Q&A: Insect pollinators need more higher-quality habitats to help farmers, new research says

University of Washington

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Berry Brosi

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Credit: Karen Levy

Bees and butterflies help produce our food by pollinating the crops farmers grow. In fact, 35% of the world's food crops, including fruits, vegetables, nuts and seeds, depend on pollinators.

But agricultural land is a poor substitute for wild habitat — it often lacks the food and shelter that insect pollinators require. To stay healthy, these creatures need access to pockets of more natural land amid all the agriculture. Currently, pollinators around the world and in Washington are in decline, in part because of the loss of their wild habitat.

In a new study, a team of scientists from around the world analyzed a massive dataset of more than 178,000 individual insect pollinators from 19 countries to determine the minimum natural habitat on agricultural land that will allow insect pollinators — including bumble bees, solitary bees, hoverflies and butterflies — to thrive. The results varied between species, from hoverflies needing habitats with at least 6% natural features to butterflies needing at least 37% natural features in their habitats.

The researchers published their findings Sept. 25 in Science.

University of Washington News reached out to co-author Berry Brosi, UW professor of biology, to learn more about these results and how habitat is important to two types of bees native to Washington.

This paper looks at both habitat "quantity" and habitat "quality." Why is it important to think about both?

Berry Brosi: When we discuss "natural" habitat in agricultural landscapes, we're often talking about elements such as semi-wild field margins, small patches of forest or hedgerows between crop fields.

On the quantity side, having more of those kinds of elements tends to benefit many different creatures, including pollinators. But on the quality side, there is a big difference between, say, a field margin planted with a diverse set of flowers that bloom throughout the year that pollinators could visit and benefit from versus a field margin that is mostly non-flowering grasses with only one or two flowering plant species.

The timing of when floral resources are available for pollinators is especially important in agricultural landscapes, because often crop fields are "monocultures" — planted with a single crop species. Even if that crop blooms and provides a lot of resources to pollinators, typically it will only be in bloom for a couple of weeks a year, and that usually isn’t enough to sustain a diverse and abundant set of pollinator species year-round.

How did the research team study habitat quantity and quality?

BB: We analyzed 59 datasets — including one from Costa Rica with data from my doctoral and post-doctoral work — to determine how much natural habitat is enough and how good that habitat needs to be to support pollinator species over the long run.

We found that there are indeed minimum habitat requirements for pollinators, and that these requirements are mostly higher than the targets currently being used by several governments and intergovernmental groups, including the European Union, which has a target of 10% natural habitat on agricultural land by 2030.

How do these findings affect policies in the U.S.?

BB: We don’t have specific targets here in the U.S., but this research can still inform how we work to conserve our critical pollinator populations in the U.S. and in Washington. For example, the U.S. Department of Agriculture has the Conservation Reserve Program that pays farmers to take some of their land out of crop production. It's been around for decades and was initially used to help prevent erosion. It often makes sense for farmers to stop planting some of their least-productive lands — which they aren’t getting great yields from anyway — and to instead take a payment to manage those in alternative ways. Relatively recently, the USDA added a provision to this program to pay farmers to put in pollinator habitat. Our research findings bolster the support for doing that, and for doing more of it.

This USDA program has a close family element for me. My brother and his family have a pear orchard in Leavenworth and a smaller farm they live on in Cashmere. They would love to enroll in the pollinator program, but it’s oversubscribed in Chelan County. More resources for this program would help pollinators while also helping farmers — it's a win-win.

Speaking of Washington agriculture, how do these results affect policies here in our state?

BB: Our results also underscore the positive work that the Washington legislature is doing to support pollinators. We have state laws in Washington that are focused on reducing pesticide risks to pollinators. Another state law requires that 25% of the landscaping area of any public works project be made into pollinator habitat. While state-funded public works projects don't cover a lot of area, that is a great start and well within the minimum habitat amounts we published in our analysis.

Can you give an example of an important insect pollinator here in Washington?

BB: One example is the alkali bee (Nomia melanderi), which is native to a range of dry areas in the western U.S., including much of central and eastern Washington. This bee is important for alfalfa seed farmers, who grow alfalfa to harvest seed to sell to other alfalfa growers. There are several regions in eastern Washington where growers specialize in alfalfa seed production.

