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Month: May 2022

As part of TAU, SEEd4Com’s road map, SDGs Academy Philippines now seeks collaborators

Posted on by Office of External Linkages and International Affairs

Tarlac Agricultural University (TAU) and Sustainable Energy and Enterprise Development for Communities (SEED4Com) are now looking for Sustainability Advocates in the country.

Formally inaugurated on 13 November, Sustainable Development Goals (SDGs) Academy Philippines is the outcome of months of planning and consultations between TAU Office of External Linkages and International Affairs (ELIA) and SEED4Com in support of United Nations 2030 Agenda for Sustainable Development.

Dr. Max P. Guillermo, President of TAU, and Mr. Dann T. Diez, Chief Executive Officer of SEED4Com, led the ceremonial signing of Memorandum of Understanding to make the five-year partnership official. Joining them were TAU-ELIA Director, Dr. Christine N. Ferrer, and several officials and spectators from both institutions.

The 2030 Agenda for Sustainable Development strive for the significant reduction of global poverty and hunger, sustained promotion of human rights, empowerment of women, girls, and members of the LGBTQIA+ community, and the safeguard of the planet and conservation of its crucial resources.

TAU’s partner, SEED4Com, has been addressing local concerns with global impact since 2014. According to its website, SEED4Com is a non-stock and non-profit organization based in Cebu, Philippines which is “founded to provide help in improving human conditions and empowering poverty-stricken areas, rural and last-mile communities in the Philippines.”

Getting Ready for A Sustainable Life

To prepare the members of SDGs Academy, TAU-ELIA and SEED4Com invited four plenary speakers to familiarize the participants with the 17 UN Sustainable Development Goals.

Representing SDGs Academy Pakistan, Dr. Syed Amar Hussain Jaffri, shared his organization’s experience in enacting SDGs in his country. Dr. Jaffri highlighted that inter-institutional cooperation, especially one that transcends borders, accelerates development. Meanwhile, Climate Schools Asia’s co-founder, Mr. Mohamad Johan, directed his discussion on the role of youth in climate action programs.

Mr. Jerome L. Duque, a Global Schools Advocate, discussed the importance of localization and contextualization of SDGs, specifically SDG 4, Quality Education. Mr. Duque also underscored the mandate of educators to provide knowledge, values, and skills required to move towards a sustainable and prosperous world. “We have to integrate global citizenship, sustainability, and 21st century skills to school communities,” he ended.

In addition, Mr. Clarence Gio Almoite of SEED4Com updated the participants regarding the status of 2021 United Nations Climate Change Conference or more popularly known as COP26. Held in Glasgow, Scotland on 41 October to 13 November, COP26 has been criticized for lack of inclusivity and transparency. Mr. Almoite shared these concerns during his talk.

As part of their pledge, new members are encouraged to initiate a target intervention on any SDG of their choice and to convince and mobilize volunteers to help them further their respective causes.

HKBU-led research identifies new regulatory mechanism of satiety, therapeutic target for obesity

Posted on by HKBUCPRO

A research team led by Hong Kong Baptist University (HKBU) has found that a proteolytic enzyme called membrane-type 1 matrix metalloproteinase (MT1-MMP) plays an important role in the regulatory mechanism of fullness, or satiety, and it could serve as a promising potential drug target for the management of obesity.

The research findings were published in the internationally-renowned scientific journal Nature Metabolism. The study has also been featured as a research highlight in multiple high-impact journals, including Nature Reviews Endocrinology, Nature Metabolism and Science Signaling.

Half of Hong Kong’s population obese or overweight

Being overweight, especially to the extent of obesity, exposes people to a higher risk of life-threatening diseases such as cardiovascular diseases, diabetes, and cancer. According to the Population Health Survey conducted in 2014/15 by the Department of Health, about 30% of people in Hong Kong aged 15 to 84 were obese, and another 20% were overweight.

The most effective way to tackle obesity is to reduce food consumption, but obese people often encounter difficulties in regulating their dietary habits as they lose their sense of satiety. Identifying a factor that specifically controls body weight, and investigating how it regulates our sense of satiety, is crucial for the development of therapeutic approaches for obesity.

Identification of new regulator of satiety signals

A research team led by Dr Xavier Wong Hoi-leong, Assistant Professor of the Teaching and Research Division of the School of Chinese Medicine (SCM), and Professor Bian Zhaoxiang, Director of the Clinical Division of SCM and Tsang Shiu Tim Endowed Chair of Chinese Medicine Clinical Studies at HKBU, identified a proteolytic enzyme called MT1-MMP which regulates the mechanism of issuing satiety signals in the human brain.

