Climate affects microbial life around Antarctica

Royal Netherlands Institute for Sea Research

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First author Swan Sow, heading out for seawater sampling from the Rothera long-term ecological monitoring site of the British Antarctic Survey.

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Credit: Swan Sow

Coordinated measurements throughout one year

This study was a first, integrating data on bacteria and microbial eukaryotes (small organisms summarized as ‘microorganisms’, including phytoplankton). Samples were taken at two Antarctic research stations at the same time and along all seasons. In a concerted effort, researchers from NIOZ, collaborating universities in the US and the British Antarctic Survey, collected water samples from July 2013 to April 2014 at the Long-Term Ecological Monitoring site of the British Antarctic research station at Rothera, as well as close to the research station Palmer, located 400 km to the north. Samples were not only taken at the same time, but also using the same methods and protocols for optimal comparability. With DNA sequence analysis, the researchers determined which bacteria, protists, phytoplankton and other single-celled organisms were present in the seawater. Also, they predicted microbial interactions and community structures – who eats who? –  with special statistical methods.

Microorganisms dominate marine life

The west Antarctic Peninsula experiences a higher warming rate than the global average and has seen unprecedented heatwaves and losses in sea ice in the past decades, with large regional variability. In the waters around Palmer, the amount of sea ice has decreased more significantly in recent years, as temperatures there have risen faster than off the coast of Rothera. These differing conditions affect microbial community composition, says Engelmann. "At the warmer Palmer site, bacteria affected microbial community structure by interacting with other microorganisms, while at Rothera, it was the other way around. There, microbial eukaryotes were stronger drivers of community structure and dynamics."

Bacteria and microbial eukaryotes play different roles in the marine ecosystem, and the potential shift towards bacterial dominance in warmer conditions could decrease biological productivity. With more bacteria and less phytoplankton, nutrients are more likely to remain in the microbial loop, making them less available for higher organisms like krill, fish, and ultimately mammals and birds. Engelmann: “These findings have significant implications for understanding and predicting microbial ecosystem responses to climate change and are therefore relevant for a broad group of researchers and even for humanity as a whole.”

Measured by their total mass, there are about three times more microorganisms in the oceans than all the marine animals combined. Climate change-induced shifts in the microbial food web of the Southern Ocean will have far-reaching consequences for the global food web, as the Southern Ocean plays a crucial role in producing and recycling organic material that feeds marine life worldwide."

Incorporating microorganisms into climate models

Ultimately, Engelmann hopes that microbial community data will find their way to climate and ocean models. “The microbial food web is complex, bacteria and microbial eukaryotes have different functions and there are a lot of interactions among and between these groups, but also with larger organisms including animals. At this point, it is difficult to predict the impact of climate change on microbial productivity. Our research provides crucial baseline data for understanding the complexity of microbial communities in coastal Antarctic ecosystems, but we need more data and a better understanding of marine microbial communities before we can include them in climate and ocean models. But I am convinced that this would make our models much more accurate and could also aid in developing conservation strategies.”

Long-term measurements

The measurements from 2013-2014 are the first thorough analysis of both bacteria and microbial eukaryotes across all seasons in coastal Antarctica. Engelmann hopes that many more measurements will follow. "Now, we've drawn conclusions based on climate differences at two locations. We have samples ready from 2018-2019 and also from 2022. The more of these measurements we collect over time, the more we'll learn about Antarctic marine microbial communities, their interactions and susceptibility to climate change. At the same time, sampling in Antarctica is logistically challenging, laborious and expensive. International cooperation, such as with the British Antarctic Survey and the colleagues in the US who worked at Palmer station and their home universities, is therefore crucial."

  

The coastal Southern Ocean in Ryder Bay, west Antarctic Peninsula.

