Student Life
Researchers discover that ancient floods “rewrote” civilizations along the Yangtze River
Around 4600 years ago, the Shijiahe developed an advanced, complex culture in China’s Middle Yangtze River region – complete with palaces, city walls, sophisticated water management, and jade and pottery industries. But within a thousand years, this culture had collapsed and migrated out of the region. Until now, the reason behind this was unclear – could this civilization have been driven out by raiders from the Central Plains? Or were major changes in climate and rainfall to blame?
To investigate, the research team analysed a stalagmite from Heshang Cave in the middle Yangtze Valley to create a precisely dated “rainfall yearbook”. Stalagmites grow as rainwater droplets fall from the roof of a cave, and the dissolved minerals within deposit new layers of calcium carbonate. These accumulate to form stalagmite cave features that rise up from the floor below.
Heshang Cave, in the middle Yangtze River valley
The team performed high-precision measurements on the chemical makeup of these layers to determine their age and the amount of rainfall at the time they formed. A total of 925 sample measurements were used to infer how much yearly rainfall the middle Yangtze Valley received over a thousand-year period.
Their reconstruction showed that the valley experienced three low-rainfall intervals (less than 700 mm of rain per year) which lasted between 40 and 150 years, and two high-rainfall intervals (more than 1,000 mm per year) which lasted 80 and 140 years respectively. Comparing this to archaeological data from the region revealed that these high-rainfall periods were associated with increased flooding, widespread wetland expansion, and a significant decline in population within the valley.
The area experienced a particularly large climate and cultural shift 3,950 years ago, which coincided with the start of the longest high-rainfall interval reconstructed by the research team. During this period, excess rainfall caused lakes across the Middle Yangtze valley to expand, low-lying areas to become waterlogged, and suitable land for settlement and farming to sharply diminish. The impact of this change was significant for the Shijiahe culture; a decline in the number of archaeological remains from this time onwards indicates a pronounced drop in population which persisted for centuries. Evidence suggests that the post-Shijiahe population abandoned their urban centre in the valley and dispersed into surrounding higher elevation regions.
The work builds on Oxford’s ‘Environmental Proxies’ and ‘Climotope’ research groups’ leading excellence in pioneering and developing quantitative reconstructions of past environments. This includes ongoing research into new geochemical techniques, and continued development of mass-spectrometry and geochemistry approaches. For instance, these groups were the first to pioneer the use of calcium isotope measurements of cave stalagmites to reconstruct rainfall amount, in readily understood units (i.e. mm of rainfall per year).
Corresponding author Dr Christopher Day (Department of Earth Sciences) said: ‘It is fabulous to see this 1000-year record of rainfall-amount now available to the scientific community. Such robust data sets are fundamental for understanding the functioning of our environmental systems in times of rapid change. They also enable close collaboration with a multitude of University of Oxford research teams working to tackle environmental challenges (e.g. environmental scientists, archaeologists, climate modellers).’
The new study stems from a long-standing collaboration between Oxford and a leading paleoclimate group at China University of Geosciences, Wuhan. This enabled lead author Dr Jin Liao (China University of Geosciences) to visit the Oxford team and use their specialist milling equipment to sample a stalagmite at very-high resolution. Isotope tools developed here in Oxford were then applied to provide accurate dates and a quantitative reconstruction of past rainfall.
The HS4 stalagmite which was used to create the ‘rainfall yearbook’
Co-author Professor Gideon Henderson (Department of Earth Sciences) said: ‘We’ve worked with our Chinese colleagues to understand Chinese climate change for many years, but only recently extended this work to assess how past societies in central China were impacted by changes in monsoon rainfall. The data, and the knowledge Jin brought about the Shijiahe culture, enabled us to demonstrate, for one of the first times, that high rain can cause problems for past societies, as well as drought conditions.’
According to the researchers, the findings offer valuable insights for addressing current and future environmental change. The analysis reveals that even the highest annual levels of rainfall during the period associated with the collapse of the Shijiahe civilization (1200 mm/yr) are lower than the highest yearly rainfall amounts recorded over the past 120 years (1500 mm/yr). Although modern water-management techniques have enabled this region to become a key rice-producing region in China, rising temperatures due to climate change are likely to increase the intensity of extreme floods, putting local populations at risk.