Growth and differentiation factor 15 (GDF15) is a hormone that sends out satiety signals by binding with the neuron receptor in the hindbrain called GDNF-family receptor α-like (GFRAL). Mediation of GFRAL can therefore affect the ability of GDF15 to send satiety signals, and thus help regulate food intake. From this starting point, the research team conducted a series of experiments to investigate the mediation effects of MT1-MMP on GFRAL.

Depletion of MT1-MMP reduces obesity

The research team generated an obesity mouse model by feeding a fat-rich diet to a group of transgenic mice with a depletion of MT1-MMP in their satiety neurons, as well as a control group of ordinary mice. After 16 weeks, the mice with depleted MT1-MMP ate 10% less food, gained 50% less weight, and exhibited reduced glucose and plasma insulin levels compared to the control group. The results show that depletion of MT1-MMP protects mice from obesity induced by a high-fat diet.

Following analysis with western blots, a widely used analytical technique that can detect specific proteins, the research team also found that the obese mice displayed an increased activity of MT1-MMP in the Area Postrema and Nucleus of the Solitary Tract, the brain regions involved in appetite and weight regulation. The finding suggests that increased MT1-MMP activity in the brain of obese mice could be a risk factor causing sustained weight gain.

To understand the mechanism by which MT1-MMP suppresses GDF15 satiety signalling, the research team conducted a series of molecular biology experiments involving animal models and cell culture. The results show that in cells with active MT1-MMP, a significant reduction of GFRAL and thus GDF15 signalling were observed. It could be explained by MT1-MMP clipping GFRAL from the surface of the brain neurons, which blocks GDF15 from binding to GFRAL and thus reduces the number of satiety signals. This in turn keeps the neurons from transmitting the satiety signals sent by GDF15.

MT1-MMP as a therapeutic target for obesity

The researchers also explored the therapeutic potential of targeting MT1-MMP for obesity management, in particular through pharmacological inhibition of its activity in vivo. With the application of a specific neutralising antibody that inhibits MT1-MMP, significant improvements in metabolic parameters including food intake, glucose tolerance and body weight in obese mice were observed. The results suggest that MT1-MMP is a potential therapeutic target that could be used in the development of innovative drug treatments for obesity.

Dr Wong said: “The research findings have established the role played by MT1-MMP in regulating satiety, and they have provided preliminary indications that the proteolytic enzyme is a promising target for the treatment of obesity. Pharmacological inhibition of MT1-MMP could be a viable strategy for the development of effective pharmacotherapy for the treatment of obesity.”

Apart from researchers from HKBU, the research team included scientists from The University of Hong Kong, The Chinese University of Hong Kong, the University of Texas Health Science Center at Houston, and the University of Helsinki.

HKAPA presents SWEAT Hong Kong International Dance Festival

Posted on by Communications Office

Presented by The Hong Kong Academy for Performing Arts, The 1st SWEAT Hong Kong International Dance Festival, held virtually from June 17 to 25, is specially curated for the international dance community to meet, innovate, research, share and dance.

Join SWEAT to see the work-in-progress presentations from the cross-cultural residency across 4 cities; enter a virtual global stage of dance with screenings from numerous dance academies & selected commissioned dance films; and meet artists, scholars and other practitioners and learn from world-renowned dance artists at the World Dance Alliance (WDA) Global Summit.

Three Programmes with 3 Festival Passes:

ArtsCross Hong Kong 2022

17 June 2022 (Fri)

Encounter creative residents at ArtsCross Hong Kong 2022 for a global digital research project that investigates new possibilities between dance and technology with multicultural perspectives.

Digital International Festival for Dance Academies

18 – 21 June 2022 (Sat – Tue)

Celebrate the connection of 15 international dance academies at the first Digital International Festival for Dance Academies (IFDA) for a thrilling series of staged performances and original film screenings performed and created by the freshest dance talents in the world and student-led forum.

World Dance Alliance Global Summit

22 – 25 June 2022 (Wed – Sat)

Immerse in thought-provoking conversations and presentations of the World Dance Alliance Global Summit 2022 and navigate new pathways for arts, dance and wellness in the post-pandemic world and empower the dance artists of tomorrow in practice and research.

