculty of Geography and History of the University of Barcelona (UB), where a large part of the conference activities will be held.

The cornerstone of POLLEN 2026 will be its three plenary sessions, which break away from traditional panels by featuring brief keynotes followed by quick, complementary interventions designed to spark extensive audience debate on issues ranging from anti-capitalist resistance to authoritarian capitalism.

Hosted on Tuesday, June 30th at the Universitat Autònoma de Barcelona (UAB), the first two plenary sessions will center on global challenges: Farhana Sultana (Syracuse University) will explore what has—and has not—changed after the 2024 revolution in Bangladesh, supported by other speakers’ insights on authoritarian trends across Hungary, Turkey, Latin America, and Tanzania.

In the second, Sara Mingorria Martinez (UAB/CSIC) will present a keynote on infrastructure resistance and aviation degrowth based on Barcelona's massive ZeroPort platform protests, accompanied by responses on territorial struggles across India, the Catalan Pyrenees, Sweden, and the Caribbean.

The dialogue will conclude on Thursday, July 2nd, at the Museu Marítim de Barcelona with a special closing plenary titled "Reflecting on POLLEN2026." Chaired by Rosaleen Duffy (University of Sheffield), this final session will bring together prominent political ecologists Elia Apostolopoulou, Christos Zografos, Farhana Sultana, and Felipe Milanez to share critical reflections, challenges, and lessons generated throughout the event.

The summit’s organizing committee is led by the experts Camila del Mármol (UB), Dan Brockington, David Gilbert, Esteve Corbera, Isabelle Anguelovski and Maria Pastor (ICTA-UAB), and Ismael Vaccaro (CSIC).

The full schedule, speaker profiles, and detailed abstracts can be found on the official plenary page at https://pollenpoliticalecology.network/plenary-page/ 

The conference will also foster a vibrant space for public dialogue through a series of over 250 panel discussions, workshops, films, games, posters, book launches and creative artistic interventions designed by international creators to reshape our environmental imaginaries.

From the UAB, the event is organized through ICTA-UAB with the support of the María de Maeztu Unit of Excellence accreditation granted by the Government of Spain.  

 

About POLLEN

POLLEN operates as a global network connecting independent groups to exchange ideas and collaborate on political ecology. This year's program addresses critical contemporary issues, including energy transitions, data justice, militarized environmental governance, eco-feminism, and Indigenous knowledge systems. The Organizing Committee emphasizes that these shared perspectives are vital for coordinating collective action and driving real change against environmental degradation.

 

Heatwaves, air conditioning, and blackouts: Quantifying the real benefits of rooftop solar energy

CMCC Foundation - Euro-Mediterranean Center on Climate Change

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Key facts

• By 2050, rising temperatures are projected to increase residential electricity consumption for cooling in Italy by approximately 5% compared to 2023 residential demand.
• On peak summer cooling days, households with rooftop solar panels reduce their grid electricity consumption by around 68% compared to similar households without panels.
• Under current national energy plans, residential solar ownership is expected to grow from about 6% of households in 2023 to 22–24% by 2050.
• Expanded solar adoption could offset roughly half of the climate‑driven increase in grid electricity uptake for cooling
• Northern regions and Italian islands benefit most thanks to higher solar penetration, while major urban centres in central and southern Italy such as Rome, Naples and Palermo face a “double vulnerability”: the most intense heat but the lowest solar installation rates.

Synergies between climate mitigation and adaptation: the role of photovoltaics in meeting cooling demand in Italy analyses how hotter summers will affect residential electricity demand and how much of this extra cooling need can be met by rooftop photovoltaics (PV). Using household‑level electricity data, detailed solar adoption statistics and high‑resolution climate projections, the authors estimate how much more power Italian households will draw for cooling and how much PV can offset.

“Rooftop solar panels offer a powerful solution: they can offset nearly half of increased electricity demand during peak cooling periods,” says lead author of the study Lucia Piazza. “This matters to the public because it shows how clean energy can simultaneously fight climate change and help people cope with its effects, while potentially lowering household energy costs.”

