Friday, July 03, 2026

 

Study pinpoints how to minimize chances of dangerous wildlife encounters this summer



National park visitors’ activities greatly influence likelihood of encounters with wildlife that could result in conflict between people and animals, suggests study analyzing high-risk activities




Frontiers





The more people expand into previously natural areas, the more wildlife and humans step on each other’s toes, leading to more interactions that may result in conflict. This includes national parks where people flock to recuperate and enjoy the outdoors.

Writing in Frontiers in Conservation Science, researchers in the UK have examined which animals are most likely to be involved in aggressive encounters – defined as potentially dangerous situations between humans and animals – during which activities they’re most likely to happen, and which activity-animal pairs hold particular risk.

“We found low‑impact activities were associated with the highest frequency of aggressive encounters, regardless of species,” said first author Holly Landles, a researcher at the University of York.

“Now we can point to precise high‑risk pairings, such as elk visiting townsite areas or mule deer encountered during dog walking,” added senior author Dr Shashank Balakrishna, a biologist at the University of York. “This allows park managers to focus resources, signage, and education where they are most needed.”

Interactions vary by activity

The researchers drew on a database of almost 3,500 reported incidents between 2010 and 2023 recorded by Parks Canada, selecting incidents involving humans and elk, black bears, grizzlies, coyotes, and mule deer. These species were chosen because they were involved in aggressive encounters most often in the dataset the team worked with. Seven types of activities park visitors were engaging in were included in the risk analysis: low-impact activities (hiking, wildlife observation), extreme sports (kayaking, climbing), animal-involved activities (dog-walking, horseback-riding), camping, transport-related activities (road cycling), townsite activities (golfing), and park operations.

Results showed that species mattered, but so did the type of activity and animal-activity combinations. Elk were involved in around 62% of all aggressive encounters, followed by grizzly bears (14%), black bears (13%), mule deer (7%), and coyotes (3%).

“Each species occupies a different ecological role, so they perceive human threat differently,” Balakrishna pointed out. “Elk sometimes avoid humans, but at other times use human presence as refuge from predators. This unpredictability may explain why they top the list for aggressive encounters.”

On the activity side, low-impact activities were most associated with aggressive encounters, making up around 25% of incidents, followed by townsite activities at 22%, which may be particularly risky due to the unfamiliar stress wildlife faces in more urban environments. Adventure sports accounted for just over 4%.

When combining activity type with species, the researchers found certain animals were more likely to be encountered during certain activities. Elk, for example, were involved in over 73% of run-ins happening at townsites and in 57% of incidents recorded during adventure sports.

Grizzly and black bears were most often encountered during low-impact activities, making up 45% and 43% of these encounters, respectively. This may be because they are particularly prone to reacting aggressively to surprise encounters, which are more likely to happen during quiet activities in forested areas.

Mule deer and coyotes were most often involved in aggressive encounters in townsite settings. “Mule deer also showed more aggression during activities involving pets, likely because dogs resemble their natural predators,” said Balakrishna.

Whistles, talk, and preparation

This, however, doesn’t mean that the activities examined here should be avoided altogether during park visits. “We recommend simple precautions,” said Landles. “Announcing yourself is a good idea, especially for grizzly bears. Taking whistles, talking, or hiking in larger groups can help, too. Keeping leashes short when large herds are present is simple but effective.”

In addition, park visitors can check park information, including bear or herd sightings and trail closures, on the day of their visit.

The researchers said their data only included incidents reported to park staff, so the number of aggressive encounters – particularly those where people weren’t harmed – may be underestimated. There also was some data that wasn’t available, such as animal sex, how many people were involved, or how long they spent on the activity, so the findings don’t show cause-effect relationships.

Yet they are useful for identifying what future studies need to examine, said the authors. In addition, the results provide pointers which park rangers can follow in national parks worldwide. In many parks, recommendations like dynamic trail ratings and improved signage have already been implemented. Now it is on park visitors to act responsibly, the team said.  For example, abiding by trail signage – also in remote areas – can help decrease the number of interactions that might result in situations in which humans, animals, or both suffer.

“Ultimately, both people and wildlife lose during aggressive encounters,” concluded Landles. “Our findings helps us understand real patterns behind these encounters so we can reduce their frequency and help people and wildlife coexist more safely.”

