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Year: 2022

KNU establishes semiconductor graduate school system to train over 400 experts annually

Posted on by Kyungpook National University ‏‏‎ ‎

Kyungpook National University will establish a ‘semiconductor graduate school system’ that will produce more than 400 semiconductor experts per year. The announcement reflects the active steps KNU is taking to overcome the chronic shortage of semiconductor-related manpower that has recently become serious.

KNU plans to train a total of 100 professionals per year, 50 semiconductor experts through an undergraduate master’s linkage course, and 50 advanced semiconductor experts through a master’s-doctoral linkage course. In addition, through the ‘Interdisciplinary Convergence Graduate Program,’ which integrates related fields in the semiconductor industry ecosystem, such as materials, process, design, and system semiconductors, 300 skilled professionals will be trained annually.

Kyungpook National University has been developing the field of IT as a national specialized field since the 1970s, while also steadily building research infrastructure for training talented professionals. Moreover, KNU is currently moving forward with a next-generation semiconductor ecosystem creation project with Daegu Metropolitan City, and it is also planning the establishment of an academic department that is customized/employment-guaranteed through collaboration with various industries.

Won-Hwa Hong, President of Kyungpook National University, noted, “The talented semiconductor experts that are produced will create a virtuous cycle ecosystem of core technology, R&D, and professionally competent industrial manpower, which will be a powerful driving force for regional development and for gaining a competitive edge in the international semiconductor rivalry, which is often described as a ‘world war.’”

HKAPA, Swire launch Greater Bay Area youth orchestra

Posted on by Communications Office

The Hong Kong Academy for Performing Arts (HKAPA) proudly celebrated the 25th anniversary of the establishment of the HKSAR at the HKSAR 25th Anniversary Celebration Concert with the generous support from the Swire Group. The Academy, in partnership with the Swire Group, also announced the founding of the Greater Bay Area Youth Orchestra – a pioneering youth initiative to foster cultural exchange across the region.

Established and directed by HKAPA, with the support of the Swire Group as Founding Patron, the Greater Bay Area Youth Orchestra aspires to be one of the finest youth orchestras in Asia. It will aim to raise the standard of classical performances in the Greater Bay Area (GBA) to new heights, by bringing together talented young musicians from across the region for professional training under the auspices of HKAPA, as well as offering opportunities for performance and cultural exchange. Commencing this autumn, 2022, the Greater Bay Area Youth Orchestra will begin to enrol its first intake of around 80-100 young musicians aged between 16 and 24 years from Hong Kong, Guangzhou and Macau.

“As an internationally recognised conservatoire, HKAPA is committed to promoting Hong Kong as a global centre of excellence for the arts and cultural exchange,” said HKAPA Director, Professor Gillian Choa. “It therefore gives me great pleasure, in partnership with Swire Group, to announce the formation of the Greater Bay Area Youth Orchestra – a unique opportunity to nurture talented young musicians from cities around the GBA, enabling them to develop to their fullest potential. I would like to take this opportunity to express my sincere gratitude to the HKSAR Government for its commitment to the arts and unfaltering support for HKAPA over the years. My thanks also go to the Swire Group for their sponsorship of tonight’s very special concert, combining the talents of various music institutes around the GBA in celebration of the 25th anniversary of the establishment of the HKSAR.”

“Swire is delighted to be Founding Patron of the Greater Bay Area Youth Orchestra,” said Guy Bradley, Chairman of John Swire & Sons (H.K.) Limited. “We are very excited by the potential offered by this new initiative to promote Hong Kong as Asia’s city of culture and creativity and we hope that through music, we can encourage the development of closer connections between young people from all parts of the Greater Bay Area.”

“The Greater Bay Area Youth Orchestra will provide a platform for talented young orchestral players from our neighbouring cities to share their passion for music,” said Professor Sharon Andrea Choa, HKAPA’s Head of Conducting and Cultural Leadership (Music). “Our aim is to enrich the artistic visions of our younger generation, enabling them to see their future beyond geographic or cultural boundaries.”