For details & tickets, please visit: https://sweat-festival.hkapa.edu/

Festival Partner: Hong Kong Dance Alliance (HKDA)

Supported by: Hong Kong Arts Development Council(HKADC)

Dean of Thammasat Business School wins national researcher of the year award

Posted on by Thammasat University

The Dean of Thammasat Business School (TBS), Professor Ruth Banomyong, Ph.D., has been named National Researcher of the Year in Economics (2022) by the National Research Council of Thailand (NRCT).

On receiving the award, he expressed his hope that Thai business and industry will use his research as a model to further develop logistics infrastructure, connect and integrate supply chains in all dimensions, and increase the capacity of the Thai economy.

Prof Banomyong said that receiving the honor was a source of great pride. He is optimistic that the study would become a model for practical use in the development and optimization of logistics and supply chains.

The research has applications in many areas: development of universal logistics tools, indexes, calculation methods, geography characteristics, logistics policy, supply chain efficiency measurement, trade facilitation, and multi-form continuous transportation.

According to Prof. Banomyong, “Academic research is a kind of philosophy of life. This fact must be understood by anyone who wants to do research. What we want to see is that our work is valid and can be applied. Fortunately, my work has come at the right time: Thailand needs logistical knowledge, and there are many other opportunities in the region, and with the Asian Development Organization, ASEAN, the World Bank, the United Nations. This all gives a great opportunity for a university professor to play a role in turning research into policy. It’s a much more important factor than purely academic performance.”

“Logistics management is a new science for Thailand and countries in the region. (It is) bringing new knowledge which enables entrepreneurs to compete on the world stage. Such experiences travel to many regions around the world through research which also influences policymakers. To conduct research for the country is to contribute to its competitiveness, grow the economy, infrastructure, regulations, exports, imports, globalization, and help it manage shocks like COVID-19. Entrepreneurs are not equipped for that. The content of this research is important as an educational tool for entrepreneurs, both in the private sector and government.

“When we do research, we don’t focus on gaining trophies. We do it for cognitive growth, and ….so that our country develops competitively. Knowledge related to logistics and supply chains is very important. For example, the World Bank develops country scorecards to evaluate the quality of logistics on offer around the world. Currently, Thailand is poorly rated. What I’m doing is improving our logistics system to allow us to connect with the world, and to promote our country rankings.”

Professor Ruth ended by noting, “To successfully build on research, a collaboration between three main stakeholders is essential- the public, private and academic sectors. They must work together. We can also add in a fourth sector- local communities- which link all the other sectors together. All four parts lead to the development of the Thai logistics ecosystem, and can improve the economy and increase competitiveness.”

Universitas Pendidikan Indonesia Cool Roof Team launches Becool, solution to overcome global warming

Posted on by UNIVERSITAS PENDIDIKAN INDONESIA

The Cool Roof Team of the Universitas Pendidikan Indonesia and international partners have issued a product labeled beCool which has the meaning of cold. The product is under the license of Millennium Solution, USA, is produced at the Science, Technology, and Building Materials lab of the Universitas Pendidikan Indonesia and it has been registered with the directorate general of intellectual property and coolroof rating council (CRRC).

Eng. Beta Paramita, who is an Assistant Professor in the Architecture Study Program of the Faculty of Technology and Vocational (FPTK) of the Universitas Pendidikan Indonesia and is also the project manager of Cool Roofs Indonesia, explained that beCool is a solution in overcoming global warming as a result of building density, especially in big cities and causing the Urban Heat Island (UHI) phenomenon. The warming trend continues and global temperatures in 2021 = 0.85 degrees Celsius above average since modern records began in 1880. This phenomenon is characterized by the increase in the temperature of the downtown area compared to the surrounding area. The density of buildings and short waves of solar radiation reflected on the city’s cover materials cause trapped heat and lead to an increase in the microclimate of the region.

beCool has a white color which has SRI’s 106 specifications, solar reflectance 0.84, thermal emittance 0.90, so it can economize electricity by 5-6% of total usage per month. The drying time is quite fast + 30 minutes. Product quality resistance up to 3 years depends on the level of humidity and air pollution in each location and this product has advantages based on water and waterproof.

Eng. Beta Paramita explained that beCool presents solutions for society with institutional, academic, and community partners to overcome these challenges to achieve these targets and make cool roofs more affordable and accessible to many rural and underdeveloped areas of our country.

We are developing additional resources to bring the benefits of cool roofs to more users in Indonesia and hope our learning helps increase the use of these cooling solutions around the world.