For many crops in our state, growers will bring in honey bees just for the time that their crop is in bloom to pollinate them. That doesn’t work well for alfalfa, because honey bees are very inefficient pollinators for its specialized blooms. Instead, some alfalfa seed producers rely on the alkali bee to pollinate their alfalfa plants, and this helps produce a good seed crop.

What kind of habitat does the alkali bee need to thrive?

BB: This species has very specific nesting requirements. For their nests to be successful, these bees need soil that has a high salt content. Farmers who use them set aside dedicated nesting habitat on their farms — essentially patches of salty mud — that they have developed specific ways of managing to make sure the bees are thriving. For example, many of these nesting habitat patches are carefully irrigated to achieve the ideal soil moisture for the bee nests. Some of these nesting patches have been continuously managed for 50 or more years. There is one large nesting patch of about 5 acres in southeastern Washington that was estimated to contain 5.3 million nesting female bees!

This paper also found that bumble bees need at least 18% natural habitat to thrive. How important are bumble bees to Washington agriculture?

BB: There are 13 bumble bee species native to Washington, and many of them are important agricultural pollinators. Unlike most insects, these bees can actually regulate their body temperature to some degree, and that means they can fly when it's too cold for many other pollinators. That makes them excellent pollinators of crops that bloom early in the season when it's still relatively chilly.

These bees can also conduct a behavior called "buzz pollinating" where they'll grasp a flower, vibrate their wing muscles — making a loud buzzing sound in the process — and shake the pollen off of flowers. That behavior makes them excellent pollinators of tomatoes in particular.

Like many other pollinators, bumble bees couldn’t survive in the long run if they were placed in the middle of a tomato field. They need access to a wide range of different flowers to provide different nutrients for their diet, and access to flowers that bloom at different times in the year. Thus, it's important to have native habitat around any crop fields that bumble bees are pollinating.

Brosi's work on this project was funded by the Anne M. and Robert T. Bass Stanford Graduate Fellowship in Science and Engineering, the Koret Foundation, the Moore Family Foundation, Stanford University Field Studies and Human Biology Research Experiences for Undergraduates Programs, the Teresa Heinz Scholarship for Environmental Research and the Winslow Foundation. A full list of co-authors and funding is included with the paper.

For more information, contact Brosi at bbrosi@uw.edu.

In a new study, a team of scientists determined the minimum natural habitat on agricultural land that will allow insect pollinators —  including bumble bees (shown here), solitary bees, hoverflies and butterflies — to thrive.

Credit

April Hong/University of Washington

A bumble bee on a flower near Crested Butte, Colorado.

Credit

Berry Brosi/University of Washington

Journal

Science

DOI

10.1126/science.adr2146 

Article Title

Critical habitat thresholds for effective pollinator conservation in agricultural landscapes

Article Publication Date

25-Sep-2025

 

Emergency departments report more consults for hospice, palliative care

Michigan State University

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EAST LANSING, Mich. – One-third of Americans will visit an emergency department, or ED, within a month of their death. While EDs are primarily purposed to provide emergent care, they’re increasingly becoming an initial touchpoint for hospice and palliative care, or HPC, referrals and consultations, according to a new study from several researchers at Henry Ford Health + Michigan State University Health Sciences.  

The article, which will appear in the November 2025 issue of the American Journal of Emergency Medicine, shares findings from the largest study to date that evaluates hospice and palliative care consultations initiated in the ED. While both services focus on providing care to those facing serious illness, palliative care serves individuals regardless of their medical prognosis and hospice is reserved for individuals nearing the end of their lives due to terminal illness. This study evaluated 8,055 ED-initiated HPC consults at five Henry Ford Health EDs in the metro Detroit area from 2016 to 2023. Researchers evaluated and reported trends in HPC consultations initiated in the ED.  

Among the findings: 

• Palliative care accounted for 58% of all HPC consultations, highlighting a culture shift across a health system and emergency medicine whereby palliative care patients are more likely to receive proactive clinical assessment and management initiated from the ED. Historically, HPC needs were not addressed until patients were admitted to the hospital or discharged to community-based services.  
• During the study’s timeframe, hospice referrals decreased from 48.2% to 21.9%, whereas palliative care referrals increased from 27.4% to 53.6%. 
• In the five years since the COVID-19 pandemic, HPC consultations in EDs have increased 173.6%, suggesting the pandemic highlighted the importance of HPC in the ED. 

