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Opening up supply chain blockages in the wake of the Baltimore bridge collapse

The impact of the Baltimore bridge collapse on supply chains is as massive as it is obvious. Finding the solutions to repairing the damage is not so simple, according to Bintong Chen, professor of operations management at the University of Delaware. Pain points include the loss of a major access point to a busy port and international car and truck shipping; a significant dent in commercial trucking (especially hazardous material transportation); and a strain on civilian commuting. Chen offers two solutions: Clear the water way first and quickly so that shipping will resume normally. This is the first priority and should not take long. Develop a plan to re-route traffic, as it will take four to five years to build a bridge to replace the Francis Scott Key Bridge. He proposes the following traffic changes: Divert all commercial trucking flow to William Preston Lane Jr. Memorial Bay Bridge. Reduce or remove the toll for night trucking in order to spread the truck flow and reduce the congestion. Reduce or remove the toll for the Baltimore tunnel at night for civilian commuting for the same purpose.  To schedule an interview with Chen, visit his profile and click on the contact button or reach out to the UD Media Relations team.

How Vulnerable Are America’s Water Systems to Outside Attack? | Media Advisory

The security of America's water systems is an issue of national importance, touching on the well-being and safety of millions. This topic gains urgency as it ties into broader concerns about infrastructure vulnerability, cyber-terrorism, and the readiness of public utilities to handle emerging threats. In light of recent breaches and heightened geopolitical tensions, the resilience of these essential systems is not just a matter of public safety but also of national security. Exploring this issue offers insights into: Cybersecurity measures for water supply systems The impact of climate change on water system resilience Federal and state responses to infrastructure threats Public health implications of water system breaches The role of technology in safeguarding against attacks Connect with an Expert about the Security of America's Water Systems For journalists seeking research or insights for their coverage about the Security of America's Water Systems, here is a select list of experts from our database. To search our full list of experts, visit www.expertfile.com Seth Hamman Director, Center for the Advancement of Cybersecurity and Associate Professor of Cyber Operations and Computer Science - Cedarville University David Bader Distinguished Professor, Data Science · New Jersey Institute of Technology Vladlena Benson Professor of Cybersecurity Management · Aston University William Hatcher Chair of the Department of Social Sciences · Augusta University TJ O’Connor, LTC (Ret.) Assistant Professor, Cybersecurity Program Chair | Computer Engineering and Sciences · Florida Tech                                                                                                                                                             Photo by: Adi Goldstein

World Water Day - United Nations World Water Development Report Launched | Media Advisory

World Water Day marks the launch of the United Nations World Water Development Report, a comprehensive review of the state of the world's freshwater resources. This day serves as a crucial reminder of the importance of water conservation, the challenges of water scarcity, and the need for sustainable management of this essential resource. As climate change accelerates and global demand for water increases, the findings of this report are more relevant than ever, offering a call to action for governments, businesses, and individuals worldwide. Key areas of focus include: Global Water Scarcity: The current status and future projections of freshwater availability. Impact of Climate Change on Water Resources: How global warming is affecting water cycles and availability. Innovative Water Management Solutions: Emerging technologies and strategies for sustainable water use. Water and Sanitation for All: Progress towards ensuring access to clean water and sanitation as a fundamental human right. Economic Implications of Water Management: The costs and benefits of investing in water infrastructure and conservation. International Cooperation on Water Issues: Examples of successful cross-border water management and conservation efforts. For journalists seeking research or insights for their coverage on this topic, here is a select list of experts. Michael Savarese Professor of Marine Science & Environmental Studies, Florida Gulf Coast University Karen Clay Professor, Carnegie Mellon University Pamela Grothe Assistant Professor University of Mary Washington Michael Vandenbergh Professor of Law, Vanderbilt University Tom Rand Managing Director at MaRS Cleantech Fund To search our full list of experts visit www.expertfile.com Photo by Artem Beliaikin

Aston University establishes Design Factory Birmingham as a global innovation hub for Midlands