Credit

Swan Sow

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Journal

Environmental Microbiome

DOI

10.1186/s40793-025-00663-z 

Article Title

Spatial and temporal variation of Antarctic microbial interactions: a study around the west Antarctic Peninsula

Pusan National University uncovers nanoplastic toxicity in zebrafish

Study uncovers the impact of nanoplastic exposure on red blood cell maturation, highlighting potential risks to aquatic life

Pusan National University

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Polystyrene nanoparticles disrupt red blood cell (RBC) maturation in zebrafish embryos. Nanoparticle exposure increases immature RBCs while reducing mature ones, interfering with heme synthesis.

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Credit: Yun Hak Kim from Pusan National University, Korea

Polystyrene nanoparticles are widely used in packaging, but their effects on organisms are unclear. Very little was known about how they affect blood cell development until now.

A study led by Professor Yun Hak Kim from Pusan National University, which was made available online on November 30, 2024, and published in Volume 46, Issue 1, Jan 2025 in Zoological Research explores how polystyrene nanoparticles affect RBC development in zebrafish embryos.

Red blood cells are essential for carrying oxygen throughout the body. In this study, zebrafish embryos exposed to polystyrene nanoparticles showed an increase in immature RBCs and a decrease in mature RBCs. This suggests that the nanoparticles disrupt normal blood cell maturation.

“Our research shows that polystyrene nanoparticles can interfere with the normal development of red blood cells in zebrafish embryos. These findings raise important questions about the broader impact of nanoplastic exposure on blood cell formation,” comments Prof. Kim.

The research team used single-cell RNA sequencing to study changes in gene expression linked to RBC development. They found that exposure to polystyrene nanoparticles interfered with the process by which immature blood cells mature into functional RBCs. Specifically, there was an accumulation of common myeloid progenitors (CMPs), which are early-stage blood cells.

Further investigations revealed that polystyrene nanoparticles disrupt heme synthesis by down-regulating key genes, thereby reducing RBCs' oxygen-carrying capacity. This was confirmed by mass spectrometry, which detected a significant decrease in hemin levels in exposed embryos.

The research also showed that polystyrene nanoparticles affected overall protein production in RBCs, particularly reducing the expression of rps7, a gene involved in protein synthesis. To confirm the role of rps7, the team conducted knockdown experiments, which led to facial malformations and a reduction in RBCs in zebrafish embryos. These results indicate that nanoparticles impair the protein synthesis machinery necessary for RBC development.

The study’s findings have critical environmental implications. The tested concentrations of polystyrene nanoparticles (0.1–10 µg/mL) are comparable to levels detected in natural water sources, suggesting that aquatic organisms may already be experiencing similar disruptions. “Our results suggest that nanoplastics in the environment could interfere with red blood cell formation and oxygen transport in aquatic species,” says Prof. Kim.

This study highlights the need for stricter regulations on nanoplastics, especially polystyrene. “As we learn more about the biological effects of nanoplastics, it becomes essential to rethink plastic waste management and explore safer materials,” adds Prof. Kim.

The study by Prof. Kim and colleagues emphasizes the importance of continued research on nanoplastics’ effects at the cellular level to better understand their long-term ecological and health implications.

 

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Reference      
DOI: 10.24272/j.issn.2095-8137.2024.277

 

 

About the institute
Pusan National University, located in Busan, South Korea, was founded in 1946 and is now the No. 1 national university of South Korea in research and educational competency. The multi-campus university also has other smaller campuses in Yangsan, Miryang, and Ami. The university prides itself on the principles of truth, freedom, and service, and has approximately 30,000 students, 1200 professors, and 750 faculty members. The university is composed of 14 colleges (schools) and one independent division, with 103 departments in all.

Website: https://www.pusan.ac.kr/eng/Main.do

 

About Associate Professor Yun Hak Kim
Professor Yun Hak Kim is an associate professor in the Department of Anatomy at Pusan National University's School of Medicine. He serves as the head professor in the Department of Interdisciplinary Science of Genomic Science at PNU. His group utilizes cutting-edge technology to understand the pathophysiology of diseases and to discover therapeutic targets. The Kim group handles both experiments and bioinformatics, employing a multiomics approach that includes single-cell transcriptomics, spatial omics, genomics, epigenomics, and microbiomics to unravel the causes of complex diseases.