Dr. Jin Liao (China University of Geosciences, Wuhan), lead author of the study, said: ‘This not only reflects the limited adaptive capacity of ancient societies, but also highlights the critical importance of modern-day water management infrastructure, agricultural innovations, and governance systems in mitigating climate risks and safeguarding food security. Effectively managing these climate-driven extremes will thus become an essential challenge for achieving sustainable societal development in a climate-changing world.’
The study ‘Precise chronology of hydrological changes at ∼4.2 kyr in Central China to assess the impact of flooding on Neolithic societies’ has been published in National Science Review.
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A new predictive tool has been developed by a team of researchers to help clinicians identify which stroke patients are most likely to experience long-term cognitive difficulties. The ‘Cognition Calculator’, introduced in a study published in The Lancet: Healthy Longevity, uses information routinely recorded during hospital care to estimate the likelihood of problems with thinking, memory and communication six months after a stroke.
The study, conducted by researchers at the University of Oxford and the University of Birmingham, developed and tested a statistical model using clinical data collected from stroke patients during the early stages of hospital care. The model draws on data, including results from cognitive screening tests alongside information such as age and stroke severity. Researchers found that early cognitive performance was one of the strongest indicators of longer-term outcomes.
Cognitive impairment is common following a stroke, but can be difficult to anticipate. Whilst post-stroke care has traditionally focused on physical recovery and preventing future strokes, researchers say thinking and communication difficulties are a major factor in patients’ long-term quality of life.
Professor Nele Demeyere, who led the research team, told Cherwell: “Many colleagues recognise the challenge of discussing cognitive outcomes with patients when there is so much uncertainty, so there is interest in tools that could help structure those conversations more clearly.”
Demeyere emphasised to Cherwell that the calculator is not yet intended to be used as a finished clinical product. Instead, she described the research as providing “rigorous groundwork” for future research to refine and test the model in wider clinical settings.
The research comes as the NHS is increasingly using digital tools and artificial intelligence to improve stroke care, including software now deployed across stroke centres in England to help clinicians analyse brain scans and make faster treatment decisions. Updated national stroke guidelines have also placed greater emphasis on early cognitive screening and long-term rehabilitation.
Dr Andrea Kusec, another Oxford researcher involved in the project, told Cherwell: “The response has been very positive, with many recognising the value of developing tools that can support conversations about what ‘life after stroke’ will be like.”
She added: “Clinicians often are key in providing messages of hope and allay some of this uncertainty – this tool can become a way to support those tough conversations.”
The study also highlights the wide range of cognitive recovery after stroke. According to Kusec, one of the most surprising findings was how differently prediction models performed depending on the type of cognitive impairment involved, such as language, memory, or executive function. “This really speaks to the individual nature of post-stroke cognitive outcomes”, she said.
Researchers hope the model will now be tested in larger patient groups and across different healthcare settings. If validated further, it could help clinicians identify patients who may benefit from closer monitoring, targeted rehabilitation, or additional support.
Demeyere told Cherwell that the broader aim is to ensure cognitive health is recognised as a central part of stroke recovery. “Post-stroke care has historically focused, understandably, on survival and preventing recurrent strokes. Increasingly, we recognise that cognitive and communication difficulties are central to long-term quality of life… This study represents one step in that direction. It reflects a broader shift towards viewing cognitive health as a core component of stroke care.”
Councillor Chewe Munkonge has been announced as Oxford’s next Lord Mayor, becoming the first Black person to hold the city’s highest civic office. The nomination was confirmed at a meeting of Oxford City Council on 23rd March by council leader Sudan Brown. Mukonge is expected to take up the largely ceremonial role for the 2026/2027 civic year, subject to his re-election in May.
Munkonge, who represents Quarry and Risinghurst ward, was first elected to the council in 2014 and currently serves as Cabinet Member for a Healthy, Fairer Oxford, as well as the council’s Small Business Champion. He also serves as the Central Administration Officer of the Oxford Trust, where he supports “all the operations of The Oxford Trust and Science Oxford’s events and education activities”. Outside politics, Munkonge works as a Central Admin Officer for a local charity and previously served as a governor at The Swan School between 2019 and 2025.