Becool is part of the Cool Roof project of the Universitas Pendidikan Indonesia in a global project, the Million Cool Roofs Challenge (MCR). The Million Cool Roofs Challenge (MCR) is a global initiative to accelerate access to affordable and sustainable cooling through the rapid deployment of cool roofs.  Noah Horowitz, director of the Clean Cooling Collaborative, said that the lack of access to cooling is deadly and become a problem for more than a billion people worldwide. We need to fulfill the growing demand for cooling with more climate-friendly and equitable solutions. The Million Cool Roof Challenge offers the global potential to expand the scale of solar reflective roof deployments that make buildings more comfortable for the occupants and reduce the onset of heat stress.

The Million Cool Roofs Challenge was launched in 2019 as a project of the Clean Cooling Collaborative in collaboration with the Global Cool Cities Alliance, Sustainable Energy for All (SEforALL), and Nesta Challenges. The Million Cool Roofs Challenge awarded $125,000 in grants to 10 finalist teams based in South Africa, Bangladesh, Cote D’Ivoire, the Philippines, Indonesia, Kenya, Mexico, Niger, Rwanda, and Senegal. In less than two years, collectively, the ten countries managed to apply more than 1.1 million square meters of cool roofs — an area equivalent to 250,000 small rooftops, despite the numerous obstacles due to the coronavirus pandemic. The global competition for the scale of cool roof uses in developing countries officially announced that Indonesia represented by the Universitas Pendidikan Indonesia(UPI) is the winner of the Million Cool Roofs Challenge to demonstrate the best sustainable model through innovation and solar reflective roof technology. UPI is then entitled to a prize of $ 750,000 or equivalent to 11 billion Rupiah to expand the implementation of cool roofs in Indonesia.

UPI’s Becool products were developed in collaboration with the University of Florida, and Millennium Solutions, USA. The Cool Roof Team of the Universitas Pendidikan Indonesia in MCR activities has applied cool roofs to eight provinces and fifteen cities in Indonesia which are perceived by more than 10,000 building users. Noted in factory buildings, schools, MBR houses, government offices, mosques, OR (sports) facilities, and boarding schools and orphanages have become pilot projects in the implementation of MCR. Based on field measurements from the pilot project, the application of cool roofs in industrial buildings are able to lower the room temperature to 10 degrees Celsius. On the other hand, the use of cool roofs is able to reduce the energy consumption of buildings and it is counted as equivalent to 5-6% of total energy.

During MCR activities, the Cool Roof Team of the Universitas Pendidikan Indonesia has been able to produce its own cool roof coating paint under the millennium solution license, USA. UPI’s Science paint lab, Technology, and Building Materials Lab production paint have obtained an international certificate issued by CRRC (Cool Roof Rating Council). This production has provided opportunities for field workers, as well as practical learning opportunities for lecturers and students who work together in a series of MCR activities. The impact of the Cool Roof team activities of the Universitas Pendidikan Indonesiahas met the targets which are imposed by the MCR jury, namely being able to provide thermal comfort and access to cooling; energy savings, as well as significantly contributing to the reduction of the effects of UHI.

UPI Becool’s products as part of the efforts of the Universitas Pendidikan Indonesia to participate in developing local product innovations. Cool Roofs Universitas Pendidikan Indonesia plans to establish the first SRI (Solar Reflective Index) testing facility in Indonesia by increasing local production and hopes that it could reduce the production costs by about 20%, and make this solar reflective paint cheaper and accessible to all walks of life. Becool UPI also opened cooperation with the central government through ministries, as well as local governments to build on the success of their Million Cool Roofs Challenge project and develop its policies (e.g., Indonesian National Standards, green building applications, etc.) that will facilitate the continued adoption of solar reflective roofs across the country.

EdUHK’s holistic health programmes contribute to family harmony

Posted on by eduhk

As physical activity (PA) has significant benefits for health and fitness, the WHO recommends that children and adults engage at least 60 minutes and 150 minutes of moderate-intensity PA per week, respectively. However, owing to global urbanisation, technological advances, and increasing convenience in daily activities, inadequate PA in all aspects of life has become a major public health concern. In Hong Kong, 71% of adults do not meet the WHO PA recommendations.

This persistent and growing health-related problem indicates an urgent need to develop an intervention programme that can effectively promote PA at the individual, family, community, and city-wide levels. Therefore, a set of community-based family ‘holistic health’ intervention programmes were developed, implemented, and evaluated in the previous Happy Family Kitchen Movement (HFKM) project to promote well-being and health in Hong Kong.