• Birmingham becomes the latest city to join a global network of design and digital consultancies • Based at Aston University, expertise in areas such as 3D printing will be shared to boost the local economy • It will include a space named after the late Dame Margaret Weston, former director of the Science Museum. Birmingham has become the latest city to join a global network of design and digital consultancies set up to solve real world challenges through effective problem-solving. Design Factory Birmingham will be based at Aston University, one of just two hubs in the UK outside of London. The city officially joined the Design Factory Global Network on Wednesday 14 February and as a result Aston University will open the doors to its state-of-the-art facilities to other organisations. Shared understanding and common ways of working enable Design Factories in the network to collaborate efficiently across cultures, time zones and organisational boundaries fostering radical innovations. Businesses, industry partners, entrepreneurs, staff and students will be able to collaborate on projects that will involve technologies such as 3D printers and design software. The University will be sharing its expertise in artificial intelligence, additive manufacturing, data science and web, app and graphic design to boost the local economy. Currently there are 39 innovation hubs in 25 countries across five continents based in universities and research organisations. The Design Factory will include a space named after the late Dame Margaret Weston, former director of the Science Museum. Dame Margaret had studied electrical engineering at one of Aston University’s predecessor institutions and went on to be the first woman appointed to lead a national museum. She left a generous gift to Aston University in her will, which will be commemorated in the Birmingham Design Factory in honour of her engineering background. (l-r) Felipe Gárate, Professor Aleks Subic, Professor Stephen Garrett The Vice-Chancellor and Chief Executive of Aston University, Professor Aleks Subic said: “The Design Factory Birmingham is another key milestone in our ambition to be a leader in science, technology, and innovation, driving socio-economic transformation in our city and region. It is important to the Midlands because it will make a direct contribution to innovation led growth in partnership with industry and businesses. However, this is not only a local launch but also a global launch as Design Factory Birmingham is a global innovation hub, and an integral part of the Design Factory Global Network involving 39 innovation hubs around the world.” The head of the Design Factory Global Network Felipe Gárate from Aalto University in Helsinki, Finland attended the official launch in Birmingham. He said: “I am delighted to welcome Aston University as our latest member. “We are on a mission to create change in the world of learning and research through passion-based culture and effective problem-solving. “Shared understanding and common ways of working enable Design Factories in the network to collaborate efficiently across cultures, time zones and organisational boundaries fostering radical innovations.” The launch event was used to showcase design projects that are already running and companies attending were given the chance to meet placement students who could boost their existing expertise. Associate Pro-Vice-Chancellor and Deputy Head of the College of Engineering and Physical Sciences, Professor Tony Clarke said “This unique space on campus will bring together multi-disciplinary teams of hands-on innovators, collaborative thinkers and creators. “We will be delivering a wide range of services including software application development, product design, creating protypes using a variety of technologies including laser and water cutting, digital and design training courses, and helping companies obtain innovation grants for projects.” As a member of the global network the Birmingham Design Factory at Aston University will participate in two global design challenges - one run by McDonalds and the other run by the Ford Motor Company. ENDS Notes to Editors There are 39 Design Factory hubs around the world https://dfgn.org/ In the UK there are three; London, Birmingham and Manchester. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk

Research: Add space salad to the risks astronauts face

University of Delaware researchers grew lettuce under conditions that imitated the weightless environment aboard the International Space Station and found those plants were actually more prone to infections from Salmonella.  It’s been more than three years since the National Aeronautics and Space Administration made space-grown lettuce an item on the menu for astronauts aboard the International Space Station. Alongside their space diet staples of flour tortillas and powdered coffee, astronauts can munch on a salad, grown from control chambers aboard the ISS that account for the ideal temperature, amount of water and light that plants need to mature. But as the UD researchers discovered, there is a problem. The International Space Station has a lot of pathogenic bacteria and fungi. Many of these disease-causing microbes at the ISS are very aggressive and can easily colonize the tissue of lettuce and other plants. Once people eat lettuce that’s been overrun by E. coli or Salmonella, they can get sick. With billions of dollars poured into space exploration each year by NASA and private companies like SpaceX, some researchers are concerned that a foodborne illness outbreak aboard the International Space Station could derail a mission. In the new study by UD's team, published in Scientific Reports and in npj Microgravity, researchers grew lettuce in a weightless environment similar to that found at the International Space Station. Plants are masters of sensing gravity, and they use roots to find it. The plants grown at UD were exposed to simulated microgravity by rotation. The researchers found those plants under the manufactured microgravity were actually more prone to infections from Salmonella, a human pathogen. Stomata, the tiny pores in leaves and stems that plants use to breathe, normally close to defend a plant when it senses a stressor, like bacteria, nearby, said Noah Totsline, an alumnus of UD’s Department of Plant and Soil Sciences who finished his graduate program in December. When the researchers added bacteria to lettuce under their microgravity simulation, they found the leafy greens opened their stomata wide instead of closing them. “The fact that they were remaining open when we were presenting them with what would appear to be a stress was really unexpected,” Totsline said. Totsline, the lead author of both papers, worked with plant biology professor Harsh Bais as well as microbial food safety professor Kali Kniel and Chandran Sabanayagam of the Delaware Biotechnology Institute. The research team used a device called a clinostat to rotate plants at the speed of a rotisserie chicken on a spinner. “In effect, the plant would not know which way was up or down,” Totsline said. “We were kind of confusing their response to gravity.” Additionally, Bais and other UD researchers have shown the usage of a helper bacteria called B. subtilis UD1022 in promoting plant growth and fitness against pathogens or other stressors such as drought. They added the UD1022 to the microgravity simulation that on Earth can protect plants against Salmonella, thinking it might help the plants fend off Salmonella in microgravity. Instead, they found the bacterium actually failed to protect plants in space-like conditions, which could stem from the bacteria’s inability to trigger a biochemical response that would force a plant to close its stomata. “The failure of UD1022 to close stomata under simulated microgravity is both surprising and interesting and opens another can of worms,” Bais said. “I suspect the ability of UD1022 to negate the stomata closure under microgravity simulation may overwhelm the plant and make the plant and UD1022 unable to communicate with each other, helping Salmonella invade a plant.” To contact researchers from the team, visit the profiles for Bais or Kniel and click on the contact button.

