In search of the perfect materials for fusion reactors

National Centre of Competence in Research (NCCR) MARVEL

Nuclear fusion could be an ideal solution to mankind’s energy problem, guaranteeing a virtually limitless source of power without greenhouse gas emissions. But there are still huge technological challenges to overcome before getting there, and some of them have to do with materials. Fusion reactors need materials that can be used at the interface with plasma, in conditions that are nothing short of extreme. The design of the experimental European reactor ITER being built in the south of France, in particular, includes a component called a divertor, that extracts heat and ash produced by the fusion reaction and directs the flow of heat and particles from the plasma to specific surfaces for cooling. On the divertor, the plasma-facing materials not only withstand extremely high temperatures, but are constantly bombarded by a flux of neutrons, electrons, charged ions and high-energy radiation.

In the design for the ITER project, the divertor is made of tungsten, a metal known for its excellent heat resistance. But alternatives such as carbon fibers or ceramic materials were considered in the past, and it is still not certain if, for future reactors, tungsten would really the best option.

Can theory and computation methods help the search for the best divertor material and thus contribute to making fusion a reality? Scientists in Nicola Marzari’s MARVEL laboratory at EPFL decided to answer the question, and in a new article in PRX Energy they present a method for a large-scale screening of potential plasma-facing materials, and a shortlist of the most promising ones.

First of all, the scientists had to find a way to make computations treatable. “A realistic simulation of the dynamics at the plasma-material interface would require simulating the behavior of thousands of atoms over several milliseconds, that would not be feasible with ordinary computational power” says Andrea Fedrigucci, a PhD student in the THEOS lab and first author of the paper. “So we decided to select a few key properties that a plasma facing material needs to have, and use them as an indication of how well the material may perform on the divertor”.

First, the scientists looked at the Pauling file database, a large collection of known inorganic crystal structures, and created a workflow to find the ones that have enough resistance to survive the temperatures found in the reactor. This can be understood by looking at their thermal capacity, thermal conductivity, melting temperature and density. Because the surface temperature of a material layer depends on its thickness, they also computed the maximum thickness that each material can have before melting and ranked the materials accordingly. In the case of materials for which information on the maximum thickness could not be computed, they used a Pareto optimization method to rank them according to the previously mentioned properties.

The result was a first shortlist of 71 candidates. At this stage, a very non-computational and old-school method had to be used. “I patiently looked up the literature on each of them to check if they had already been tested and discarded, of if there were properties that would prevent their use in a fusion reactor and that were not in the database, such as a tendency to erosion or degradation of their thermal properties under plasma and neutron bombardment”.  Interestingly, this part of the study led to discard as divertor materials some innovative materials that have recently been  proposed for application in fusion reactors, such as high-entropy alloys.

In the end 21 materials remained, on which a DFT workflow was applied to calculate two key properties that a good plasma fusion material should have: the surface binding energy, that is a measure of how easy it is to extract an atom from the surface, and the formation energy of a hydrogen interstitial, that measures a proxy of tritium solubility in the crystal structure. “f a divertor material is excessively eroded during its operational lifetime, the released atoms disperse into the plasma, leading to a reduction in its temperature” says Fedrigucci. “In addition, if the material is chemically reactive with tritium, it can subtract the tritium available for fusion and cause an accumulation of tritium inventory that exceeds the safety limits imposed for this type of technology.”.

In the end, the final ranking based on all the key properties includes some usual suspects that have been extensively tested: tungsten itself in metallic (W) and carbide forms (WC and W2C), diamond and graphite, boron nitride, and transition metals, such as molybdenum, tantalum and rhenium. But there were also a few surprises, such as  a peculiar phase of tantalum nitride or other ceramics based on boron and nitrogen, that have never been tested for this application.

In the future, says Fedrigucci, the group hopes to leverage neural networks to better simulate what really happens to materials in the reactor, including the interaction with neutrons that could not be simulated here.