 

The center has shifted: ONIKURU reshapes where people linger



Multifunctional facility associated with more frequent stays among residents



Osaka Metropolitan University

Spatially selective catalytic effect of ONIKURU on stay behavior 

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Opening the multifunctional facility increased stay density near the facility and adjacent commercial areas (red) while decreasing it near another core station area (blue), revealing a spatial redistribution of urban activity.

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Credit: Osaka Metropolitan University




Suburban city centers across Japan are gradually declining as residents shift to car-oriented shopping malls in outlying areas. Urban planners have sought to reverse this trend through urban catalytic projects, strategically placed facilities designed to trigger broader regeneration. Yet empirical evidence on whether such projects actually redirect people’s stay behavior beyond the facility itself has remained scarce. 

Shuta Maeda and Associate Professor Haruka Kato’s team at Osaka Metropolitan University’s Graduate School of Human Life and Ecology investigated whether the opening of the Ibaraki City Cultural and Childcare Complex “ONIKURU”, a multifunctional facility integrating a library, civic hall, childcare support center, planetarium, and community activity spaces designed by Pritzker Prize laureate Toyo Ito, affected residents’ stay behavior across the wider suburban city center. Using high-resolution GPS trajectory data from smartphone users and quasi-experimental methods, the researchers estimated the effect it had on residents who used the facility and mapped spatial changes in stay locations. 

The results showed that residents who visited ONIKURU stayed approximately 0.471 more times per week in the suburban city center than a matched comparison group over the six weeks following the facility’s opening. However, spatial analysis revealed that the effect was not uniform. Stay density increased near ONIKURU and adjacent commercial areas, but concurrently decreased around JR Ibaraki Station, a core node at the opposite end of the center. This suggests a spatially selective catalytic effect, where activity was redistributed rather than increased evenly across the entire district. 

“Walkable urban design initiatives are being implemented worldwide, but methods for rigorously evaluating their effects have not yet been established,” said Dr. Kato. “By leveraging smartphone-based GPS big data, this study demonstrates that it is now possible to measure the impact of walkable urban design at the building scale, something that was previously considered extremely difficult.” 

The findings were published in Cities.

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About OMU 

Established in Osaka as one of the largest public universities in Japan, Osaka Metropolitan University is committed to shaping the future of society through the “Convergence of Knowledge” and the promotion of world-class research. For more research news, visit https://www.omu.ac.jp/en/ and follow us on social media: X, Instagram, LinkedIn

 

Degradable polymers


Base-mediated degradation of carbon−Carbon main chain polymers bearing alkoxycarbonylmethylene repeating units




Ehime University

Figure 1 

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Synthesis and degradation of carbon-based main chain polymers

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Credit: Hiroaki Shimomoto, Tsubasa Deguchi, Tomomichi Itoh, Eiji Ihara(Ehime University)




The Ehime University research team directed by H. Shimomoto and E. Ihara have developed a new molecular design strategy that imparts degradability to carbon–carbon (C–C) backbone polymers (Figure 1). The study demonstrates that incorporating alkoxycarbonylmethylene (ACM) units into polymer backbones creates specific sites that enable backbone cleavage under basic conditions while maintaining desirable material properties.

The research team first investigated the degradation behavior of poly(alkoxycarbonylmethylene)s (PACMs), a family of polymers synthesized from alkyl diazoacetates. They discovered that treatment with potassium tert-butoxide (t-BuOK) efficiently reduced the molecular weight of these polymers under relatively mild conditions. Mechanistic studies revealed that the degradation proceeds through deprotonation of the polymer backbone followed by a retro-Michael reaction, leading to cleavage of carbon–carbon bonds and conversion of high-molecular-weight polymers into oligomeric products.

Building on this finding, the researchers proposed that ACM units could serve as “degradation-inducing sites” within other carbon–carbon backbone polymers. To test this concept, they synthesized copolymers of styrene or methyl methacrylate with dialkyl fumarates or alkyl acrylates, thereby introducing ACM units into the polymer backbone. Remarkably, these ACM-containing polymers underwent significant molecular weight reduction upon treatment with base, whereas conventional polystyrene and PMMA showed essentially no degradation under similar conditions. These results demonstrate that a small number of strategically placed ACM units can transform otherwise nondegradable carbon–carbon backbone polymers into degradable materials.