“The Hong Kong Academy for Performing Arts Presents: HKSAR 25th Anniversary Celebration Concert” programme included three contrasting works performed by the Academy Symphony Orchestra: Dai Pai Dong, an award-winning work inspired by the unique Hong Kong culinary culture; guzheng concerto Rushi; and Beethoven’s Choral Fantasy in C minor, Op.80, with the Academy Choir. Xinghai Conservatory of Music, the Macao Youth Symphony Orchestra Association and the Shenzhen Arts School also provided special video performances for tonight’s programme. Guest conductors included Maestros, Lio Kuokman and Lin Daye.

To celebrate the HKSAR’s 25th anniversary, some tickets for the concert were distributed free to members of the public and the concert was also livestreamed on the HKAPA website and on RTHK TV32 for audiences in Hong Kong and the Chinese Mainland to enjoy the performances of talented musicians from the region. A video of the occasion will also be made available online; please stay tuned to the Academy website and social media channels for updates.

Malaysia, Japan collaborate in mangrove forest conservation and sustainable management

Posted on by Darren Yoong

Three Malaysian organisations including the Sarawak Forest Corporation, Sunway University, and the University of Technology Sarawak have entered into a public-private collaboration with two of Japan’s leading technology companies, Aerosense Inc. and Funlead Corp to improve the mangrove forests in Sarawak through the adoption of drone technology and artificial intelligence.

The research project funded by both Sunway University and the Asia-Pacific Telecommunity (APT) is necessary to procure evidence-based, systematic mangrove conservatory strategies to promote long-term ecological and economical resilience in Sarawak’s Mangrove forests.

Malaysia is one of the largest mangrove-holding countries in the World, with Sarawak having the second-largest coverage in Malaysia. The mangrove forests have been playing an important ecological, social, and economic role in the ecosystem. However, these covers have inevitably been subjected to threats such as climate change, various land use, and human activities.

Through this project, the team will be able to obtain real-time plant health monitoring, as well as proactively protect the mangrove forest through artisanal fisheries surveillance. This research project is led by Prof. Yap Kian Meng, who is also the Head of Sunway University’s Research Centre for Human-Machine Collaboration (HUMAC), School of Engineering and Technology.

“As one of the collaborative partners, Sarawak Forest Corporation is always in pursuit of useful and innovative technology that helps save the environment. This collaboration between all the parties will help conservation as the focused work targets our concerns of healthy forests and degraded lands that we need to rewild,” said Zolkipli Mohamad Aton, Chief Executive Officer of Sarawak Forest Corporation.

Meanwhile, Prof. Mahendhiran Nair, Pro-Vice Chancellor, Research Engagement and Impact of Sunway University said, “This initiative is aligned with the vision for Malaysia as outlined in the 12 Malaysian Plan to protect the country’s natural habitat and create a better return of value from the biodiversity and conservation efforts. Protecting the mangrove using advanced technology will have several economic, social, and environmental spill overs to Malaysia and the regional economies”.

The two Japanese companies – Aerosence Inc., provides drone technology and cloud SaaS (Software as a Service) solution, while Funlead Corp., an ICT company provides support for data acquisition and image analysis with artificial intelligence technologies. Aerosense and Funlead are both the alumni of 2021 JETRO-Sunway Innovation Labs (iLabs) Digital Transformation Accelerator that aims to support the Japanese companies to better position themselves and expand across Malaysia, using the Sunway ecosystem as a launchpad and testbed.

According to Satoru Shimada, Board of Directors of Aerosense, the research will be further complemented with vertical take-off and landing (VTOL) technology that will cover up to about 300ha per flight for drone photogrammetry. This will enhance the mangrove monitoring efficiency. Meanwhile, Koichi Kishi, the Senior Manager of Funlead Corp. envisages the deployment of a compact, light-weight hyperspectral sensor in the next phase to improve analytical abilities. This enhancement is supposed to enable the grasping distribution of Mangrove species precisely.