The Lord Mayor of Oxford typically undertakes over 300 engagements annually, including leading the city’s Remembrance Sunday service and attending royal visits, and supporting organisations. During his term, Munkonge has chosen Sobell House and St Theresa as his official charities. Sobell House Hospice is a local charity that provides specialist support for people with life-limiting illnesses and their families.
The Lord Mayor role is a politically neutral position appointed annually by Oxford City Council, typically at its Annual Meeting in May. By convention, it is offered to the longest-serving councillor who has not previously held the office.
Alongside Munkonge’s appointment, Councillor Louise Upton, the outgoing Lord Mayor, has been named Deputy Lord Mayor, while Councillor Linda Smith will serve as Sheriff of Oxford.
In a press release statement, Munkonge said: “I am deeply humbled and truly honoured to be chosen as the next Lord Mayor of Oxford… As the first Black Lord Mayor of our city, I stand on the shoulders of those who paved the way, and I hope to be a source of inspiration for future generations.”
Sperm tagged with green fluorescent protein in the sperm storage organ of a female Drosophila fruit fly. Credit: Krish Sanghvi.
The findings are based on a major, cross-species analysis which revealed a shared pattern across many animals, from insects to mammals. Sperm that is stored (whether in males or females) deteriorates rapidly – resulting in reduced sperm performance, fertilisation success, and embryo quality. Crucially, the new study also offers insights into why this happens.
The researchers carried out a meta-analysis of 115 human studies (involving 54,889 men) and 56 studies across 30 non-human species. This confirmed that mature sperm in storage generally deteriorates in quality independently of the age of the male – a process called post-meiotic sperm senescence.
In humans, longer periods of sexual abstinence were associated with increased sperm DNA damage and oxidative stress, along with reduced sperm motility and viability.
Co-lead author Dr Rebecca Dean (Department of Biology, University of Oxford) said: ‘Because sperm are highly mobile and have minimal cytoplasm, they quickly exhaust their stored energy reserves and have limited capacity for repair. This makes storage particularly damaging compared to other types of cells. Our study highlights how regular ejaculation can provide a small but meaningful boost to male fertility.’
Differences between males and females
Sperm quickly exhaust their stored energy reserves and have limited capacity for repair. Our study highlights how regular ejaculation can provide a small but meaningful boost to male fertility.
Co-lead author Dr Rebecca Dean (Department of Biology)
Both male and female animals can store sperm as a reproductive strategy (in humans, sperm can last for several days in females but the effects of such storage are unknown). In males this ensures enough sperm are present for mating, and in females this can enable reproduction even when males are scarce. However, the study found a striking difference in the rate of sperm deterioration in males versus females. In the species studied, females are generally better than males at preserving sperm quality long-term.
‘This likely reflects the evolution of female-specific adaptations, such as specialised storage organs that provide antioxidants to extend sperm viability’, explained senior author Dr Irem Sepil (Department of Biology, University of Oxford). ‘These organs often secrete reproductive fluids to nourish sperm and could provide unexplored avenues for biomimicking technology to improve artificial sperm storage in the future.’
Lead author Dr Krish Sanghvi (Department of Biology, University of Oxford) added: ‘Ejaculates should be viewed as populations of individual sperm which undergo birth, death, ageing and selective mortality. The rates of these demographic processes can differ in males and females, mediating the “demographic” structure of sperm populations and sex-specific differences in sperm storage effects.’
Implications for human fertility
Sperm in the testes and sperm storage organs of a male Drosophila fruit fly. Credit: Krish Sanghvi.
That sperm can age in both sexes independently of the organism’s age has been largely ignored in reproductive medicine. The findings therefore have immediate implications for clinical practice. For instance, the results suggest that the upper limit of seven days in the WHO guidelines may be too long. This aligns with recent evidence suggesting that ejaculating within 48 hours of providing a sample can significantly improve IVF outcomes.
By breaking down the barriers between biomedical and zoological research, this study provides a new lens for understanding reproduction. Besides influencing protocols in fertility clinics and assisted reproduction, the findings could also benefit captive breeding programmes for endangered species – as well as deepening our understanding of how species evolved mechanisms to reduce sperm damage during storage.
The study ‘Sperm storage causes sperm senescence in human and non-human animals’ has been published in Proceedings of the Royal Society B.
For more information about this story or republishing this content, please contact [email protected]
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