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Journal

PRX Energy

DOI

10.1103/PRXEnergy.3.043002 

Method of Research

Computational simulation/modeling

Article Title

10.1103/PRXEnergy.3.043002

 

Water overuse in MATOPIBA could mean failure to meet up to 40% of local demand for crop irrigation

Overuse of water resources in Brazil’s main agricultural frontier region, in conjunction with climate change, is reducing replenishment of the Urucuia aquifer and surface water bodies in the basin of a tributary of the São Francisco.

Fundação de Amparo à Pesquisa do Estado de São Paulo

Considered one of the fastest-growing agricultural frontiers in Brazil, and the area with the highest greenhouse gas emissions in the Cerrado, Brazil’s savanna-type biome, the region known as MATOPIBA risks facing water shortages in the years ahead. Water overuse may mean that between 30% and 40% of demand for crop irrigation cannot be met in the period 2025-40. MATOPIBA is a portmanteau of the names of four states – Maranhão, Tocantins, Piauí, and Bahia (all but Tocantins located in Brazil’s Northeast region).

According to a new study by Brazilian researchers, water overuse and the impact of climate change are reducing groundwater flows from the Urucuia aquifer as well as the surface water bodies of the Grande River basin (the Grande is a tributary of the São Francisco, the largest river in Brazil’s Northeast). The reduction in these flows may lead to water shortages for the towns and cities of the region, for river dwellers, and for farmers throughout the basin. Moreover, agricultural expansion will raise energy requirements for irrigation by up to 40%, posing a developmental challenge due to significant pressure on the water-energy nexus, as hydropower accounts for most of Brazil’s energy mix.

The study was conducted by scientists at Brazil’s National Space Research Institute (INPE) to assess the long-term sustainability of agricultural expansion in the region in the context of worsening water scarcity. An article about it is published in the journal Ambio. The last author is Ana Paula Aguiar, a researcher in INPE’s Impacts, Adaptation and Vulnerability Division (DIIAV). Several of her co-authors are affiliated with Stockholm University’s Stockholm Resilience Center in Sweden.

The MATOPIBA region is mostly in the Cerrado (91% or 665,000 km²), with comparatively minor portions belonging to the Amazon (7.3%) and Caatinga (1.7%) biomes. Its southeastern part is watered by the Grande River basin, which covers some 76,000 km².

The main approach used in the paper is system dynamics, in which feedback control theory serves as a basis for modeling complex interactions between land use, energy and water, and for simulating different scenarios to predict responses over time, as a contribution to decision-making and more effective public policy formulation.

“System dynamics is holistic in the sense that it simulates correlations among demand variables that exist simultaneously in the region, such as irrigation, electricity and consumption. This isn’t always considered in analyses performed by public bodies,” said Celso von Randow, head of INPE-DIIAV and a co-author of the article.

The study was part of the project Nexus – Paths to Sustainability, led by Jean Ometto, a co-author of the article, a senior researcher at INPE, and a member of the steering committee for FAPESP’s Research Program on Global Climate Change (RPGCC).

The purpose of the project was to propose strategies for the transition to a sustainable future in the Cerrado and Caatinga biomes via a participatory approach that integrates qualitative and quantitative methods.

A report on the Nexus project was issued in October with information on the research conducted by the group and other work done on the region. The report was presented to a seminar on “Contributions by the Brazilian scientific community to the discussion on combating desertification” held by SUDENE, a federal agency in charge of development in the Northeast region. Members of the research group will take part in the Brazilian delegation to the 16th Conference of the Parties to the United Nations Convention to Combat Desertification (UNCCD COP16), which is due to be held in Saudi Arabia in December.

“The idea of the study arose during a Nexus workshop in Barreiras [Bahia state]. People had expressed concerns regarding the sustainability of the irrigation system. We developed a system dynamics model for the region, but it can be applied to other areas by adapting a few variables as needed,” agricultural engineer Minella Alves Martins, first author of the article, told Agência FAPESP. She is a postdoctoral researcher at INPE supervised by Randow with support from FAPESP.