Aston University receives £10m from Research England to establish the Aston Institute for Membrane Excellence

Image shows how tiny water channels control how water enters and exits cells through their membranes The Aston Institute for Membrane Excellence (AIME) will be set up with a £10m grant from Research England AIME will be led by Professor Roslyn Bill from Biosciences and Professor Paul Topham from Chemical Engineering and Applied Chemistry The globally unique institute will use biomimetic polymer membranes for applications such as water purification and drug development Aston University will establish the Aston Institute for Membrane Excellence (AIME), a globally unique, cross-disciplinary institute to develop novel biomimetic membranes, after receiving a major grant of £10m from Research England. AIME will be led by Professor Roslyn Bill, from the School of Biosciences, with co-lead Professor Paul Topham from the department of Chemical Engineering and Applied Chemistry (CEAC). Membranes, both biological and synthetic, are hugely important in many sectors. For example, the world’s top ten selling human medicines all target proteins in biological membranes, while synthetic polymer membranes are used in the US$100bn/year water purification industry. The team behind AIME believes that the full potential of membranes will only be realised by an interdisciplinary group spanning biology, physics and chemistry that can investigate membranes holistically. Professor Bill, a European Research Council (ERC) Advanced grantee leads Aston Membrane Proteins and Lipids (AMPL) research centre of excellence that studies the structure and function of membrane proteins and associated lipids. Professor Topham leads Aston Polymer Research Group (APRG), which investigates the nanoscale behaviour of block copolymers (a type of polymer with a structure made of more than one type of polymer molecule) and polymer technologies for membranes. AMPL and APRG have already begun collaborative research and AIME will bring together the complementary expertise of both research clusters into one institute. AIME will initially comprise the eight researchers from AMPL and APRG. Alongside the co-leads Professor Bill and Professor Topham, will be Dr Alan Goddard, Professor Andrew Devitt, Professor Corinne Spickett, Dr Alice Rothnie, Dr Matt Derry and Dr Alfred Fernandez. It plans to recruit three further academics, six tenure-track research fellows, three postdoctoral research assistants (PDRAs), six PhD students, a research technician and a business development manager. Importantly, AIME will work with many existing Aston University colleagues to build a comprehensive research community focused on all aspects of membrane science. The new AIME team will focus on the development of bioinspired, highly selective polymer structures for applications in water purification and waste remediation, nanoparticles loaded with therapeutic molecules to treat disorders ranging from chronic wounds to neurological injuries, and the purification of individual membrane proteins with polymers to study them as drug targets. The vision is for AIME to become a ‘one-stop shop’ for interdisciplinary, translational membrane research through its facilities access and expertise, ideally located in the heart of the country. Professor Bill said: “The creation of AIME is ground-breaking. Together with Aston’s investment, E3 funding will deliver a step-change in scale and the rate at which we can grow capacity. We will address intractable scientific challenges in health, disease, and biotechnology, combining our world-class expertise in polymer chemistry and membrane biology to study membranes holistically. The excellence of our science, alongside recent growth in collaborative successes means we have a unique opportunity to deliver AIME’s ambitious and inclusive vision.” Professor Topham said: “We are really excited by this fantastic opportunity to work more closely with our expert colleagues in Biosciences to create advanced technology to address real world problems. From our side, we are interested in molecular engineering, where we control the molecular structure of new materials to manipulate their properties to do the things that we want! Moreover, we are passionate about a fully sustainable future for our planet, and this investment will enable us to develop technological solutions in a sustainable or ‘green’ way.” Professor Aleks Subic, Vice-Chancellor and Chief Executive of Aston University, says: “Our new Aston Institute for Membrane Excellence (AIME) will be a regional, national, and international research leader in membrane science, driving game-changing research and