“JETRO works together with the Japanese government to promote open innovation by supporting the collaboration between ASEAN organizations and Japanese companies. Environmental conservation is one of the synergistic areas between Malaysia and Japan and this collaboration uses the advantages and ability of both countries in building meaningful solutions around the 17 United Nations Sustainable Development Goals; an excellent example of Malaysia-Japan business collaborations in keeping the environmental ecosystem”, commented Yuhei Enguchi, the Digital Transformation Director of JETRO Kuala Lumpur, Malaysia.

The best young scientist of Eurasia

Posted on by Al- Farabi Kazakh National University

Doszhanov Yerlan Ospanovich is a highly qualified specialist in the field of petrochemistry, microbiology and ecology. The main area of his scientific research concerns the environmental problems of the Republic of Kazakhstan related to the processes of purification of oil-contaminated soils, oxidation of hydrocarbons and oil refining after bioremediation and phytoremediation. The problem of environmental protection and purification from oil and petroleum products pollution is becoming increasingly acute due to the limited possibilities (and sometimes environmental harm) of using biotechnological and physico-chemical purification methods for these purposes. This area of research is particularly relevant for Kazakhstan, where soil and water bodies are polluted during oil extraction, transportation, processing and storage. Meanwhile, many aspects of the impact of hydrocarbon pollution on the environment and humans have been little studied.

For the first time , together with the laboratory staff under the guidance of Prof. Z.A. Mansurova proposed a method for investigating the regularities of the process of biooxidation of oil and petroleum products in soils depending on the process parameters and physico-chemical characteristics of hydrocarbons.

The proposed unique biochemical method for identifying sources of hydrocarbon pollution and assessing the degradation of oil and petroleum products in soil systems has been used in the implementation of scientific projects and published in a number of internationally cited journals.

The patterns and information obtained as a result of the performed studies on the utilization of hydrocarbon raw materials in the technogenesis zone are of great practical importance in petrochemistry and ecology for taking effective measures to reduce the impact of oil and petroleum products on the local population and predicting the biochemical and physico-chemical behavior of hydrocarbons in oil production sites, during its transportation, processing and storage. The obtained scientific results, as well as biochemical methods of analysis developed during the implementation of scientific projects, are widely used in the educational process in the courses “Petrochemistry”, “Oil and Gas business” (section “Ecology of the oil and gas complex”), including in the discipline taught in English (“Petrochemisty”).

He participated in conducting research work on oil fields and granary oil fields, conducted as part of scientific projects for conducting model and field experiments on cleaning soils with free cells of hydrocarbon-oxidizing microorganisms and oil-resistant plants.

In accordance with the program of scientific activity for the period of receiving the award, E.O. Doszhanov was engaged in the development of scientific foundations for the creation of a new technology for remediation of soils contaminated with organic hydrocarbons, taking into account the peculiarities of biotic and climatic conditions of the regions of Kazakhstan.

The development and implementation of highly effective biotechnologies based on the use of microorganisms-destructors of hydrocarbons, plants-accumulators for the protection and protection of the environment in oil-polluted soils of the regions of Kazakhstan are relevant. In order to develop a high technological level that ensures the formation of a biotechnological cluster, it is necessary to provide scientific and technical support for the development of biotechnology in the republic for the purification of soils from oil and petroleum products.

The expected scientific results will have important theoretical and applied significance in petrochemistry, biotechnology and ecology, which is associated with ensuring the safety of the population and preventing hydrocarbon pollution of the territory of Kazakhstan.

Fast, facile synthesis of antibacterial amino acid Schiff base copper complexes

Posted on by Tokyo University of Science

Schiff base-metal complexes exhibit promising antibacterial and antioxidant properties. However, conventional methods for their preparation can be time-consuming. To reduce the reaction time and improve the quality and quantity of the products, researchers designed a new synthesis technique that uses microwave irradiation and methanol for the preparation of amino acid Schiff base copper complexes in just 10 minutes. The resulting products exhibit desirable properties, such as mild antioxidant activity and antibacterial activity against Escherichia coli.

Ever since their development in the late 19th century, Schiff bases have been a popular group of organic compounds, owing to their wide variety of desirable properties. The presence of both nitrogen and oxygen in their structure makes them versatile molecules with an array of applications, ranging from dyes and catalysts to environmental sensors and raw materials for chemical synthesis.