The workshop discussed the main challenges relating to water quality and quantity in the Grande River basin, as well as the social and environmental conflicts arising from water use and irregular land tenure. More than 90% of water withdrawals in the basin are for irrigation, according to the National Water and Basic Sanitation Agency (ANA).

Production of grain crops in the MATOPIBA region (337 municipalities) has risen 92% in the last ten years, from 18 million metric tons in 2013-14 to about 35 million mt in the last crop year. In Bahia, the main crops are soybeans, corn and cotton, and the municipality of Barreiras is one of the leading producers in the state.

Production of grain crops in the region is projected to grow 37% in the next decade, reaching 48 million mt in a planted area of 110,000 km².

These numbers are from the study Projeções do Agronegócio, produced by the Ministry of Agriculture in partnership with the Brazilian Agricultural Research Corporation (EMBRAPA).

On the other hand, the severe drought in much of Brazil has lowered the 2023-24 grain crop forecast, especially for MATOPIBA. To make matters worse, the Cerrado has seen a record number of wildfires this year: the total in the first nine months reached 68,868, more than in any year since 2015.

According to the Amazon Environmental Research Institute (IPAM), 80% of the 135 million tons of CO2 released into the atmosphere by deforestation in the Cerrado between January 2023 and July 2024 came from MATOPIBA.

Destruction of native vegetation by fire and deforestation for land use change reduce evapotranspiration by plants, leading to a fall in the amount of rain. Moreover, without plant cover, rain hits the ground harder and faster, flowing away on the surface instead of forming underground channels.

Projections

The system dynamics model used by the researchers showed that surface runoff and groundwater flows will tend to diminish until 2040. They took into account current land uses, climate change and economic feedbacks. Meanwhile, demand for water will grow, mainly owing to the expansion of irrigation, rising from 1.53 m³/s in 2011-20 to 2.18 m³/s in 2031-2040.

As a result, they concluded, irrigated agriculture in the region is likely to stop expanding, and its long-term sustainability in the Grande River basin is uncertain. “Many people in the region told us that water withdrawals are exceeding permitted levels. Our first recommendation is therefore that water use permits should be revised so that they can be aligned with the new climate normal we’re experiencing. The statistics in the time series may be lagging behind, and this could be one reason why permitted levels are too high. Our analysis of data from water well monitoring by CPRM [the Geological Survey of Brazil, an arm of the Ministry of Mines and Energy] showed that groundwater levels are falling, but this system is still used a great deal, and another recommendation is therefore that law enforcement should be stepped up so as to ban clandestine wells and ensure rational use of water resources when new wells are sunk,” Martins said.

The group also recommends tighter control of changes in land use and land cover in order to prevent impairment of aquifer recharging and foster more efficient and rational strategies of water use in agriculture. For future studies, the scientists suggest exploration of other forms of adaptation to the new conditions, such as connecting the local electricity subsystem to the national grid and creating additional channels to ensure supply.

About São Paulo Research Foundation (FAPESP)

The São Paulo Research Foundation (FAPESP) is a public institution with the mission of supporting scientific research in all fields of knowledge by awarding scholarships, fellowships and grants to investigators linked with higher education and research institutions in the State of São Paulo, Brazil. FAPESP is aware that the very best research can only be done by working with the best researchers internationally. Therefore, it has established partnerships with funding agencies, higher education, private companies, and research organizations in other countries known for the quality of their research and has been encouraging scientists funded by its grants to further develop their international collaboration. You can learn more about FAPESP at www.fapesp.br/en and visit FAPESP news agency at www.agencia.fapesp.br/en to keep updated with the latest scientific breakthroughs FAPESP helps achieve through its many programs, awards and research centers. You may also subscribe to FAPESP news agency at http://agencia.fapesp.br/subscribe.

