Hidden genetic risk could delay diabetes diagnosis for Black and Asian men

University of Exeter

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A common but often undiagnosed genetic condition may be causing delays in type 2 diabetes diagnoses and increasing the risk of serious complications for thousands of Black and South Asian men in the UK - and potentially millions worldwide.

The new study is conducted by the University of Exeter, in collaboration with Queen Mary University of London (QMUL) and funded through a Wellcome Discovery Award. It has found around one in seven Black and one in 63 South Asian men in the UK carry a genetic variant known as G6PD deficiency. Men with G6PD deficiency are, on average, diagnosed with type 2 diabetes four years later than those without the gene variant. But despite this, fewer than one in 50 have been diagnosed with the condition

G6PD deficiency does not cause diabetes, but it makes the widely used HbA1c blood test - which diagnoses and monitors diabetes - appear artificially low. This can mislead doctors and patients, resulting in delayed diabetes diagnosis and treatment.

Professor Inês Barroso from the University of Exeter said: "Our findings highlight the urgent need for changes to testing practices to tackle health inequalities. Doctors and health policy makers need to be aware that the HbA1c test may not be accurate for people with G6PD deficiency and routine G6PD screening could help identify those at risk. Addressing this issue is not only crucial for medicine, but for health equity.”

G6PD deficiency is a genetic condition that affects more than 400 million people worldwide, and is especially prevalent among those with African, Asian, Middle Eastern, and Mediterranean backgrounds. It is more common in men and usually goes undetected because it rarely causes symptoms. The World Health Organization recommends routine screening for G6PD deficiency in populations where it is common, but this is not widely implemented in the UK or many other countries.

This new study, published in Diabetes Care and supported by the National Institute for Health and Care Research Exeter Biomedical Research Centre, has found men with G6PD deficiency are at a 37 per cent higher risk of developing diabetes-related microvascular complications, such as eye, kidney, and nerve damage, compared to other men with diabetes.

The HbA1c blood test is the international standard for managing type 2 diabetes and is used in 136 countries worldwide to diagnose diabetes, including being the routine test for diagnosis in the UK. However, for people with G6PD deficiency, this test may underestimate their blood sugar levels, causing significant medical delays and increasing their risk of serious complications.

Dr Veline L’Esperance, a GP and Senior Clinical Research Fellow at QMUL, said: “These findings are deeply concerning because they show how a widely used diagnostic tool may be failing communities that are already disproportionately affected by type 2 diabetes. Too many people are being left undiagnosed until it is too late to prevent serious complications. We need greater awareness among healthcare professionals and stronger policies to ensure equitable screening and diagnosis. That is why we are launching ‘Black Health Legacy’, which aims to be the largest health research programme focused on tackling diseases that disproportionately affect people from Black backgrounds. This is about saving lives and tackling long-standing inequalities in our healthcare system.”

Professor Faye Ruddock, Chair of the Caribbean and African Health Network, said: “Black communities in the UK experience health inequalities, particularly relating to type 2 diabetes. Stigma, language, and cultural differences can contribute to delayed diagnosis, while reduced physical health checks and screening opportunities in predominantly Black communities also contribute to this disparity. This study highlights important evidence that must be used to tackle these health inequalities and improve outcomes for Black communities. Preventative measures are now needed to ensure that Black people, especially men, are not underdiagnosed or diagnosed too late.”

Anna Morris, Assistant Director of Research and Co-lead for Tackling Inequities at Diabetes UK, said: “Black and South Asian people in the UK are twice as likely to be living with undiagnosed type 2 diabetes than White people and face worse health outcomes once diagnosed. These disparities are unacceptable and must be addressed to ensure equitable diabetes care for all. If our most common test to diagnose and monitor type 2 diabetes isn’t accurate for people of all ethnicities, it could seriously compound these problems and leave people without the care they deserve. Without the reliable tools they need, healthcare professionals risk missing or misdiagnosing type 2 diabetes.”

Dr Esther Mukuka, Director of Research Inclusion at the NIHR, said: "At NIHR, we are committed to ensuring research drives fairer healthcare for all. Addressing the impact of G6PD deficiency on diabetes testing is an important step towards reducing inequalities and making sure that everyone, regardless of background, benefits equally from medical advances."

The findings are based on genetic and health data from over half a million people in UK Biobank and Genes & Health studies. The research was conducted by a multidisciplinary team of clinicians and scientists, with the support of community partners, who linked the genetic data from each participant to their medical information. By doing this the team found men with the G6PD deficiency genetic variant were diagnosed at an older age compared to those without the condition. In addition, those with G6PD deficiency and diabetes also had more diabetes related complications. Researchers say further studies in more diverse populations are now needed to confirm these findings globally.