“The increase in consults following the pandemic underscores a heightened awareness of palliative care’s crucial role, particularly as COVID-19 intensified the demand for end-of-life care,” said Fabrice Mowbray, the study’s supervising author and lead methodologist. Mowbray also serves as director of the Data Center at the Michigan State University College of Nursing.  

The study also noted prior research showing palliative care teams in U.S. hospitals increasing from 20% in 2000 to 84% in 2022 (for sites with at least 50 beds), demonstrating a cultural shift above and beyond what was noted at HFH.  

“A growing body of literature supports these recommendations with evidence that increasing access to hospice and palliative care consults in both the ED and inpatient settings can improve goal-focused care, enhance patient and family satisfaction and improve quality of life during the end stage of a patient’s life,” Mowbray said. 

He added that as the demand for palliative care in the ED continues to rise, health care providers must continue to provide policy, education and research to enhance care for those with life-limiting illnesses.  

“Palliative care, as a specialty, is relatively new in the United States, having only received formal board certification in 2006,” said Satheesh Gunaga, the paper’s lead author and an emergency care physician at Henry Ford Health. “That is why research like this is so important, so that we can work together to improve the lives of some of our most vulnerable patients.” 

Additional researchers on the study include Abe Al-Hage, MSU College of Osteopathic Medicine and Henry Ford Health; Alyssa Buchheister, MSU College of Osteopathic Medicine and Henry Ford Health; Harish Neelam, MSU College of Human Medicine; Jessica Corcoran, MSU College of Osteopathic Medicine and Henry Ford Health; Michael Welchans, Henry Ford Health; Kirby Swan, MSU College of Osteopathic Medicine and Henry Ford Health; Mahmoud Awada, MSU College of Human Medicine; and Joseph Miller, MSU College of Human Medicine and Henry Ford Health.  

Read on MSUToday.

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Henry Ford Health + Michigan State University Health Sciences
The product of a landmark, 30-year partnership introduced in January 2021, Henry Ford Health + Michigan State University Health Sciences is focused on setting a new standard for how individuals and communities experience care across the state of Michigan and the nation. The partners are addressing vital pillars of health outcomes: research, education and care. As partners, Henry Ford Health and Michigan State University are creating a unified research community and investing in emerging cancer research and care; working to fight the health disparities that plague our most vulnerable communities in rural and urban settings; and preparing the next generation of physicians and nurses. To learn more about the Henry Ford Health + Michigan State University Health Sciences partnership, visit henryfordmsu.org. 

Michigan State University
Michigan State University has been advancing the common good with uncommon will for 170 years. One of the world’s leading public research universities, MSU pushes the boundaries of discovery to make a better, safer, healthier world for all while providing life-changing opportunities to a diverse and inclusive academic community through more than 400 programs of study in 17 degree-granting colleges.

For generations, Spartans have been changing the world through research. Federal funding helps power many of the discoveries that improve lives and keep America at the forefront of innovation and competitiveness. From lifesaving cancer treatments to solutions that advance technology, agriculture, energy and more, MSU researchers work every day to shape a better future for the people of Michigan and beyond. Learn more about MSU’s research impact powered by partnership with the federal government.  

Henry Ford Health
Henry Ford Health is one of the nation’s leading academic medical centers, recognized for clinical excellence in cancer care, cardiology and cardiovascular surgery, neurology and neurosurgery, orthopedics and sports medicine, and multi-organ transplants. Henry Ford Health engages in more than 3,000 research projects annually. Equally committed to educating the next generation of health professionals, Henry Ford Health trains thousands of medical students, residents and fellows every year across more than 50 accredited programs. With more than 50,000 valued team members, Henry Ford Health is also among Michigan’s largest and most diverse employers. Our care team includes more than 10,000 physicians and advanced practice providers.

The health system is led by President and CEO Robert G. Riney and serves a growing number of customers across more than 550 locations throughout Michigan including 13 acute care hospitals, three world-class behavioral healthcare facilities, multiple destination facilities for complex cancer care, a state-of-the-art orthopedics and sports medicine facility, and premier primary care and urgent care centers.

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Journal

The American Journal of Emergency Medicine

DOI

10.1016/j.ajem.2025.08.001 

Article Title

Trends in hospice and palliative care consults initiated in the emergency department: An eight-year utilization analysis

PSU research shows Portland transit-oriented developments reduce car trips, especially at affordable housing sites

Portland State University

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Two Portland Streetcars pull up in front of a multifamily dwelling, part of a transit-oriented development in Portland, Oregon. Photo by Nathan McNeil.