 

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Journal

AMBIO

DOI

10.1007/s13280-024-02058-9 

Article Title

Long-term sustainability of the water-agriculture-energy nexus in Brazil’s MATOPIBA region: A case study using system dynamics

 

Rethinking electric bus depots as ‘profitable energy hubs’

New research into Beijing’s 27,000-bus fleet explores using depots to generate solar energy

University of Utah

 

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New research from the University of Utah explores how public transit systems could transition to electric buses without disrupting the grid. A study of Biejing's stysem suggests using bus depots as power-generating hubs may be the answer.

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Credit: Courtesy of Cathy Liu, University of Utah

When it comes to fighting climate change, electric buses are a triple threat: they encourage energy-efficient levels of urban population density; take dozens of polluting vehicles off the street; and don’t release tailpipe emissions.

The popularity of this approach presents its own challenges, however: cities can deploy electric buses faster than their power grids can keep up with the increased demand.

For University of Utah engineering professor Xiaoyue Cathy Liu, this challenge is an opportunity—not just to solve the immediate problem of grid stability, but to radically rethink how public transportation systems are integrated into other parts of civic infrastructure.

 “Integrating onsite solar power generation and energy storage at bus depots introduces a brand new renewable energy production and management mode,” Liu said, “transforming a public transport depot into an energy hub that produces more electricity than it consumes.”

A professor in Price College of Engineering’s Department of Civil & Environmental Engineering, Liu recently published a study in the journal Nature Energy that analyzes the potential of this approach using data from Beijing’s fleet of electric buses. The international collaboration includes researchers from China’s Beihang University, Sweden’s Chalmers University of Technology and Germany’s Fraunhofer Institute for Systems and Innovation Research ISI.

Beijing’s 27,000 buses form the largest public transportation system in the world. More than 90% of those in service as of 2022 are low- or no-emission vehicles. These battery-powered buses recharge through a network of more than 700 bus depots spread across 6,500 square miles, a substantial piece of physical infrastructure that runs in parallel with the region’s electrical grid. And given the power demands of the vehicles they serve, these depots put a heavy load on that grid, raising the potential for localized brownouts or other disruptions.

Using advanced data science scene techniques, Liu and her colleagues are exploring whether locally generated solar power would be sufficient to counterbalance this demand. Critically, they are also studying the complicated economic factors that would determine this approach’s feasibility.

“More than meeting demand, our simulations show that these depots could net out to be energy producers, further stabilizing the grid,” Liu said.

The study is based on a computer model of the Beijing bus network, replete with real-world data on air temperature and solar irradiance at each depot, recorded over the course of 2020. Combined with the rooftop surface area of each depot, the researchers were able to predict the electric output of solar panels that could be installed there.

Adding to the complexity of this model is the degree of variation between depots, in terms of both supply and demand. With more buses to charge, busier depots can make the most of a day’s sunshine, while more remote depots would need to store or redistribute their excess electricity lest it go to waste.

“We found energy storage to be the most expensive factor in the model, so smarter and strategic charging schedules would need to be implemented,” Liu said. “That responsiveness is critical, as variable energy pricing schemes have such a large impact on the overall economics.”

The researchers aim to further generalize their model, providing a pathway for other countries to estimate the return-on-investment of similarly transforming bus depots and other pieces of civic infrastructure into energy hubs.

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The study, “Transforming public transport depots into profitable energy hubs,” was published in the October 2024 edition of Nature Energy. Funding for this research comes from the Beijing Nova Program, National Key R&D Program of China, the German Federal Ministry for Digital and Transport’s project HOLA, the European Union’s Horizon 2020 research and innovation program, and Mistra Carbon Exit.

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Journal

Nature Energy

DOI

10.1038/s41560-024-01580-0 

Method of Research

Data/statistical analysis

Subject of Research

Not applicable

Article Title

Transforming public transport depots into profitable energy hubs

Article Publication Date

RACIST MEDICINE U$A

SLU study: Black patients with heart failure less likely to receive palliative care

Saint Louis University

ST LOUIS — A  study by researchers at Saint Louis University shows that only one in eight patients with heart failure in the United States receive palliative care consultations within five years of diagnosis.