Website: https://yunhakkim.pusan.ac.kr/

ORCID id: 0000-0002-9796-8266

 

About Assistant Professor Chang-Kyu Oh
Dr. Chang-Kyu Oh is an Assistant Professor in the Department of Biochemistry at Pusan National University School of Medicine. His research focuses on the impact of various types of microplastics on living organisms. Utilizing transcriptomics, phenomics, and metabolomics, his team investigates the toxicity of microplastics and oxidized microplastics. Their research in environmental medicine and toxicology aims to contribute to a healthier planet. Based at the medical school, they explore the environmental effects on human health, striving to develop solutions for reducing toxic impacts and fostering sustainable practices

Website:  https://axis29.wixsite.com/etm-lab

ORCID id:  0009-0009-8609-4338

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Journal

动物学研究

DOI

10.24272/j.issn.2095-8137.2024.277 

Method of Research

Experimental study

Subject of Research

Animals

Article Title

Deciphering the toxic effects of polystyrene nanoparticles on erythropoiesis at single-cell resolution

 

Study finds cities that conducted greenhouse gas emissions inventories moved needle toward reduction

Taking measure of municipal CO2 emissions had causal link with reductions; little previous research had gauged effects of sustainability measures in cities

University of Kansas

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LAWRENCE — For years, cities have been taking on efforts to reduce their carbon footprint by reducing greenhouse gas emissions. Yet little has been done to verify if such work has the intended outcome. 

New research from the University of Kansas found that completing a greenhouse gas emission inventory indeed moves the needle toward mitigation. “Sustainability” can refer to any number of efforts a municipality can employ, but research has found that when American cities conduct a greenhouse gas emissions inventory, they reduce their CO2 emissions significantly more than they would have otherwise. 

“We found evidence that the construction and development of a GHG (green house gas) emissions inventory was causally linked to fewer fossil fuel carbon dioxide emissions,” said Rachel Krause, professor of public affairs and administration at KU and the study’s lead author. “Inventories reflect considerable investigation into the source and amount of local emissions, and we hypothesize that this information increases ability to manage efforts and allowed for change.” 

Completing such an inventory, as well as employing sustainability directors or professionals in city government, are two of the most common methods cities have used to boost sustainability and reduce emissions, and researchers wanted to examine the understudied area of how effective those efforts are.

Researchers gathered data from cities across the United States identifying whether they had an emissions inventory and/or sustainability staff in place in both 2010 and 2015. Because the goal was to determine the difference that these investments generate, only those without them in place in 2010 were included in the analysis. 

This yielded a sample of 702 municipalities to examine the emissions inventory and 484 for the sustainability staff. The research team then used satellite-gathered emissions data to calculate emissions released within the cities’ boundaries and compared the differences in emissions from the two points in time for groups of cities that did and did not make these investments.

“The estimation method we used controlled for over time and between city differences and indicates a statistically significant link back to this treatment,” Krause said of the emissions inventory. “Looking at fossil fuel-based CO2 from on-site residential emissions is a small piece of the overall pie, but the fact that there is evidence of real impact is relevant.”

Researchers examined emissions from on-site residential settings and on-road traffic. The results showed that conducting an emissions inventory results in about 22 fewer pounds of emissions per capita. The reduction appeared primarily via residential emissions.

The addition of sustainability staff, however, did not show a statistically significant reduction.

The study was co-written with Angela Park of the KDI School of Public Policy and Management in South Korea, who is also a public affairs alumna of KU; Christopher Hawkins of the University of Central Florida; and Aote Xin of Claremont Graduate University. It was published in the journal Cities.

Krause reiterated that the findings do not mean that employing sustainability staff is not a worthwhile investment for cities. Sustainability can mean many things and just because the study did not find that the addition of staff results in fewer emissions does not mean they have not influenced important improvements in other areas.