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Credit: Photo by Nathan McNeil

New research from Portland State University’s Transportation Research and Education Center (TREC) shows that transit-oriented developments (TODs) in the Portland metro area generate far fewer car trips than standard estimates suggest—especially at sites that include affordable housing.

A 2025 report, "Portland Metro Transit-Oriented Developments (TODs): 2024 Resident Survey Findings (PDF)," builds on a long-running PSU study tracking TOD residents since 2005. Led by Nathan McNeil, Jennifer Dill, and Kyuri Kim, the research surveyed residents at TODs built between 2018 and 2023 across eight Oregon cities: Portland, Beaverton, Cornelius, Milwaukie, Gresham, Tigard, Hillsboro, and Happy Valley.

• Learn more about this research in a seminar on October 17

Unlike previous years, most TODs and units surveyed in 2024 are targeted to serve households with 30%–80% of the area’s median income.  Twenty-eight of the 36 surveyed sites were categorized as affordable housing. 

New survey questions explored changes in travel patterns due to the pandemic, including online shopping and work-from-home availability.

Key Findings

Fewer Cars, More Transit: TOD residents drive significantly less than predicted. Vehicle trips per housing unit were roughly half the standard estimates, and for affordable housing sites, car trips were only about a quarter to two-fifths of expected rates.

Sustainable Travel Habits: Less than half of all trips were by car. Residents relied heavily on transit (28%) and walking (19%), with a small share biking (2%). For commuting, 41% used transit regularly—far above the 7% average for Portland-area commuters.

Zero-Car Households: Half of residents at primarily affordable sites don’t own a car. These households take even more transit, walking, and biking trips, showing how affordable housing near high-frequency transit supports sustainable travel.

Behavior Changes: Many residents report driving less and walking or taking transit more since moving to a TOD. About 20% have given up or are considering giving up a vehicle because of their neighborhood’s walkable and transit-friendly design.

Housing Priorities Vary: Affordable housing residents prioritize cost and transit access, while market-rate residents focus on amenities, neighborhood quality, and parking availability.

Opportunities for Greater Impact

The study highlights ways to further encourage transit use, such as expanding reduced-fare passes for eligible residents and better integrating affordable TOD sites with light rail. These insights can guide planners and developers as the Portland region continues to grow.

Portland State University's Transportation Research and Education Center (TREC) is a multidisciplinary hub for all things transportation. We are home to the Initiative for Bicycle and Pedestrian Innovation (IBPI), the data programs PORTAL and BikePed Portal, the Better Block PSU program, and PSU's membership in PacTrans, the Pacific Northwest Transportation Consortium. Our continuing goal is to produce impactful research and tools for transportation decision makers, expand the diversity and capacity of the workforce, and engage students and professionals through education, seminars, and participation in research. To get updates about what's happening at TREC, sign up for our monthly newsletter or follow us on social media.

Super-resistant bacteria found in wild birds at a rehabilitation center on the coast of São Paulo state, Brazil

A vulture recently arrived at the Santos Municipal Orchid Garden and an owl living in captivity for ten years were colonized by antibiotic-resistant Escherichia coli.

Fundação de Amparo à Pesquisa do Estado de São Paulo

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Barred owl (Strix hylophila) identified in the study as a carrier of multidrug-resistant Escherichia coli 

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Credit: Tamires Aparecida Serra Lorenzi/UNESP, São Vicente campus

Researchers supported by FAPESP have found antibiotic-resistant bacterial clones in wild birds at a rehabilitation center. The identified Escherichia coli clones have been found in community- and hospital-acquired human infections worldwide, and they were present in the intestinal tracts of a vulture and an owl.

The impact of these strains on animals is unknown; however, in humans, they are known to cause infections in patients with weakened immune systems for which there are few effective treatment options. The study was published in the journal Veterinary Research Communications.

“Escherichia coli is a common bacterium in the intestinal tract of many animals, including humans. It becomes a problem when it enters the bloodstream or causes urinary tract or kidney infections, particularly when it affects people with compromised immune systems and in hospital settings. In these people, multidrug-resistant clones such as these often lead to death,” explains Fábio Sellera, a professor at the Metropolitan University of Santos (UNIMES) in the state of São Paulo, Brazil, and one of the study’s coordinators.