Recently published in the Journal of the American Heart Association, the study highlights the alarmingly low uptake of palliative care among adults with heart failure in the U.S., especially compared to patients with similarly fatal cancers. The study also highlighted significant racial and geographic disparities. Black people were 15% less likely to receive palliative care compared to their white counterparts.

This disparity is particularly concerning given the higher risk and mortality rates for cardiovascular disease in the Black population. Over the past decade, the American Heart Association (AHA) and the European Society of Cardiology have recommended integrating palliative care into managing heart failure. 

"However, anecdotal reports suggest that most patients with heart failure do not receive palliative care, and those who do typically receive it only in the last two to three weeks of life," said Zidong Zhang, Ph.D., a research scientist at the AHEAD Institute at SLU's School of Medicine, the paper's senior and corresponding author. 

Zhang, a health service researcher focusing on palliative and patient-centered care for cardiovascular disease and cancer, has presented his research on patient outcomes at national conferences and published his findings in peer-reviewed journals. 

"To our knowledge, this is the first study to investigate the uptake of palliative care consultation following a heart failure diagnosis in the general U.S. population. Unlike the previous studies focusing on Medicare beneficiaries or veterans, our research provides a more general insight into early palliative care integration for heart failure across the entire nation," he explained.

In this retrospective study, Zhang and his co-authors analyzed data from a national all-payer database covering 2011 to 2018. The study cohort included nearly 170,000 patients aged 18 to 80 from all country regions. Some of them had advanced heart failure or even had received advanced therapies such as left ventricular assist devices or cardioversion. Additionally, the study also demonstrated the heterogeneity in the relationship between receiving palliative care and treatment options for acute heart failure and heart failure worsening. 

Zhang and his co-authors found that patients who did not have cardiogenic shock, a life-threatening condition in which your heart suddenly can't pump enough blood to meet your body's needs, but received inotropic therapy, drugs that tell your heart muscles to beat or contract with more power or less power, were less likely to have palliative care consultations. However, among patients treated for cardiogenic shock with advanced therapies, the likelihood of receiving palliative care almost tripled. Zhang and his co-authors attributed this discrepancy to the intended purpose of treatment and clinical inertia in managing complex cases.

Zhang said the latest AHA guidelines emphasize the early integration of palliative care consultation for all patients with heart failure, particularly when evaluating patients for advanced therapies. Study data shows a significant gap between these recommendations and real-world practice. Zhang said there's a need for systemic reform to achieve early integration of palliative care and timely consultation. 

"These might include removing barriers in the payment system for concurrent care, assisting physicians in determining when to initiate the palliative care conversation with patients, and, in a health system, expanding outpatient and community-based palliative care service and streamlining the referral and transition of palliative care from cardiac care to inpatient service to community," he said.

Other authors include Divya S. Subramaniam, Ph.D., of Department of Health and Clinical Outcomes and the AHEAD Institute, Saint Louis University School of Medicine; Steven W. Howard, Ph.D., of University of Alabama at Birmingham; Kenton J. Johnston, Ph.D., of Department of Internal Medicine, Washington University School of Medicine; William H. Frick, M.D., of Department of Internal Medicine, Saint Louis University School of Medicine; Kimberly Enard, Ph.D., of College for Public Health and Social Justice, Saint Louis University; and Leslie Hinyard, Ph.D., of Department of Health and Clinical Outcomes and the AHEAD Institute, Saint Louis University School of Medicine.

About AHEAD Institute

The Advanced HEAlth Data (AHEAD) Research Institute at Saint Louis University is a comprehensive center for data-driven innovation and research to improve the health of individuals and populations. The institute brings together researchers from various fields and disciplines to help improve patient and population health, advance the quality of health care and decrease health care costs. The new institute will utilize and develop data resources, novel analytic methods, predictive modeling, machine learning, and integrated wearable health devices and collaborate with national research networks.