“Because greenhouse gas emissions are influenced by many factors — including climate, macroeconomics and higher-level policy — some people argue that local efforts aren’t large enough to matter,” Krause said. “The causal reduction shown following an emissions inventory is meaningful and adds to an area of research that was lacking.

“It’s not going to solve the issue, but is there evidence that these accounting and planning efforts are moving the needle in the right direction? We are finding that the answer is yes, they are. I posit that means something.”

As national and international political and policy priorities change, cities will continue to be among the most active in addressing greenhouse gas emissions, she added. Data is now beginning to show that investments and action taken by municipalities can move the needle.

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Journal

Cities

DOI

10.1016/j.cities.2025.105769 

Method of Research

Data/statistical analysis

Subject of Research

Not applicable

Article Title

Do municipal efforts ‘move the needle’ in reducing local greenhouse gas emissions? An initial assessment of US cities

Article Publication Date

11-Mar-2025

 

Assessing pain, anxiety and other symptoms of nursing home residents unable to speak for themselves

Revamped tool reliably addresses physical and emotional distress, well-being and end-of-life symptoms

Regenstrief Institute

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INDIANAPOLIS – As many as half of nursing home residents are cognitively impaired and may be unable to communicate symptoms such as pain or anxiety to the staff and clinicians caring for them. Therefore, information needed for the evaluation of symptoms and subsequent treatment decisions typically does not reliably exist in nursing home electronic health records (EHRs).

A new paper reports on the novel adaptation of a commonly used symptom assessment instrument to more comprehensively acquire this difficult-to-obtain data with the ultimate goal of enabling knowledge-based expansion of palliative care services in nursing homes to address residents’ symptoms.

In the paper, part of the large, multi-state, multi-facility UPLIFT-AD study – short for Utilizing Palliative Leaders in Facilities to Transform care for people with Alzheimer's Disease – researchers, including Regenstrief Institute, the Indiana University School of Medicine and the University of Maryland School of Social Work faculty, describe how they revamped and subsequently validated a symptom assessment tool used worldwide. The UPLIFT-AD researchers modified the instrument, originally designed for reporting by family members of individuals with dementia following their death, to enable reporting on the symptoms of current residents living with moderate to severe dementia by nursing home staff as well as family.

Led by Kathleen T. Unroe, M.D., MHA, M.S., and John G. Cagle, PhD, the UPLIFT-AD team reports in the peer-reviewed paper that the tool they enhanced reliably addressed physical and emotional distress as well as well-being and symptoms that are precursors to end of life. This validation was critical as the researchers develop guidance for expansion of symptom recognition and management in any nursing home. Employing instruments used in other studies helps researchers to directly compare findings. 

Dr. Unroe, Dr. Cagle and colleagues, including Wanzhu Tu, PhD, of the Regenstrief Institute and the IU School of Medicine, are in the late stages of the UPLIFT-AD clinical trial to enhance quality of care individuals with dementia by building capacity for palliative care within nursing homes.

“People receive care in nursing homes because they have significant needs -- support for activities of daily living -- as well as for complex, serious and multiple chronic conditions. But measuring symptoms of residents, especially those who are cognitively impaired, to address these needs is challenging,” said paper senior author Dr. Unroe, a Regenstrief Institute research scientist and an IU School of Medicine professor of medicine. “In my two decades of working as a clinician in nursing homes as well as a researcher, I have seen that often the information on symptoms that we want isn't available consistently in the data that's already collected or it isn’t collected at the frequency that we need to measure the impact of programs and approaches. And the gold standard for knowing if someone has a symptom, for example, if someone has pain or anxiety, to ask that person directly to assess the symptom, isn’t always possible for cognitively impaired residents. That’s why we took steps to validate a commonly used instrument in a wider population – individuals currently living with cognitive impairment – and added additional needed data points.