The study emphasizes the importance of establishing protocols for maintaining these rehabilitation centers and for releasing animals back into the wild.

“These facilities are very important for mitigating the effects of human activity on wildlife, but nowhere in the world are there evidence-based procedures for monitoring, preventing, and treating the colonization of rescued and reintroduced animals by antibiotic-resistant microorganisms,” the researcher warns.

Genomic analyses have shown that antibiotic resistance genes are located in mobile genetic elements that can transfer to other E. coli clones and bacteria of other species in the environment.

“As a result, even bacteria that have never had contact with antibiotics or polluted environments, which also select for this type of agent, can become resistant. That’s why there’s a need for continuous monitoring of the environment and potential hosts,” says Nilton Lincopan, a professor at the Biomedical Sciences Institute at the University of São Paulo (ICB-USP) and another coordinator of the study.

Lincopan is a researcher at the Antimicrobial Resistance Institute of São Paulo (ARIES), a Research, Innovation, and Dissemination Center (RIDC) supported by FAPESP.

He also coordinates One Health Brazilian Resistance (OneBR), a platform that gathers epidemiological, phenotypic, and genomic data on microorganisms classified by the World Health Organization (WHO) as “critical priority.”

This classification includes bacteria for which there are few therapeutic options and which require containment measures to prevent their spread. These bacteria are also a priority for the research and development of new antimicrobials (read more at agencia.fapesp.br/38759). 

The first authors of the study are three undergraduate research students: Bruna Garcia and Matheus Silva from UNIMES, who are supervised by Sellera; and Guilherme Paiva from ICB-USP, who is supervised by Lincopan and received a scholarship from FAPESP. 

Allies

The two colonized birds were at the Santos Municipal Orchid Garden rehabilitation center on the coast of São Paulo. A total of 49 wild animals (birds and mammals) at the facility had samples collected from their rectums or cloacas.

“Because they were rescued in a peri-urban area [a transition zone between urban and rural areas], these animals are more exposed to human impact and may come into contact with garbage, sewage, and pollution from surrounding cities. This can contribute to colonization by bacteria commonly found in human hospital environments,” Sellera points out.

The animals showed no clinical signs of infection, which supports the hypothesis that they lived with the pathogen without becoming ill. The vulture’s sample was collected as soon as it was admitted to the center, indicating that it arrived already colonized by the resistant clone. Due to multiple fractures, the animal had to be euthanized 24 hours after arrival.

The owl, on the other hand, has lived at the center for ten years after suffering a collision. Due to neurological sequelae, the animal cannot return to the wild. Upon admission, the bird was treated with antibiotics for suspected chlamydiosis. Shortly before the sample was collected for the study, it was given another antimicrobial after surgery. Therefore, it is unclear whether the owl arrived already colonized or acquired the bacteria at the center.

“Rehabilitation centers offer a valuable opportunity to monitor the presence of these agents in our fauna. Global mobilization and greater financial investment are needed to expand epidemiological surveillance and establish protocols for these centers in order to reduce the chances of transmission between animals or from humans to them,” Sellera says.

According to the researcher, testing could be carried out when animals are admitted, in addition to isolating colonized animals and attempting to decolonize those with medically important strains before reintroducing them into the wild.

One good example is the Costa Branca Cetacean Project, led by the State University of Rio Grande do Norte (UERN) in Brazil and headed by veterinarian Augusto Carlos da Bôaviagem Freire. In partnership with researchers from São Paulo, rescued animals, such as manatees, undergo pathogen testing.

Researchers in Rio Grande do Norte are trying to standardize decolonization methods using probiotics before returning the animals to their natural environment. Undergraduate research student Ana Clara Gales Landi and doctoral student Thais Martins Gonçalves, both from ICB-USP and supervised by Lincopan, are participating in this study with scholarships from FAPESP (25/03354-5 and 24/20180-8).

“The microorganisms that live in animals present in rehabilitation centers are a sample of what’s circulating in nature. Therefore, in addition to the fundamental work they do for wildlife, these places can be important allies in monitoring human pathogens,” says Lincopan.

The work was also supported by a scholarship from FAPESP awarded to João Pedro Rueda Furlan, who completed his postdoctoral studies at the Federal University of São Paulo’s School of Medicine (EPM-UNIFESP).