About Saint Louis University School of Medicine

Established in 1836, Saint Louis University School of Medicine has the distinction of awarding the first medical degree west of the Mississippi River. The school educates physicians and biomedical scientists, conducts medical research, and provides health care on a local, national and international level. Research at the school seeks new cures and treatments in five key areas: cancer, liver disease, heart/lung disease, aging and brain disease, and infectious diseases. 

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Journal

Journal of the American Heart Association

DOI

10.1161/JAHA.124.035459 

Article Title

Use of Palliative Care Among Adults With Newly Diagnosed Heart Failure: Insights From a US National Insured Patient Sample

 

International survey of more than 1600 biomedical researchers on the perceived causes of irreproducibility of research results

PLOS

 

image: 

Person holding pencil near laptop computer.

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Credit: Scott Graham, Unsplash (CC0, https://creativecommons.org/publicdomain/zero/1.0/)

In your coverage, please use this URL to provide access to the freely available paper in PLOS Biology:   http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3002870

Article Title: Biomedical researchers’ perspectives on the reproducibility of research

Author Countries: Canada, Australia, United States

Funding: The author(s) received no specific funding for this work.

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Journal

PLOS Biology

DOI

10.1371/journal.pbio.3002870 

Method of Research

Survey

Subject 

 

Small reductions to meat production in wealthier countries may help fight climate change, new analysis concludes

Eliminating fraction of current beef production could remove three years’ worth of global fossil fuel emissions

New York University

 

image: 

Amount of edible pasture grasses and vegetation grown in each gridcell per year for grazing livestock (pasture aboveground biomass). Darker colors refer to more annual pasture growth per unit area. Green shows pasture growth in potential forest areas, where pasture has replaced areas that were once forested. Pink shows pasture growth in native grassland areas.

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Credit: Matthew Hayek and Johannes Piipponen

Scientists and environmental activists have consistently called for drastic reductions in meat production as a way to reduce emissions and, in doing so, combat climate change. However, a new analysis concludes that a smaller reduction, borne by wealthier nations, could remove 125 billion tons of carbon dioxide—exceeding the total number of global fossil fuel emissions over the past three years—from the atmosphere. 

Small cutbacks in higher-income countries—approximately 13% of total production—would reduce the amount of land needed for cattle grazing, the researchers note, allowing forests to naturally regrow on current pastureland. The return of trees—long known to effectively absorb, or sequester, carbon dioxide (CO2)—would drive significant declines in fossil fuel emissions, which the study’s authors estimate would roughly equal three years’ worth of global emissions. 

“We can achieve enormous climate benefits with modest changes to the total global beef production,” says Matthew N. Hayek, an assistant professor in New York University’s Department of Environmental Studies and the lead author of the analysis, which appears in the journal Proceedings of the National Academy of Sciences (PNAS). “By focusing on regions with potentially high carbon sequestration in forests, some restoration strategies could maximize climate benefits while minimizing changes to food supplies.”

The analysis found that pasturelands, especially in areas that were once forests, hold immense promise for mitigating climate change. When livestock are removed from these “potential native forest” areas, ecosystems can revert to their natural forested state, capturing carbon in trees and soil.

The paper’s authors see high- and upper-middle-income countries as viable candidates for reduction in beef production because they have some current pasture areas that do not produce very much grass per acre, exist where grass grows only during a short growing season, and are in areas that could, instead, grow vast, lush forests with deep soils that work to sequester carbon. This differs significantly from other regions, including sub-Saharan Africa and South America, where much more pasture can grow year-round, producing more feed for animals per acre than northern countries. In addition, the research team sees ways lower-income regions could increase the efficiency at which cattle are fed and raised on grass as a way to offset the minor loss in production from higher-income countries.

“This isn’t a one-size-fits-all solution,” Hayek emphasizes. “Our findings show that strategic improvements in the efficiency of cattle herds in some areas, coupled with decreased production in others, could lead to a win-win scenario for climate and food production.”

The study reveals an even more dramatic potential for climate mitigation if the scope of restoration was expanded. The researchers found that removing cattle, sheep, and other grazing livestock from all potentially natively forested areas globally could sequester a staggering 445 gigatons of CO2 by the end of this century—the equivalent to more than a decade of current global fossil fuel emissions. 