Dr Henry Ho Chun-yip, Assistant Professor at the Department of Psychology, The Education University of Hong Kong, conducted a study to integrate positive psychology concepts with PA and healthy eating in the programmes. The results of the study provided support for overall intervention effectiveness on well-being outcomes, including family harmony, subjective happiness, and mental quality of life. This article reports findings on the physical health outcomes of the positive physical activity (PPA) intervention from the HFKM to examine its effectiveness for promoting PA and fitness among families.

In the study, a PPA intervention was developed to promote physical activity and fitness among Hong Kong families. PPA utilises positive affective attitudes to circumvent barriers to health behaviour change by helping families associate feelings of enjoyment with physical activity. Zero-Time Exercise (ZTEx) was introduced and promoted as a foot-in-the-door approach.

Using a community-based collaborative approach, the research team worked with social service organisations, a government department, and schools to implement a cluster randomised controlled crossover trial at a citywide scale. A total of 1,983 eligible participants from 1,467 families were recruited from all 18 districts in Hong Kong. Data were collected using structured questionnaires and physical fitness assessments at pre-intervention and one- and three-month follow-up.

PPA was effective in increasing individual ZTEx and ZTEx with family members at one-and three-month follow-up and in improving balance and endurance at three-month follow-up. Within-group improvements were also observed in PPA for ZTEx, ZTEx with family members, balance, and endurance. The qualitative results provided further support for the intervention effectiveness and added in-depth insight into the participants’ motivational, interpersonal, and affective experiences associated with PA after participating in the programme.

The results shed light on the intervention’s effectiveness for PA and fitness, and demonstrated that the community-based collaborative approach is successful in engaging the relevant stakeholders in an active and fruitful partnership with effective capacity building for programme development.

The study was conducted together with Professor Lam Tai-hing at the School of Public Health, The University of Hong Kong.

To learn more about the study, please click here.

“Scents” of Alarm: Volatile chemical signals from damaged plants warn neighbours about herbivore attacks

Posted on by Tokyo University of Science

Animals often use highly specific signals to warn their herd about approaching predators. Surprisingly, similar behaviors are also observed among plants.

Shedding more light on this phenomenon, Tokyo University of Science researchers have discovered one such mechanism. Using Arabidopsis thaliana as a model system, the researchers have shown that herbivore-damaged plants give off volatile chemical “scents” that trigger epigenetic modifications in the defense genes of neighboring plants. These genes subsequently trigger anti-herbivore defense systems.

In the wild, many species of animals, especially those with known predators, signal each other of imminent dangers using a variety of techniques, ranging from scent to sound. Now, thanks to multiple studies on the topic, we have reason to believe that plants, too, can sound an alarm under threat of an attack.

Prior studies have shown that when grown near mint plants, soybean and field mustard (Brassica rapa) plants display heightened defense properties against herbivore pests by activating defense genes in their leaves, as a result of “eavesdropping” on mint volatiles. Put simply, if mint leaves get damaged after a herbivore attack, the plants in their immediate vicinity respond by activating their anti-herbivore defense systems in response to the chemical signals released by the damaged mint plant. To understand this mechanism better, a team of researchers from multiple Japanese research institutes, including Tokyo University of Science, studied these responses in Arabidopsis thaliana, a model plant used widely in biological studies.

“Surrounding undamaged plants exposed to odors emitted from plants eaten by pests can develop resistance to the pests.

Although the induction of the expression of defense genes in odor-responsive plants is key to this resistance, the precise molecular mechanisms for turning the induced state on or off have not been understood. In this study, we hypothesized that histone acetylation, or the so-called epigenetic regulation, is involved in the phenomenon of resistance development,” explains Dr. Gen-ichiro Arimura, Professor at the Tokyo University of Science and one of the authors of the study. Their findings have recently been published in the journal Plant Physiology.

First, they exposed the plants to β-ocimene, a volatile organic compound often released by plants in response to attacks by herbivores like Spodoptera litura. Next, the researchers tried to determine the exact mechanism of action of volatile-chemical-activated plant defense.

The results were interesting—defense traits were induced in Arabidopsis leaves, presumably through “epigenetic” mechanisms, which refer to gene regulation that occurs because of external environmental influences. In this case, the volatile chemicals released by the damaged plants enhanced histone acetylation and the expression of defense gene regulators, including the ethylene response factor genes “ERF8” and “ERF104”. The team found a specific set of histone acetyltransferase enzymes (HAC1, HAC5, and HAM1) were responsible for the induction and maintenance of the anti-herbivore properties.