Recently, there has been growing interest in the biological activity of Schiff bases, as researchers have discovered that metal complex derivatives of Schiff bases can serve as antioxidant, antimicrobial, and anticancer agents. Among these compounds, studies have shown that amino acid Schiff base copper (Cu) complexes have the most promising antimicrobial properties; however, the reaction time taken to create these compounds can range from hours to days.

In a recent breakthrough published on 18 June 2022 in Applied Microbiology, a team of researchers led by Professor Takashiro Akitsu from the Tokyo University of Science reported a two-step synthesis procedure that produced amino acid Schiff base Cu (II) complexes within a mere 10 minutes! The team included Dr. Estelle Léonard and Dr. Antoine Fayeulle from ESCOM, TIMR (Integrated Transformations of Renewable Matter), Centre de Recherche Royallieu, University of Technology of Compiègne, France.

“Amino acid Schiff base Cu (II) complexes have the potential to be used as antimicrobial agents but their wider applications are being limited by conventional methods for synthesis that often takes several hours and sometimes days. With our research, we aim to overcome this challenge by making the synthesis process more facile,” comments Prof. Akitsu on the rationale behind their study.

The team used microwave irradiation to prepare these compounds, owing to its ability to greatly accelerate the reaction while providing controlled heating. This method also ensures higher yields, better purity, and fewer by-products. Additionally, they chose methanol as the solvent for the reactions. With a high loss tangent of 0.659, which determines the ability to convert microwave energy into heat, and a high microwave absorption rate, methanol was ideal for accelerating the reactions and lowered the global reaction time to 10 minutes.

To gauge the antibacterial properties of the compounds, the researchers tested them against various bacteria. They found that the one- and two-chlorine substituted complexes showed better action against bacteria, with remarkable activity against E. coli, than the molecules with no chlorine groups. The team also noted the presence of light antioxidant properties in the one- and two-chlorinated complexes. In the future, the team aims to check for the toxicity of these compounds toward kidney, liver, and skin cells.

This new synthesis technique minimizes the global reaction time, maximizes the reaction conditions, and produces high purity products with promising antibacterial activity. The insights from this study can be used as a framework for the development of fast and facile synthesis techniques for biologically active amino acid derivatives of Schiff base metal complexes. “Bacterial infectious diseases are a major threat to public health. Our study aims to contribute towards the improvement of health care systems in developing nations that are often affected by infectious epidemics,” concludes Prof Akitsu.

***

Reference

Title of original paper: Synthesis, Identification and Antibacterial Activities of Amino Acid Schiff Base Cu(II) Complexes with Chlorinated Aromatic Moieties

Journal: Applied Microbiology

DOI: https://doi.org/10.3390/applmicrobiol2020032

About The Tokyo University of Science

Tokyo University of Science (TUS) is a well-known and respected university, and the largest science-specialized private research university in Japan, with four campuses in central Tokyo and its suburbs and Hokkaido. Established in 1881, the university has continually contributed to Japan’s development in science by inculcating the love for science in researchers, technicians, and educators.

With a mission of “Creating science and technology for the harmonious development of nature, human beings, and society”, TUS has undertaken a wide range of research from basic to applied science. TUS has embraced a multidisciplinary approach to research and undertaken intensive study in some of today’s most vital fields. TUS is a meritocracy where the best in science is recognized and nurtured. It is the only private university in Japan that has produced a Nobel Prize winner and the only private university in Asia to produce Nobel Prize winners within the natural sciences field.

Website: https://www.tus.ac.jp/en/mediarelations/

About Professor Takashiro Akitsu from Tokyo University of Science

Prof. Takashiro Akitsu is a professor in the Department of Chemistry, Faculty of Science, Tokyo University of Science (TUS), Japan. He graduated from Osaka University and obtained his Ph.D. in Physical and Inorganic Chemistry in 2000 and went on to study physical and bioinorganic chemistry at Stanford before moving to TUS. He joined the TUS as a Junior Associate Professor in 2008 and became a Professor in 2016. He has published 220 articles and book chapters and served as an editorial board member in many international peer-reviewed journals. His current research areas involve the study of imines, Schiff bases, coordination chemistry, and crystal structures.