“Importantly, this approach would still allow livestock grazing to remain on native grasslands and dry rangelands, which are places where crops or forests cannot easily grow,” says Hayek. “These areas support more than half of global pasture production, meaning that this ambitious forest restoration scenario would require cutting global cattle, sheep, and other livestock herds by less than half. These findings underscore the immense potential of natural forest restoration as a climate solution.”

The PNAS study used remote sensing technology to track pasture productivity—the amount of grass produced annually that livestock can consume—in order to estimate the climate benefits that reductions would yield.

“Even if two different areas can regrow the same amount of carbon in trees, we can now know how much pasture, hence beef production, we would have to lose in each area to grow those trees back,” explains Johannes Piipponen, a doctoral candidate at Finland’s Aalto University and coauthor of the study, who led this technical advance. “For many consumers in high-income regions, like Europe and North America, reducing excessive meat consumption benefits both their health and the environment. However, until now, it has remained rather unclear where the required decreases in production could begin.” 

Maps produced by the team’s research can identify areas where policies could be prioritized for reducing beef production and hastening forest recovery—for instance, by offering forest land conservation incentives or buyouts to beef producers.

The authors acknowledge that ecosystem regrowth is not a substitute for efforts to reduce fossil fuel emissions. But, it can serve as a powerful complement to combat climate change. 

“In many places, this regrowth could occur by seeds naturally dispersing and trees regrowing without any human involvement,” says Hayek. “However, in some places, with especially degraded environments or soils, native and diverse tree-planting could accelerate forest restoration, giving regrowth a helping hand. This long-term regrowth would benefit the climate for decades to come, with significant regrowth and carbon capture beginning within just a few years in many areas, and lasting for 75 years or more until forests nearly mature.”

The authors also emphasize that while the findings do not call for extreme changes to global food production and trade patterns, swift action is necessary in order to meet climate goals. 

“Within the next two decades, countries are aiming to meet critical climate mitigation targets under international agreements, and ecosystem restoration on converted pasturelands can be a critical part of that,” observes Hayek. “Our study’s findings could offer paths forward for policymakers aiming to address both climate mitigation and food security concerns. As countries worldwide commit to ambitious reforestation targets, we hope that this research can help identify and prioritize the most effective areas for carbon sequestration efforts while considering global food needs.”

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Journal

Proceedings of the National Academy of Sciences

Article Title

Opportunities for Carbon Sequestration from Removing or Intensifying Pasture-based Beef Production

Article Publication Date

4-Nov-2024

 

Kitchen renovation could reduce household air pollution and save lives

Eurasia Academic Publishing Group

A new study published in Environmental Science and Ecotechnology highlights the health benefits of kitchen renovation as a cost-effective way to mitigate household air pollution in rural China. With over three billion people globally still relying on solid fuels like wood and coal for cooking, household air pollution remains a major public health issue. Researchers found that simple kitchen improvements, such as separating cooking areas and installing ventilation fans, could significantly reduce exposure to harmful pollutants.

The study, conducted by a team from Peking University, surveyed household kitchens across rural China. While 82% of rural households have separated kitchens, only 34% use mechanical ventilation. The use of ventilation fans was linked to higher income and education levels, indicating that affordability and awareness are key barriers.

The researchers estimated that widespread implementation of ventilation and separated kitchens could reduce PM2.5 exposure by 23%, potentially preventing over 67,000 premature deaths annually. This represents a health benefit valued at $19 billion per year, far exceeding the $12 billion cost of renovations.

"Kitchen renovation offers an affordable solution to reduce the health impacts of household air pollution in rural areas, particularly where transitioning to cleaner energy is challenging," said Dr. Guofeng Shen, lead researcher from Peking University. "Our findings highlight the need for government initiatives to promote ventilation systems and improve kitchen design, especially in low-income communities."