The researchers are ecstatic about their discovery of the role that epigenetics has to play in plant defense. According to them, the communication between plants via volatile compounds (known as the “talking plants” phenomenon) can potentially be applied to organic cultivation systems. This can increase the pest resistance of plants and effectively reduce our massive dependence on pesticides.

“The effective use of plants’ natural survival strategies in production systems will bring us closer to the realization of a sustainable society that simultaneously solves environmental and food problems,” concludes Dr. Arimura.

***

Reference

Title of original paper: Sustained defense response via volatile signaling and its epigenetic transcriptional regulation

Journal: Plant Physiology

DOI: https://doi.org/10.1093/plphys/kiac07About Professor Gen-ichiro Arimura from Tokyo University of Science

Dr. Gen-ichiro Arimura obtained his Ph.D. from Hiroshima University, Japan. He is serving as a Professor at the Tokyo University of Science’s Department of Biological Science and Technology. His primary research interest includes biological communications. His laboratory also conducts research on biological interaction networks and defense response systems in plants. Dr. Arimura has published over 60 refereed papers. He also has three patents to his credit.

Funding information

This work was financially supported in part by a Japan Society for the Promotion of Science (JSPS) KAKENHI (20H02951), JSPS -DST Joint Research Program (JPJSBP120217713), MEXT Grants-in-Aid for Scientific Research on Innovative Areas (20H04786 and 18H04786), and Japan Science and Technology Agency (JST) A-STEP (JPMJTM20D2), and Nagase Science and Technology Foundation to GA.

 

Teaching Gen Z

Posted on by Chloe Lane

Generation Z, or Gen Z for short, is quickly beginning to represent the largest cohort of students at universities around the world. Chloe Lane finds out whether this new batch are snowflakes, tech-addicts, or simply just misunderstood.

Addicted to technology, low attention spans, snowflakes: these are just a few ways Generation Z have been described in the media recently. However, according to the lecturers who teach them, these labels couldn’t be more wrong.

“It’s intensely annoying to see phrases such as snowflake bandied about,” says Professor Paul Wiltshire, a journalism course leader and senior lecturer at the University of Gloucestershire in the UK.

“In the last two years [throughout the COVID-19 pandemic], this generation has shown huge creativity, resilience and sacrifice.”

Generation Z, often shortened to ‘Gen Z’, are those born between 1997 and 2012. Currently, this includes university students aged between 18 and 24.

Professor Sunita Malhotra teaches the CEMS Master in International Management (MIM) at Louvain School of Management in Belgium.

Gen Z’s values are extremely close to mine.

“I love teaching Gen Z students and hope I never have to stop teaching them,” she says. “As a truth-seeker myself, I want to make the world a better place and believe in individual expression, so Gen Z’s values are extremely close to mine.”

Engaging Gen Z students

According to Vision Critical, the average Gen Z student has an attention span of just eight seconds. Despite this, Pew Research has found them to be the most educated generation yet, with around 57 percent of university-age students enrolling in higher education, compared to 52 percent of Millennials and just 43 percent of Gen X.

With such a supposedly low attention span, teaching students to the expected high standard should pose challenges, but Professor Malhorta believes this statistic doesn’t account for student engagement.

Gen Z students want to be engaged, valued, and listened to as individuals within their learning

“Gen Z students want to be engaged, valued, and listened to as individuals within their learning,” she says.

Dr Louise Robson, a senior university teacher at the University of Sheffield’s School of Biosciences in the UK, also challenges the statistics on attention spans. She tells QS-GEN that in her 25 years of teaching experience, she’s found Gen Z have a similar attention span to any other generation of student.

“If a lecture involves an academic standing at the front of a large lecture hall and talking at a group of students for 40 minutes, the attention span in the room will understandably wane, whether the students are Gen Z or not,” she says.

Using digital teaching methods

To avoid drops in attention spans, Dr Robson uses technology alongside traditional lectures to encourage students to play an active role in the learning process. As class sizes continue to increase year-on-year, she’s found using technology helps large groups of students to feel more engaged and creates a supported learning community.

Professor Malhorta has also made the switch to digital learning, finding it a much more effective and interactive method of teaching than traditional lectures.

“I rarely use slides and if I do, it is just a few to introduce the concept. Quizzes, collaborative whiteboards such as Miro, and resources that are colorful, visual, and engaging also work brilliantly,” she says.