Funding information

This research was funded by TIMR UTC‐ESCOM, and this work was supported by a

Grant‐in‐Aid for Scientific Research (A) KAKENHI (20H00336).

EdUHK research on informal digital learning of English and L2 willingness to communicate

Posted on by eduhk

A study by The Education University of Hong Kong (EdUHK) suggests that learners of English as a foreign language (EFL) are more likely to initiate communicating, if they are frequently engaged in Informal Digital Learning of English (IDLE).

In Applied Linguistics and Foreign Language Education, willingness to communicate in a second language (L2 WTC) is widely defined as ‘a readiness to enter into discourse at a particular time with a specific person or persons, using L2’; L2 WTC is considered the last psychological step before actual L2 speaking. With greater L2 learning opportunities in out-of-school digital contexts, young EFL learners are increasingly engaged in IDLE, or independent English activities in informal digital settings without teacher involvement or assessment. Several recent studies investigated the extent to which IDLE can play a role in EFL learners’ L2 WTC. Concurrently, the so-called ‘emotional turn’ or ‘affective turn’ has facilitated research examining the role of emotions in L2 WTC in exam-oriented Asian countries, where English learners tend to experience positive and negative emotions simultaneously throughout and beyond their K–12 formal English learning.

The study by Dr Lee Ju Seong at the Department of English Language Education, used the Korean educational system to examine the relationships between IDLE, positive and negative emotions, and L2 WTC. It specifically explores how enjoyment and anxiety influence the relationship between IDLE and L2 WTC in the exam-oriented EFL context, as well as whether gender and educational stage play any role in these relationships.

The participants included 1,265 Korean EFL learners (764 secondary and 501 tertiary students, and 400 males and 865 females) from 10 secondary schools and one university in two major Korean cities, who completed an online survey.

Using moderated mediation structural equation modelling, the findings revealed that enjoyment and anxiety in learning and speaking English partially mediated the relationship between IDLE and L2 WTC, with enjoyment being a stronger mediator than anxiety. That means practising IDLE predicted a higher level of enjoyment and a lower level of anxiety, which influenced students’ willingness to communicate in English positively.

Furthermore, the relationship between IDLE and second-language anxiety was stronger in females than in males, suggesting that IDLE may be more beneficial to women in terms of reducing English-speaking anxiety. Gender, on the other hand, did not moderate any of the paths between the two emotion factors and L2 WTC. This suggests that men and women’s emotional states influenced their L2 WTC in similar ways.

In light of the findings, the authors recommended that EFL teachers pay more attention to emotions and their impact on students’ L2 WTC by fostering a positive classroom environment to reduce anxiety, and that teachers assist individual students in designing and participating in their own IDLE activities.

The study was conducted together with Dr Xie Qin, Assistant Professor at the Department of Linguistics and Modern Language Studies, EdUHK, and Dr Lee Kilryoung at the Department of English Education, The Hankuk University of Foreign Studies, South Korea.

To learn more about the research, please click here.

Faculty of Commerce and Accountancy, Thammasat University sustains its championship, maintains its international education accreditation standards

Posted on by Thammasat University

Faculty of Commerce and Accountancy, Thammasat University focuses on producing quality educational personnel with the latest global recognition through the accreditation of international education standards from the world’s leading institutes of business administration, EQUIS (2012 – 2024) from the European Union for the third time and AMBA (2018 – 2024) from United Kingdom for the second time.

Prof. Dr. Ruth Banomyong, Dean of the Faculty of Commerce and Accountancy, Thammasat University revealed that the Faculty of Commerce and Accountancy focuses on maintaining education accreditation standards in order to produce excellent quality personnel for the business sector and the Thai labor market, and utilize knowledge and competence to further develop Thailand in the future. The Faculty of Commerce and Accountancy is very proud as it has been fully accredited for international education standards from 2 major world’s business administration institutes, EQUIS (EFMD Quality Improvement System) from the European Union and AMBA (Association of MBAs) from the United Kingdom with different and comprehensive educational quality assessment criteria in all aspects of leading educational standards. By which each institute has a quality assessment that has very strict rules.