“While hospice care is typically available, there is widespread recognition that broader palliative care is needed in nursing homes. But there is no roadmap for how to provide it well. We hope that when we have our final results in 2026, UPLIFT-AD will prove to be a replicable model for implementing this much needed type of care."

“A Psychometric Evaluation of the Staff-Reported EOLD-CAD Measure Among Nursing Home Residents With Cognitive Impairment” is published in the International Journal of Geriatric Psychiatry. 

All authors and affiliations:

John G. Cagle1, Timothy E. Stump2, Wanzhu Tu2,3, Mary Ersek4, Alexander

Floyd3, Lieve Van den Block5, Peiyan Zhang1, Todd D. Becker 1 , Kathleen T. Unroe3,6.

• 1University of Maryland School of Social Work, Baltimore, Maryland, USA.
• 2Department of Biostatistics and Health Data Science, Indiana University, Indianapolis, Indiana, USA.
• 3Regenstrief Institute, Inc, Indianapolis, Indiana, USA.
• 4Department of Veterans Affairs, Philadelphia, Pennsylvania, USA.
• 5VUB-UGent End-of-Life Care Research Group, Vrije Universiteit Brussel (VUB), Brussels, Belgium.
• 6Indiana University School of Medicine, Indianapolis, Indiana, USA.

Kathleen T. Unroe, M.D., MHA, M.S.

In addition to being a research scientist with the Indiana University Center for Aging Research at Regenstrief Institute, Kathleen T. Unroe, M.D., MHA, M.S., is a professor of medicine at Indiana University School of Medicine and a practicing geriatrician.

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Journal

International Journal of Geriatric Psychiatry

DOI

10.1002/gps.70037 

Article Title

A Psychometric Evaluation of the Staff-Reported EOLD-CAD Measure Among Nursing Home Residents With Cognitive Impairment

 

What do we mean by “brain health” and why should you care about it?

During Brain Awareness Week, the American Heart Association offers insight to improve your brain health as the burden of dementia and other neurological conditions grows worldwide

American Heart Association

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Highlights:

• The likelihood of cognitive decline and other health conditions impacting the brain increases with age so, as medical advances and other factors help the world’s population live longer, the prevalence of brain disease, including dementia, is on the rise.
• According to the American Heart Association’s 2025 Heart Disease and Stroke Statistics Update, nearly 56 million people worldwide are living with Alzheimer’s disease and other dementias – more than 6.9 million of them are in the U.S.
• An analysis of Medicare data reported in the statistical update estimates that the prevalence of Alzheimer’s disease and other dementias among the U.S. population will more than double to 13.9 million Americans by 2060.
• Experts say that nearly half of the risk factors for brain disease are modifiable; and that brain health can be improved through healthy diet, exercise and control of blood pressure, among other risk factors that are also related to cardiovascular disease.

DALLAS, March 12, 2025 — The average adult brain only weighs about 3 pounds, yet it is one of the most complex and vital organs of the human body. Cognition may decline and our brains become prone to disease as we age, so as medical advances and other factors help the world’s population live longer the prevalence of brain disease, including dementia, is on the rise. However, keeping our brains healthy may be easier than people realize with some helpful guidance from the American Heart Association, a global force changing the future of health of all.

Optimal brain health includes the functional ability to perform all the diverse tasks for which the brain is responsible – including thinking, moving and feeling. Many modifiable risk factors for cognitive loss, such as an unhealthy diet and sedentary lifestyle, develop as early as childhood and adolescence. As we age, our ability to remember, problem-solve, think and communicate decreases.

“We now know that many of the same health risk factors that cause heart disease and stroke also contribute to a decline in overall brain health,” said Mitchell S. V. Elkind, M.D., M.S., FAHA, a neurologist and former volunteer American Heart Association president and currently its chief clinical science officer. “Just like with heart disease and stroke, most brain disease is preventable. However, the combination of an aging population and projected substantial increases in high blood pressure, obesity and diabetes are likely to lead to unprecedented growth in many types of brain disease.”