The paper ‘Undiagnosed G6PD deficiency in Black and Asian individuals is prevalent and contributes to health inequalities in type 2 diabetes diagnosis and complications’ is published in Diabetes Care.

More information about Black Health Legacy can be found at https://blackhealthlegacy.org

ENDS

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Journal

Diabetes Care

DOI

10.2337/dc25-0556 

Subject of Research

People

Article Title

Undiagnosed G6PD deficiency in Black and Asian individuals is prevalent and contributes to health inequalities in type 2 diabetes diagnosis and complications

Article Publication Date

30-Sep-2025

 

Tiny but mighty: Groundbreaking study reveals mosses are secret carbon heroes in subtropical forests

Dr. Zhe Wang and Dr. Weikai Bao lead a China-Croatia BRI collaboration uncovering the underestimated role of forest mosses in climate change mitigation

Biochar Editorial Office, Shenyang Agricultural University

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image: 

Missing biomass stock: a systematic investigation of understory bryophytes across 413 subtropical forests
 

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Credit: Zhe Wang, Xin Liu, Defeng Feng, Yanqiang Jin, Xinxu Yang, Beibei Gao & Weikai Bao

In a lush revelation from the forest floor, a new study published in Carbon Research (as an Open Access Rapid Communication) shows that mosses, those quiet, green carpet-weavers beneath our feet, are climate champions in their own right. Led by Dr. Zhe Wang from the China-Croatia “Belt and Road” Joint Laboratory on Biodiversity and Ecosystem Services, CAS Key Laboratory of Mountain Ecological Restoration and Bioresource Utilization, Chengdu Institute of Biology, Chinese Academy of Sciences, and Shanghai Normal University, alongside Dr. Weikai Bao, also of the Chengdu Institute of Biology, this research flips the script on how we view forest carbon storage. Spoiler: mosses matter—big time. 

The Hidden Power of the Forest Floor

We’ve long celebrated trees as Earth’s lungs. But this team asked: what about the bryophytes—the mosses and liverworts blanketing the ground in forests across Sichuan Province, China?

They surveyed 413 subtropical forests, the largest study of its kind, and discovered something astonishing:

• Bryophytes make up a full 25% (1/4) of all understory biomass
• That’s equivalent to 1% of the aboveground tree biomass—a tiny fraction in size, but massive in significance when scaled across millions of hectares

“For decades, mosses were treated as background scenery,” says Dr. Wang. “But our data shows they’re not just decoration—they’re critical carbon players hiding in plain sight.”

Climate Champions in Cool, Coniferous Forests

Not all forests are equal when it comes to moss magic. The study found that cold temperate coniferous forests harbor the highest bryophyte biomass, thanks to their moist, shaded, and undisturbed conditions—perfect for moss to thrive. These humble plants don’t just sit there—they soak up carbon, store nutrients, and stabilize soil, all while asking for almost nothing in return. And because they grow slowly and decompose even slower, the carbon they lock away can stay put for decades.

Why This Changes Everything

Here’s the kicker: current global carbon models often ignore bryophytes entirely. This study proves that’s a mistake.

By including bryophytes in ecosystem assessments, scientists and policymakers can:

• Build more accurate climate models
• Improve carbon accounting for forests and conservation programs
• Unlock low-cost, high-impact strategies for carbon neutrality

“Preserving bryophytes isn’t just about biodiversity,” says Dr. Bao. “It’s a cost-effective, nature-based solution for climate change. They’re like free carbon credits growing on the forest floor.”

A Call for Global Attention

While this study focused on subtropical China, the implications are global. The team urges more research across tropical, boreal, and temperate zones to fully map the carbon power of mosses worldwide. “This is just the beginning,” adds Dr. Wang. “With collaborations like the China-Croatia Belt and Road Joint Laboratory, we’re building a global network to study overlooked ecosystems and their vital services.”

Meet the Minds Behind the Moss

This breakthrough is a proud achievement of Chinese Academy of Sciences and Shanghai Yangtze River Delta Urban Wetland Ecosystem National Field Observation and Research Station, showcasing China’s leadership in ecological research and international scientific cooperation. Dr. Wang’s dual affiliation with Shanghai Normal University and Chengdu Institute of Biology highlights the power of cross-regional collaboration in tackling planetary challenges. So next time you walk through a forest, look down. That soft, green carpet underfoot? It’s not just pretty—it’s protecting our planet, one tiny leaf at a time. Kudos to Dr. Zhe Wang, Dr. Weikai Bao, and their team for turning over a new (mossy) leaf in climate science. Let’s stop overlooking the little things that make a big difference. The future of carbon neutrality might just be growing at our feet.