The details are as follows:

1. EQUIS (European Quality Improvement System): The Faculty of Commerce was accredited in 2012 onwards, an accreditation under the international non-profit organization European Foundation for Management Development (EFMD) is the organization that provides business administration education standards for Business Schools and Business School Programmes, Corporate Universities and Online Courses both at the higher education level, Graduate Studies, Program for Executives. It also certifies the various academic activities of the Faculty, including research and academic collaborations.

2. AMBA (Association of MBAs): The Faculty of Commerce was accredited in 2018 onwards. AMBA is the UK’s international quality accreditation body for graduate business administration programs, the AMBA has been instrumental in setting the criteria for managing graduate studies and is committed to raising international standards and quality for the benefit of the Institute of Business Administration students and alumni as well as employers.

UiTM inks MOU with UNPAM to promote international collaboration

Posted on by Dr Duratul Ain Tholibon

UiTM has signed a Memorandum of Understanding (MoU) with the Universitas Pamulang, Indonesia (UNPAM). UNPAM is a university that was founded in 2000 by Yayasan Prima Jaya, chaired by Drs. Wayan. The goal of its establishment is to create affordable educational facilities for all levels of society without forgetting the quality of education. Therefore, UNPAM always appoints educators and administrative staff who are competent in its field.

UNPAM also constantly conducts development in the field of curriculum that is adapted to the needs of the industry, so that UNPAM graduates can be marketable and well-received in their career life. In addition to supporting lecture activities, UNPAM has provided various facilities such as laboratories and libraries. With the implementation of low-cost education at UNPAM, it is hoped that all levels of society in Indonesia can enjoy a college education.

The MoU agreement that has been initiated by Ts. Dr. Duratul Ain Tholibon, senior lecturer from the Centre for Civil Engineering Studies, UiTM Pahang Branch, Jengka Campus has met the performance indicator of PI No. 90 i.e. new MoUs with international universities related to academic or research activities. This MoU agreement was signed on a desk-to-desk basis, which was represented by YBhg. Prof. Ts. Dr Mohd Ilham Bin Adenan, Rector of UiTM Pahang Branch, and witnessed by Associate Professor Dr. Nazirah Ramli, Deputy Rector of Academic Affairs, UiTM Pahang Branch while UNPAM was represented by Dr. E. Nurzaman, Rector of Universitas Pamulang, Indonesia and witnesses by Dr. Rr. Dewi Anggraeni, Vice Rector, Universitas Pamulang.

This MoU agreement will be forged for three years to increase collaboration between UiTM and UNPAM. It is hoped that this MoU will strengthen, promote, and expand international collaboration in the fields of academia, culture, and research. This MoU signing initiative is aligned with the Sustainable Development Goals (SDGs) No.17, which focuses on partnerships for the goals. It is hoped that these efforts will highlight UiTM Pahang Branch Campus’ global visibility.

Climate stress harming agriculture in Kazakhstan, air temp increase

Posted on by Muhammad Sheraz

A UNDP report says that the average annual air temperature in Kazakhstan has increased by 1.5-2 0 in the last 50 years. Kazakhstan, like other countries in Central Asia, is included in the group of countries more vulnerable due to climate change. The reason for it is dry environmental conditions and being a landlocked country.

The Report sights more and more evidence of climate change in the Central Asian region in form of the fluctuations of temperature rise, as well as waves of cold and heat, more droughts occur, the lack of water and related conflicts increase.

Glaciers in Kyrgyzstan and Tajikistan, being “water stations” of Central Asia, decrease dramatically. In Tajikistan only, where about 60% of freshwater of Central Asia is stored, their volume reduced by 30% in a few recent decades, and more than 1000 glaciers are almost extinct. Alongside this, droughts and dust storms in this region occur almost with double frequency in the last decades.