According to data reported in the 2025 Heart Disease and Stroke Statistics: A Report of U.S. and Global Data From the American Heart Association:

• Alzheimer’s disease is the 7th leading cause of death in the U.S. and the leading cause of death among all neurological disorders, including stroke.
• More females than males die of dementia each year because of the higher prevalence of elderly females compared with males. Females accounted for 66.7% of U.S. dementia deaths in 2022.
• More than 6.9 million people in the U.S. are living with Alzheimer’s disease.
• An analysis of Medicare data reported in the update estimates that prevalence will more than double to 13.9 million Americans by 2060.

Also reported in the statistical update:

• Worldwide, nearly 57 million people had Alzheimer’s disease and other dementias in 2021, a 45% increase since 2010 and a 160% increase over the past 30 years (1990-2021). For comparison, the prevalence of cardiovascular disease increased 33% over the past decade and 111% over the past 30 years
• The increase in global deaths from Alzheimer’s disease and other dementias is outpacing that of cardiovascular disease even more – dementia deaths increased by nearly 195% since 1990, compared to a 57% increase in cardiovascular deaths during that same time.
• Estimated U.S. healthcare spending on dementia more than doubled from $38.6 billion in 1996 to $79.2 billion in 2016. Spending on dementias was among the top 10 healthcare costs in the United States in 2016.

“The burden of brain disorders is high. Dementia as a cause of death is growing faster than any other disease, including heart disease, the number one cause of death worldwide. Paradoxically, as we get better at treating other conditions, like heart disease, stroke and cancer, dementia as a cause of death increases,” Elkind said. “Using many of the same tools and information that have helped us successfully address cardiovascular risk factors and reduce the burden of heart disease over the past several decades, we should be able to do the same for brain disorders and promote brain health.”

Elkind said following the American Heart Association’s Life Essential 8™ can be as beneficial for brain health as it is for heart health. These include 4 health behaviors and 4 health factors identified as key measures for improving and maintaining cardiovascular health:

• Health Behaviors: Eat Better
• Health Behaviors: Be More Active
• Health Behaviors: Quit Tobacco
• Health Behaviors: Get Healthy Sleep
• Health Factors: Manage Weight
• Health Factors: Control Cholesterol
• Health Factors: Manage Blood Sugar
• Health Factors: Manage Blood Pressure

“The American Heart Association is committed to advancing brain science through innovative research that will help scientists shed new light on the causes and contributors to cognitive impairment and dementia, particularly as it relates to heart and vascular health,” Elkind said. “Additionally, we can support individuals and communities in thinking of brain health not only in terms of an absence of disease, but also in a more positive way. We can look at how we optimize brain function to include positive cognitive traits like creativity, adaptability, resilience, empathy and others.”

He said the increasing cost of poor brain health in lives and dollars makes the Association’s ongoing commitment to better understand how brains age and how vascular health impacts brain health and overall well-being even more imperative.

“When people are asked what health conditions they fear the most with aging, dementia tops the list, surpassing even cancer, heart disease and stroke,” Elkind said. “It’s critical that as a society and as individuals we understand and make the changes needed to improve health outcomes from brain disease and, more importantly, prevent them to begin with.”

Learn more about brain health at heart.org.

Additional Resources:

• Available multimedia is on right column of release link
• Spanish news release 
• AHA health information: Brain Health & Healthy Aging Infographic
• Follow AHA/ASA news on X @HeartNews

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About the American Heart Association

The American Heart Association is a relentless force for a world of longer, healthier lives. Dedicated to ensuring equitable health in all communities, the organization has been a leading source of health information for more than one hundred years. Supported by more than 35 million volunteers globally, we fund groundbreaking research, advocate for the public’s health, and provide critical resources to save and improve lives affected by cardiovascular disease and stroke. By driving breakthroughs and implementing proven solutions in science, policy, and care, we work tirelessly to advance health and transform lives every day. Connect with us on heart.org, Facebook, X or by calling 1-800-AHA-USA1.