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

Veterinary Research Communications

DOI

10.1007/s11259-025-10811-y 

Article Title

High-risk Escherichia coli global clones ST10 and ST155 in wild raptors admitted to a rehabilitation center

Handbook offers in-depth exploration of information history

University of Illinois School of Information Sciences

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A new book co-edited by Professor Emeritus Alistair Black and Associate Professor Bonnie Mak (School of Information Sciences, University of Illinois Urbana-Champaign), Toni Weller (De Montfort University), and Laura Skouvig (University of Copenhagen) provides a field-defining, comprehensive study of information history. The Routledge Handbook of Information History, released last month by Routledge, examines how society, politics, culture, and technology have shaped information practices over millennia. The 638-page volume features more than forty contributors from around the world.

Black and Mak each contributed a chapter in the book and jointly authored the opening chapter which tracks the emergence and development of the field of information history. Black's chapter looks at information management in Britain's Inter-Service Topographical Department during World War II. The book's afterword authored by Mak explains how an analysis of information's past offers surprising insights about humanity.

"Now, more than ever, it is important to understand the ways in which 'information' was conceived and practiced across time and cultures," said Black and Mak in a joint statement. "A broader perspective on information and all its technologies can shed light on emerging developments in generative artificial intelligence, as well as its consequences for society. Although history is often understood as being about 'the past,' this volume demonstrates that history is also about our present and future."

Other contributors from the School of Information Sciences at the University of Illinois include Assistant Professor Zoe LeBlanc, who authored a chapter on decolonization and information in postcolonial Egypt, and Julia Pollack (MSLIS '12), creative program manager at the University of Illinois' Carl R. Woese Institute for Genomic Biology, who designed the book's cover.

Black is the author of The Public Library in Britain 1914-2000 and Libraries of Light: British Public Library Design in the Long 1960s as well as co-author of The Early Information Society. He earned his master's degree in social and economic history from the University of London and his doctorate from London Metropolitan University.

Mak is a historian of ancient, medieval, and modern information practices. Her first book, How the Page Matters (University of Toronto Press, 2011), examines the page as a dynamic interface in scrolls, tablets, books, and screens from the Middle Ages to the twenty-first century. She holds appointments in the iSchool, Department of History, and Program in Medieval Studies at the University of Illinois. Mak received a PhD in medieval studies from the University of Notre Dame.

New book provides roadmap for designing human-centered AI systems

University of Illinois School of Information Sciences

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Dong Wang, professor in the School of Information Sciences at the University of Illinois Urbana-Champaign, is the lead author of a book that offers a new perspective on human-centered AI design and human–AI collective intelligence. Social Intelligence: The New Frontier of Integrating Human Intelligence and Artificial Intelligence in Social Space, which was recently published by Springer Nature, is co-authored by Lanyu Shang of Loyola Marymount University and Yang Zhang of Miami University.

With the rapid advancement of AI and online collaboration platforms—such as social media and crowdsourcing—researchers are increasingly studying how artificial and human intelligence can be integrated. This new field, social intelligence, explores the collective intelligence from both humans and machines by understanding their complementary strengths and interactions.

In Social Intelligence, the authors present a set of novel human-centered AI techniques to address the challenges of social intelligence applications, including multimodal approaches, robust and generalizable frameworks, and socially empowered explainable AI designs. They present these applications in real-world scenarios, including social media misbehavior identification and mitigation, multimodal truth discovery, explainable AI and machine learning, disaster response and damage assessment, AI and crowdsourcing for education, and social sensing in smart city applications.

"Our book provides a roadmap for tackling some of the most urgent questions of our time—how to design AI systems that are not only powerful, but fair, explainable, and deeply human-centered," said Wang. "The future of intelligence is not human versus AI, but human with AI, working together to solve complex social challenges."

Wang's research includes social sensing, intelligence and computing, human-centered AI, and big data analytics. His work has been applied in a wide range of real-world applications such as social network analysis, crowdsourcing, disaster response, education, smart cities, synthetic biology, and environmental sustainability. Wang’s books include Social Edge Computing (Springer, 2023) and Social Sensing (Elsevier, 2015). He serves as the director of the Social Sensing & Intelligence Lab. Wang holds a PhD in computer science from the University of Illinois Urbana-Champaign.