Climate change is also affecting agriculture in the region. To discuss the climatic changes and their effects on agriculture, more than 100 leading scientists, academics, and experts from Kazakhstan, Russia, Belarus, Kyrgyzstan, and Uzbekistan gathered in Kazakhstan’s largest city and business hub, Almaty, for an international conference entitled: “Adaptation of crop production to the conditions of global climate change: problems and solutions”.

Kazakh National Agrarian Research University Rector Professor Tlektes Yespolov, who is also the Chairman of the Board, presided and moderated the Conference that was organized by the Kazakh Scientific Research Institute of Agriculture and Plant Industry and held in the Almaty region’s Karasai district.

In his speech, Professor Yespolov termed climate change and its impact on the environment as one of the major challenges of the 21st century. He said that weather patterns are changing on the planet. Unusual rainstorms, hailstorms, floods, hurricanes, and snow blockages are affecting agricultural patterns and productivity also.

In addition, anthropogenic factors have played, are taking place, and are playing an equally important role, especially in the degradation of soil and other agricultural lands and, in general, the entire biodiversity – vegetation, wildlife, and microorganisms.
Professor Yespolov said that more than 10 million hectares of arable land are lost annually in the world: from erosion – 6 million hectares, alienation for non-agricultural needs – 3 million hectares, salinization, and waterlogging – 2-3 million hectares.

Kazakhstan faces the threat of water shortage that would intensify drought. According to forecasts, the shortage of water, including the transboundary aspect, may increase up to 40% by 2030, and this may create serious obstacles to economic and social development and the preservation of natural systems. Such water deficiency may cause the degradation of lake and river ecosystems, agriculture, fisheries, and tourism.

The UNDP report says that aquatic ecosystems in Kazakhstan are particularly vulnerable, so unless timely measures are taken, the tragedy of the Aral Sea may be repeated on Balkhash Lake, in the Ural River delta, and other ecosystems and the well-being of many millions of people living there depends on their condition.

Climate stress factors are harming agriculture productivity. Kazakhstan is among the top 10 wheat exporting countries of the world but it is feared that by 2030, wheat yields can be reduced by almost 40%, which threatens food security in the entire Centra Asian region.

Kazakhstan’s rural population in several regions of the country is dependent on livestock, fodder sources, and pasture conditions. These regions have been facing abnormal droughts due to climate change. UNDP says that in many villages, people were unprepared: they were left without water and fodder, and a lot of livestock died. At the same time, rising temperatures and changing rainfall patterns can also lead to outbreaks of agricultural pests.

Referring to the UNDP report, Professor Yespolov said that Central Asia, including Kazakhstan, is more affected by climate change than the rest because the agricultural regions are located in the zone of risky farming. It has been proven that up to 70% of the risks in these regions are associated with weather dynamics.

“Crop losses from adverse weather conditions in some years range from 50 to 70%,” revealed Professor Yespolov.

To support and boost the country’s agriculture sector, the Kazakh Government has been developing a project, the Agro-Industrial Complex, and has set targets that would be achieved between 2021 and 2030. These are:

1. Providing 90 % of the country’s population with socially significant food products
2. Increasing the income of rural entrepreneurs;
3. An increase in labor productivity in the agriculture sector by three times compared to 2020;
4. Doubling the exports of agricultural products over this period.
Kazakh National Agrarian Research University (KazNARU) has been playing a central role in achieving the goals of the Ago-Industrial Complex.

“The current state and role of agro-industrial production in Kazakhstan in economic development are one of the most pressing issues. Kazakhstan has the potential not only to develop the country’s agro-industrial complex and the well-being of the population but also to become the world’s leading agricultural state by exporting a wide range of agricultural products,” said Professor Tlektes Yespolov in concluding his remarks at the International Conference.

Birzhan Usubaliev Director of the Kyrgyz Research Institute of Agriculture, Maksat Nurdinov Director of the Kyrgyz Research Institute of Animal Husbandry and Pastures, Dr. Ismail Abdelkhamid Director of the Department of Programs and Projects of the Islamic Organization for Food Security attended the Conference.

Gani Kaliev, the President of the Academy of Agricultural Sciences of the Republic of Kazakhstan, Darkhan Balpanov, Academician of the National Academy of Sciences of the Republic of Kazakhstan, and several regional governors and experts attended the conference and shared their opinions.