Professor Wiltshire often uses social media platform TikTok in his journalism lectures, as well as online learning tools such as Padlet and Socrative to collaborate, seek opinions, and reinforce learning. The length of TikTok’s videos are 60 seconds or less, but Professor Wiltshire and his colleague Sophie Flowers often use them in modules as explainer videos and in their news day social media output.

“We also get our first-year students to look at how journalists use TikToks as virtual CVs,” he said.

Changing the way students are assessed

It isn’t just lectures that are becoming more technological. The pandemic has encouraged change from the traditional exams and essay assessment methods, reveals University of Sheffield’s Dr Robson. As a result, assessment methods are now a lot more diverse than they were 10 or 20 years ago.

Dr Robson explains that the type of assessment she sets depends on the year-group of the student. For first year students, lectures involve multiple choice quizzes, data-analysis tasks, or oral presentations, which help them assess the basic subject knowledge and understanding. In second and final years, lecturers look for a higher level of critical analysis.

“We find open book problem solving assessments are a great way to ensure students have developed the key skills they need to use to succeed in their chosen fields once they start their careers,” says Dr Robson.

While teaching his journalism students, Professor Wiltshire tries to move away from academic writing as much as possible, preferring to encourage journalistic writing instead.

Instead of traditional essay assignments, many of Professor Wiltshire’s assessments involve building students’ portfolios, with online stories, social media shorts, videos, podcasts, and presentations. He also uses quizzes as part of the formative assessment.

Helping students find solutions to complex global issues

“Gen Z students have a keen interest in finding solutions to many of the world’s greatest challenges, from climate change to sustainability, equality, and diversity,” says Dr Robson. At the University of Sheffield, sustainability has been embedded into the curriculum as a direct result of conversations with students. Dr Robson encourages higher education professionals to talk directly with students about what they want from university curriculums.

Gen Z also has a stronger interest in certain subjects, such as technology, climate change, social justice, and world issues, adds Professor Malhorta.

It is rare I sit with a Gen Z student and do not have a philosophical discussion of some kind.

“It is rare I sit with a Gen Z student and do not have a philosophical discussion of some kind. The key if you are preparing something as a teacher is to make sure you add in cases that address the issues of today,” she says.

Avoiding stereotypes

As with any generation, there is a tendency to generalise and stereotype. In reality, each student is different and will learn in different ways, explains Professor Malhorta.

“Every individual is different based on upbringing, culture, and values, so it is not as simple as dividing generations into categories according to year of birth,” she says.

Although certain generations can share certain interests and views, it is only by spending time with each student that you can find out who they are and how they like to be taught.

This article was abridged from QS-GEN 6. Download the full edition.

EdUHK Clinches six awards at International Exhibition of Inventions of Geneva

Posted on by eduhk

The Education University of Hong Kong has received four silver medals and two bronze at the 48th International Exhibition of Inventions of Geneva in March 2022. The exhibition is a renowned event to showcase innovations and inventions from all over the world. The award-winning inventions cover a variety of areas: behavioural and cognitive therapy, music education, environmental detection, image captioning and product search engines.

Silver Medals

1. A New Generation of Dissolved Oxygen Sensor Using Replaceable Photo-sensing Film

  • Principal investigator: Professor Rudolf Wu Shiu-sun, Advisor (Environmental Science), Department of Science and Environmental Studies
  • A novel device which detects and keeps a permanent record of the dissolved oxygen (DO) level in a medium using replaceable photo-sensing film. It is unaffected by biofouling, thus providing a cost-effective method of DO monitoring over large bodies of water.

2. Integrated Intelligent Intervention (3i)-Learning System

  • Principal investigator: Student Victor Wong Chun-man, Doctor of Education programme
  • A distance-learning system combining AI and Internet of Things, which supports carers to conduct Applied Behaviour Analysis therapies for students with special educational needs.

3. Reimagining Music Learning with e-Orch

  • Principal investigator: Dr Leung Chi-hin, Assistant Professor, Department of Cultural and Creative Arts
  • A system consists of an app and a cloud-based software, which specifically designed for music performance and composition. Integrated with the patented Grid Notation, virtual instruments and AI music generator, the innovation makes music education accessible and inclusive.

4. UNISON: Unpaired Cross-lingual Image Captioning

  • Principal investigator: Professor Philip Yu Leung-ho, Department of Mathematics and Information Technology (MIT)
  • An innovative AI system which generates cross-lingual (English to Chinese) image captions without relying on any paired caption corpus. The system consists of two phases: (i) a cross-lingual auto-encoding process and (ii) a cross-modal unsupervised feature mapping, which can perform real-time image to text conversion.