 

 

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• Title: Missing biomass stock: a systematic investigation of understory bryophytes across 413 subtropical forests
• Keywords: Biomass; Bryophyte; Forest type; Nutrient storage
• Citation: Wang, Z., Liu, X., Feng, D. et al. Missing biomass stock: a systematic investigation of understory bryophytes across 413 subtropical forests. Carbon Res. 4, 55 (2025). https://doi.org/10.1007/s44246-025-00224-6 

 

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About Carbon Research

The journal Carbon Research is an international multidisciplinary platform for communicating advances in fundamental and applied research on natural and engineered carbonaceous materials that are associated with ecological and environmental functions, energy generation, and global change. It is a fully Open Access (OA) journal and the Article Publishing Charges (APC) are waived until Dec 31, 2025. It is dedicated to serving as an innovative, efficient and professional platform for researchers in the field of carbon functions around the world to deliver findings from this rapidly expanding field of science. The journal is currently indexed by Scopus and Ei Compendex, and as of June 2025, the dynamic CiteScore value is 15.4.

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Journal

Carbon Research

DOI

10.1007/s44246-025-00224-6 

Method of Research

News article

Subject of Research

Not applicable

Article Title

Missing biomass stock: a systematic investigation of understory bryophytes across 413 subtropical forests

 

The relaxed birder

A framework for a more flexible approach to data collection

Kyoto University

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image: 

Scenery during a relaxed point‑count bird survey conducted while commuting from the author’s home to his workplace, Hiroshima University, in Higashihiroshima City. Such surveys are unintended, occasional, and opportunistic—carried out whenever and wherever the opportunity arises. 

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Credit: (Masumi Hisano)

Kyoto, Japan -- Citizen science has allowed regular citizens to participate in data collection as well as expanded biodiversity monitoring. Yet many datasets are still limited to the coverage of certain regions and habitats in particular seasons. In bird research, for example, traditional point‑count surveys often have strict rules regarding the location, timing, and spacing between observation points, making it challenging for citizen volunteers to participate casually.

This inspired Masumi Hisano, formerly of Kyoto University and now at Hiroshima University, to try a more flexible approach by conducting counts whenever and wherever possible, as part of his daily routines. As someone who hates waking up early, Hisano tried to bend the traditional time rules to suit his desired schedule.

"I thought it was a wasted opportunity to not record birds I encounter in daily life, like in the supermarket parking lot or at the train station," says Hisano.

"After applying this approach for two years, I began to wonder whether it could be academically validated, or at least shared with the wider research community to invite further discussion," he continues.

Hisano developed a flexible, scalable framework for collecting robust, geographically extensive datasets while relaxing time, distance, and spatial constraints, so that surveying can happen anytime and anywhere. The framework accounts for potential biases from spatial and temporal autocorrelation, differences in observer skill, and varying environmental conditions by incorporating random effects and relevant covariates into the analysis, highlighting the need for statistical adjustments.

With this approach, counts can take place in many settings, including cities, along travel routes, or during daily routines, at different times of day and in different seasons, even outside a species' breeding period. The distance between points can vary, and the same location can be surveyed on multiple days.

"With this relaxed approach, I can survey birds truly anywhere, anytime, without being restricted by rigid research rules: it’s fun, relaxed, and something I can enjoy as a hobby," says Hisano.

By conducing point counts whenever and wherever he travels, regardless of whether the trip is personal or academic, Hisano has already collected data at more than 1,300 survey points across Japan. Not only is it enjoyable, but it also allows him to easily increase sample size, which is often challenging in field ecology.

"I want to encourage ecologists and citizen scientists to expand the spatial and temporal coverage of bird monitoring data," says Hisano. "It is a pity that so many birders around the world are missing out on opportunities to record birds in ways that could help build species assemblage datasets linked to landscape characteristics."

Next, Hisano plans to analyze the data he has collected in terms of landscape and community ecology, and to empirically test how far the relaxed approach deviates from data collected under standard protocols while statistically accounting for the "noise" that may have resulted from relaxing the traditional survey rules.

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The paper "Facilitating large-scale bird biodiversity data collection in citizen science: 'relaxed' point counts for anytime, anywhere monitoring" appeared on 25 September 2025 in Ecology and Evolution, with doi: 10.1002/ece3.72176

About Kyoto University

Kyoto University is one of Japan and Asia's premier research institutions, founded in 1897 and responsible for producing numerous Nobel laureates and winners of other prestigious international prizes. A broad curriculum across the arts and sciences at undergraduate and graduate levels complements several research centers, facilities, and offices around Japan and the world. For more information, please see: http://www.kyoto-u.ac.jp/en

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Journal

Ecology and Evolution

DOI

10.1002/ece3.72176 

Method of Research

Observational study

Subject of Research

Animals

Article Title

Facilitating large-scale bird biodiversity data collection in citizen science: 'relaxed' point counts for anytime, anywhere monitoring

Article Publication Date

25-Sep-2025