 

The study finds that climate change alone is set to push up residential cooling demand by about 5% of today’s total residential electricity use. At the same time, if rooftop solar grows in line with current national plans – from around 6% of households today to about 22–24% in 2050 – PV could halve this additional climate‑driven load.

Because solar production peaks during the hottest, sunniest hours, PV‑equipped households are able to cover a large share of their cooling needs directly from their own panels. On the hottest summer days, households with rooftop PV reduce their grid withdrawals by around 68% compared to similar households without solar, easing pressure on the system precisely when demand peaks.

“This work provides valuable insights into the future potential of a renewable energy source, in this case solar photovoltaic, in addressing the side effects of climate warming in the residential sector,” says Francesco Pietro Colelli.

However, the benefits are unevenly distributed. Regions in northern Italy and the islands, where solar ownership is higher, see the greatest reductions in cooling‑related grid demand, while major cities in central and southern Italy such as Rome, Naples and Palermo face a “double vulnerability”: they will experience the most intense heat but currently have some of the lowest solar installation rates. The authors argue that targeted policies to support rooftop PV in these urban hotspots could help protect residents from rising bills and reduce stress on the grid during heatwaves.

For more information

Synergies between climate mitigation and adaptation: the role of photovoltaics in meeting cooling demand in Italy. DOI: https://doi.org/10.1088/2753-3751/ae6dc0 

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DOI

10.1088/2753-3751/ae6dc0 

 

Climate-anxious youth from poorer countries “unheard” due to digital disconnection

As rising temperatures around the world trigger climate-related anxiety, new research shows that those most in need of mental health support may be cut off from it.

Peer-Reviewed Publication

Queen Mary University of London

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Huts in the Androy region of Southern Madagascar offer little protection from extreme heat

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Credit: Queen Mary University of London

Young people from the lower-income countries most vulnerable to the effects of the climate crisis, including the toll it takes on their mental health, are being “overlooked” because their lack of internet access prevents them from taking part in research and accessing online support, a new study has found. 

The study, published in the BMJ Mental Health, builds on a paper published last year highlighting high rates of climate-related anxiety and depression among young people in Southern Madagascar. The researchers found adolescents were struggling with uncertainty about the future, the loss of household resources and disruption to their coping mechanisms. 

One young person from the Bongolava region told the researchers: "If there’s extreme heat… people get worried because their yearly harvest determines their future. And if that’s compromised, your future is too, because you haven’t produced enough, and that leads to a lack of means to prepare for the next year. It breaks your heart because you realise the climate is changing." 

Now, the new paper shows that the voices of these young people risk not being heard. The researchers found that the communities most harmed by climate change are the least able to participate in the online research designed to study that harm, because they tend to lack reliable electricity supplies and internet connectivity. 

Isabelle Mareschal, Professor in Visual Cognition at Queen Mary University of London, who worked on the paper, said:  

“Since the Covid-19 pandemic, so much has moved online. That includes a great deal of mental health research and support.  

“Analysing publicly available data on climate vulnerability and internet access, we show that the most climate-vulnerable populations also have the least access to the internet. Not only does that make it more difficult for them to access mental health support online, but it also means they may be excluded from the very research that seeks to understand their situation. This means that the evidence base used to develop policy or interventions may not be adequately developed for the people who need the most help.” 

Dr Nambinina Rasolomalala from the Catholic University of Madagascar added: 

“Climate and mental health is just one, particularly timely, example of this problem. Whilst online testing has undoubtedly been advantageous in extending the range of groups and populations taking part in research, this trend has an equity cost as well, skewing the evidence towards richer, better-connected populations.” 

ENDS 

 

People and cattle seek shade together under a tree in Southern Madagascar

Credit

Queen Mary University of London

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Journal

BMJ Mental Health

DOI

10.1136/bmjment-2025-302344 

Article Title

Unheard voices: the overlooked mental health toll of climate change in vulnerable communities

Article Publication Date

22-Jun-2026