Bronze Medals

5. Lighten Dementia Game Set (Donut, Tea Bag, Fly)

  • Principal investigator: Alumna Christine Chan Ka-kei, Postgraduate Diploma in Education (Primary) programme
  • A game-based training set specially designed for elderly with dementia in Asian communities. The training set fosters social engagement among elders through Cognitive Stimulation Therapy, which helps slow down the progression of dementia and maintain cognitive functions.

6. Shopgrouper – An Online Product Search Engine that Creates Intelligent Personalised Shopping Experience

  • Principal investigator: Alumni Dicky Kwok Wing-cheung and Lam Yick-sun, Bachelor of Education (Honours) (Secondary) – Information and Communication Technology programme, and Dr Henry So Chi-fuk, Senior Lecturer, MIT
  • An e-commerce product search engine with an AI product categorisation system. It enhances shopping experience by crawling products data from online shops and offering precise recommendations to consumer. The merchant-customer matching feature also makes shopping more convenient.

Triumph of UiTM’s Annapurna Base Camp expedition 2022

Posted on by AIMI ASHIKIN

The Universiti Teknologi MARA (UiTM) under the Centre of Studies for Construction, Faculty of Architecture, Planning and Surveying (FSPU) in collaboration with the Alumni Universities of Texas Association (PAUT) has successfully organised an expedition adventure to the summit of Annapurna Base Camp, Nepal. The 12-days expedition in March 2022 has been long overdue and delayed amidst to the strikes of Covid-19 thus the official launching of this expedition was postponed to 3rd December 2021 attended by YB Datuk Seri Dr. Noraini Ahmad, Minister of Higher Education, Prof Datuk Ts Dr. Roziah Mohd Janor, Vice-Chancellor of UITM and Tan Sri Dato’ Ir Hj Zaini Omar, the Chairman of Mohhashi Space Gateway Bhd. The ceremony involves signing of Memorandum of Understanding (MoU) between UiTM and Mohhashi Space Gateway Berhad at Shah Alam Convention Centre (SACC).

A total of 16 climbers, including students and lecturers from the Centre of Studies for Construction, the Alumni from both Texas Universities Association (PAUT) , and Built Environment Organisation (PAAB), along with the training coach, medical doctors, and cameraman, managed to collaborate as a team after gaining approval from the by Vice Chancellor of UiTM in February 2021.

Four faculties in UiTM comprising Faculty of Architecture, Planning and Surveying, Faculty of Sports Science and Recreation, Faculty of Business and Management and Faculty of Medicine has shared their expertise and experiences in the long preparation of the climbers’ in terms of their physical and mental well being.  The joint-effort for the expedition has come to its fruition and successfully achieved its target and objectives.

Nevertheless, hiking was not the only objective of this expedition but also the involvement of conducting research and development. Wide-range of research interest which covers the Nepalese cultures and native people, resilient disaster environment management at high altitudes and adaptation of human comfort along the pathway of hiking trails at Annapurna Base Camp (ABC). This opportunity enables the lecturers and students to conduct data collection along the 96km hiking trails to the base camp and back to initial spot of Jhinu Danda. Annapurna Base Camp is one of famous hiking trails in Nepal with frequent seasonal visiting of avid hikers all around the world. The mission attracts many opportunities for students and professionals alike to study about mountain architecture, sustainable development, resilient disaster management and environment.

Apart from that, the expedition also helps to strengthen the spirit teamwork and identity among the students.   The students would then becoming the role-model for their peers to lead by example and to find their inner strength within to face any obstacles and challenges in future path.

Dr Soo Wincci was appointed as the ambassador of this expedition, which she involved in promoting and marketing including Signing Memorandum of Understanding (MoU) between UiTM and Kathmandu University, and also the Corporate Social Responsible (CSR) Program in Madrasa, Kathmandu on 19 and 20 March 2022. Both of the programs were organised by UiTM with the NGO’s like Girl Scouts. The main sponsors of the expedition were Malaysia Airlines Berhad, Bubbles O2, SD Advance, Yayasan RI, and MKH Berhad.

Finally, the success of this expedition could not be achieved without the relentless support by the government bodies, NGO’s and collaboration among the faculties per se. Future endeavour such as this expedition will set a cornerstone to universities to develop a meaningful partnership with the government bodies and extending  affiliation with the NGO’s to support more educational programs, research collaboration, as well as enhancing the overall visibility of  the university.

Aimi Ashikin Hanib & Dr Sheikh Ali Azzran