Importantly, the introduction of ACM units did not simply add degradability. In several cases, the resulting materials retained or even improved their thermophysical properties. For example, certain ACM-containing polystyrene derivatives exhibited thermal stability and glass-transition temperatures comparable to or higher than that of a polystyrene homopolymer. In PMMA-based materials, incorporation of ACM-containing comonomers significantly improved thermal stability while simultaneously enabling base-triggered degradation.

The study provides a new and potentially general strategy for designing degradable carbon–carbon backbone polymers using readily accessible monomers such as fumarates and acrylates. By introducing degradation-inducing ACM units into otherwise stable polymer backbones, the approach offers a promising route toward next-generation plastics that combine practical performance with improved end-of-life management. The findings are expected to contribute to the development of more sustainable polymeric materials and future circular-materials technologies. This achievement appeared in the electronic version of Macromolecules published by the American Chemical Society on May 4, 2026.

 

An approach for SELinux policy analysis via semantic execution





Higher Education Press

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Credit: HIGHER EDUCATION PRESS





SELinux (Security-Enhanced Linux) enforces mandatory access control (MAC) according to policies. However, due to the inherent complexity of systems, real-world SELinux policies often become intricate, comprising thousands of statements, making manual verification of their correctness and security challenging. In addition, specific environments with stringent security requirements demand the formal verification of policies. While existing policy tools primarily focus on particular aspects of policy analysis, such as integrity and consistency, there is a lack of a unified approach to satisfy diverse requirements.

To address the problems, a research team led by Yongwang Zhao published their new research on 15 June 2026 in Frontiers of Computer Science co-published by Higher Education Press.

The team proposed a novel approach for SELinux policy analysis based on the formal semantics of the SELinux policy language. With the semantics of the SELinux policy language formalized in a rewrite-based language framework, K, which provides a semantic simulation environment for access control and a formal symbol system for analysis, users can specify their analysis requirements as assertions and constraints in a unified and easy-to-use method. The built-in theorem prover in the K framework helps policy analysis for not only classical security properties but also various special requirements due to environments and scenarios.

In the research, they formalize the semantics of the SELinux policy language in the K framework and implement a prototype tool based on the semantics with several security properties specified, including integrity, completeness, consistency, and so on. They apply the tool for real-world policies and find a lot of issues in refpolicy and AOSP policy.

Compared with other existing works, this approach provides a unified method to hold a comprehensive policy analysis for various requirements with formal guarantees.

Future work can focus on improving the performance of semantic execution and encapsulating the procedure of specifying analysis requirements to increase the analysis efficiency and reduce the prior knowledge needed for non-professional users and policy managers.

 

Quality control in open-ended crowdsourcing: a survey




Higher Education Press
Figure 1 

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 The execution process and algorithm framework

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Credit: HIGHER EDUCATION PRESS





The quality control issue has always been the focus of Crowdsourcing research. However, existing surveys predominantly concentrate on quality control in Boolean tasks, which are generally formulated as simple label classification, ranking, or numerical prediction. Ubiquitous open-ended tasks like question-answering, translation, and semantic segmentation have not been sufficiently discussed due to several challenges, like large to infinite answer spaces, complex task structure, dynamic and multidimensional worker abilities and non-unique acceptable answers.

In order to discuss and summarize the quality control methods applicable to open-ended tasks in crowdsourcing, a research team led by Hailong Sun published their survey on 15 June 2026 in Frontiers of Computer Science co-published by Higher Education Press and Springer Nature.

As shown in Figure 1, the team introduced the quality control framework through task flow and answer flow, emphasizing the necessity of contextual dependencies and dynamic optimization in open-ended tasks, thereby providing intuitive support for method design and validation.

Beyond that, they proposed a two-tier framework to categorize related works. As shown in Figure 2, the first tier presents a comprehensive overview of the quality model, covering essential aspects including tasks, workers, answers, and the system. The second tier further refines this classification by breaking it down into more detailed categories: 'quality dimensions,' 'evaluation metrics,' and 'design decisions.' This breakdown provides deeper insights into the internal structure of the quality control model for each aspect.

This paper thoroughly investigate how these quality control methods are implemented in state-of-the-art works and discuss key challenges and pointed out that the potential future research directions includes leveraging Large Language Models (LLMs) to enhance answer generation and evaluation, and exploring cross-task generalization capabilities of the quality control methods.

  

The two-tier framework for quality control in open-ended crowdsourcing

Credit

HIGHER EDUCATION PRESS