The participants of the Conference also took part in a “Field Day”.

#agriculture #kaznaru #climatechange #watersecurity #waterscarcity #drought #soil #kazakhstan #centralasia #research #internationalconference #sustainabledevelopment

Stevens Initiative grants funding to AUS for innovative virtual exchange program

Posted on by American University of Sharjah

The Stevens Initiative announced that the American University of Sharjah (AUS) is one its newest grantees to receive funding for virtual exchanges between young people in the United States and the Middle East and North Africa. AUS’ Transformative Sustainability Project (TSP) and Virtual Language Exchange (VLE) Project are two of four new Stevens Initiative-funded exchanges, awarded funding to institutions based in the UAE that will give young people experiential learning opportunities to explore topics impacting their local and global communities.

The Stevens Initiative is an international leader in virtual exchange, which brings young people from diverse places together to collaborate and connect through everyday technology. Created in 2015 as a lasting tribute to Ambassador J. Christopher Stevens, the Initiative invests in virtual exchange programs between the U.S. and the Middle East and North Africa; shares research, resources, and promising practices to improve impact; and advocates for broader adoption.

AUS’ TSP gives undergraduate college students in the United Arab Emirates and the United States the tools to transform their local and global contexts into more sustainable communities in the context of the UN Sustainable Development Goals. TSP helps participants shift their perspectives by asking them to grapple with some of the largest global problems and how people from different regions can work together to solve them. Through international collaboration, participants get hands on experience tackling issues that they otherwise would not engage with in their day to day lives. TSP empowers the leaders of tomorrow with tools to address interconnected global challenges and grow in sustainable ways.

AUS’ VLE provides participants in the United Arab Emirates and the United States a unique cross-cultural experience by examining diverse worldviews, languages, and cultures while critically thinking about media representations that shape their world knowledge. This program examines linguistics, culture in both historical and geographical contexts, and the use and interpretation of signs and symbols in participating communities. The VLE builds meaningful relationships among a diverse group of participants through collaborations on visual projects and open dialogues that strengthen multi-cultural understandings.

“We are excited to add these new programs to a long list of unique virtual exchanges that contribute to our vision of providing an opportunity to empower young people to drive positive change for our future. Each grantee works to create the next generation of globally-minded leaders, using virtual exchange as a tool to teach young people about the world around them,” said Christine Shiau, Director of the Stevens Initiative at the Aspen Institute.

Virtual exchange prepares young people for their future lives and careers by exposing them to global, collaborative environments where they can develop friendships, build skills, and take on new perspectives. Together, these new virtual exchange programs will immerse young people in topics such as linguistics and the study of symbols, storytelling, the UN Sustainable Development Goals, and some of the world’s most pressing global concerns.

With the addition of AUS, the Initiative will expand its total reach by summer 2023 to nearly 75,000 young people in 17 MENA countries and in 49 U.S. states, Puerto Rico, five tribal communities, the U.S. Virgin Islands, and Washington, D.C. Overall, 91 grantees have partnered with the Initiative between 2016 and today.

“Virtual exchange can be very effective in creating immersive experiences that leave a lasting and meaningful impression and we are very thankful to the Stevens Initiative for enabling us to harness its transformative power. With the TSP grant, we are looking forward to engaging, challenging, and enriching bright young minds across the world on all aspects of Sustainable Development”, said Kristina Katsos, Program Manager of the TSP and Instructor in the Department of International Studies of the American University of Sharjah.

Speaking about the VLE project, Dr. Susan Smith, Associate Professor in Mass Communication at AUS, said: “The Virtual Language Exchange program builds significant relationships with diverse student participants by creating collaborations through projects and dialogue that strengthen cross-cultural understandings.”

The Transformative Sustainability Project and the Virtual Language Exchange are funded by the Stevens Initiative, with support from the government of the United Arab Emirates. Learn more about the Stevens Initiative, which receives support from additional funders and is administered by the Aspen Institute, at https://www.stevensinitiative.org/.