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Journal

Environmental Science and Ecotechnology

DOI

10.1016/j.ese.2024.100501 

Method of Research

Observational study

Subject of Research

Not applicable

Article Title

Mitigating household air pollution exposure through kitchen renovation

Bio-based fibers could pose greater threat to the environment than conventional plastics

The research has led scientists to suggest that materials being advocated as alternatives to plastic should be tested thoroughly before they are used extensively in a range of products

University of Plymouth

 

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A new study in the journal Environmental Science and Technology tested the effects of conventional polyester fibres and two bio-based fibres –viscose and lyocell – on earthworms, a species critical to the health of soils globally

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Credit: Lloyd Russell/University of Plymouth

Bio-based materials may pose a greater health risk to some of the planet’s most important species than the conventional plastics they are designed to replace, a new study has shown.

Such materials are increasingly being advocated as environmentally friendly alternatives to plastics, and used in textiles and products including clothing, wet wipes and period products.

However, microfibres of the materials are emitted into the environment through the laundry cycle, the application of sewage sludge as fertilisers, or the simple wear and tear of textile products.

Despite increasing quantities of bio-based products being produced and sold all over the world, there has been little research to assess their potential impact on species and ecosystems.

To address that, a new study in the journal Environmental Science and Technology tested the effects of conventional polyester fibres and two bio-based fibres –viscose and lyocell – on earthworms, a species critical to the health of soils globally.

The study found that in high concentrations of fibres, 30% of earthworms died after 72 hours when exposed to polyester, while those exposed to the bio-based fibres experienced much higher mortality of up to 60% in the case of lyocell and 80% for viscose.

A second experiment, using environmentally relevant concentrations of the fibres, indicated that earthworms housed in soils containing viscose fibres exhibited reduced reproduction compared to those exposed to polyester fibres. Earthworms in the soils containing lyocell fibres showed reduced growth and also higher rates of burrowing within the soil compared to exposure to the other types of fibre.

The researchers say the study highlights the complex nature of global efforts to reduce the threat of microplastic pollution, and the importance of testing new materials being advocated as alternatives to plastics before they are released on the open market.

The study was carried out as part of the BIO-PLASTIC-RISK project, led by researchers at the University of Plymouth and the University of Bath, and supported with £2.6million funding by the Natural Environmental Research Council.

Dr Winnie Courtene-Jones, lead author on the new study and now a Lecturer in Marine Pollution at Bangor University, said: “Over 320,000 tonnes of bio-based and biodegradable fibres were produced globally in 2022 and research shows that substantial  quantities of that will end up in the environment. However, evidence of their ecological impacts has been lacking. Our study has shown that bio-based fibres have a range of adverse effects on earthworms – animals which are critical to the functioning of the environment. It highlights the importance of gathering further evidence before alternatives to conventional plastics are made available even more widely.”

The new study follows research published earlier in 2024 which highlighted that being exposed to the materials used in biodegradable teabags can result in earthworm populations experiencing up to 15% greater mortality, and have a detrimental effect on earthworm reproduction.

It has been published just a few weeks before the United Nations gathers world leaders meet in Busan, South Korea, for the final round of negotiations regarding a possible Global Plastics Treaty.

Professor Richard Thompson OBE FRS, senior author on the new study and Head of the University of Plymouth’s International Marine Litter Research Unit, will be at those discussions along with policy makers, scientists and other delegates from across the world.

He added: “It is clear that along with recycling and re-use, tackling plastic pollution will require a reduction in the quantities of plastics used and produced. There is increasing interest in alternative materials that could be used as substitutes for plastic, but this publication further emphasises the importance of testing new innovations in relevant environmental settings prior to widescale adoption. I firmly believe it is possible to tackle the plastic pollution crisis, but independent scientific evidence will be critical in helping us avoid unintended consequences as we look for solutions.”

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Journal

Environmental Science & Technology

DOI

10.1021/acs.est.4c05856 

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Are bio-based microfibres less harmful than conventional plastic microfibres: Evidence from earthworms

Article Publication Date

5-Nov-2024