innovation that will produce a pipeline of high-quality research outcomes leading to socioeconomic impact, develop future global research leaders, create advanced tech spinout companies and high value-added jobs for Birmingham and the West Midlands region. Its establishment aligns perfectly with our 2030 strategy that positions Aston University as a leading university of science, technology and enterprise.” Steven Heales, Policy Manager (Innovation) at the West Midlands Combined Authority, said: “WMCA is delighted to see Research England back the Aston Institute for Membrane Excellence. This will enable Aston University’s excellent academics and research community to work closely with businesses to make advances in membrane technology and applications. “In 2023 the West Midlands Combined Authority agreed a Deeper Devolution Trailblazer Deal with Government, which included a new strategic innovation partnership with Government. Projects like AIME are exactly the kind of impact we expect this new partnership to generate, so watch this space.” Lisa Smith, chief executive of Midlands Mindforge, the patient capital investment company formed by eight Midlands research-intensive universities including Aston University, said: “This grant is an important vote of confidence in the Midlands scientific R&D ecosystem. AIME will play an important role in the future research of pioneering breakthroughs in membrane science and enable the world-leading research team at Aston University to develop solutions to real world problems. We look forward to closely working with the Institute and nurturing best-in-field research being undertaken at Aston out of the lab and into the wider society so it can make a positive impact”. Rob Valentine, regional director of Bruntwood SciTech, the UK’s leading developer of city-wide innovation ecosystems and specialist environments and a strategic partner in Birmingham Innovation Quarter, said: "As a proud supporter of the Aston Institute for Membrane Excellence (AIME), I am thrilled at the launch of this groundbreaking initiative. AIME exemplifies Aston University's commitment to advancing cutting-edge interdisciplinary research and further raises the profile of the region’s exemplary research capabilities and sector specialisms. AIME's vision of becoming a 'one-stop shop' for translational membrane research, strategically located at the heart of the country, aligns perfectly with our strategy at Bruntwood SciTech. We are committed to working with partners, including Aston University, to develop a globally significant innovation district at the heart of the UK where the brightest minds and most inspiring spaces will foster tomorrow’s innovation.” Membrane research at Aston University has also recently received two other grants. In November 2023, Professor Bill received £196,648 from the Biotechnology and Biological Sciences Research Council’s Pioneer Awards Scheme to understand how tiny membrane water channels in brain cells keep brains healthy. In December 2023, a team led by AIME team-member Dr Derry received £165,999 from the Engineering and Physical Sciences Research Council to develop biomimetic membranes for water purification. For more information about AIME, visit the webpage.

MEDIA RELEASE: CAA Manitoba releases Top 10 Tips to help Manitobans get ready for Winter Driving

Winnipeg, MB, Oct. 24, 2023 – As we anticipate winter’s blustery arrival, CAA Manitoba is asking Manitobans to take the time now to prepare their vehicle and themselves. “People often wait until the first snowfall before getting their vehicle ready to drive in winter conditions,” says Elisha Dacey, communications manager for CAA Manitoba. “Preparing now means your vehicle will be as safe as it can be when the cold weather comes,” says Dacey, “so we’ve prepared a Top 10 list to help you get started.” CAA Manitoba has a list of several things you can do to prepare yourself and your vehicle for winter driving. TOP 10 READY FOR WINTER DRIVING TIPS: Install winter tires for better traction on cold and snowy roads – Members can call CAA before Nov. 15 to have our mobile tire service change them for you at home for a fee Have your battery tested and replace it before it fails. CAA Manitoba will test Members’ batteries as part of a service call. Make sure you have an emergency kit that includes water, non-perishable food, jumper cables, blankets, a flashlight, batteries, waterproof matches, candles, a small shovel, and kitty litter. Have your brakes checked and serviced if needed. Make sure where you park your vehicle is prepared – is your outdoor plug drawing power? Is your extension cord working with no missing prongs or exposed wires? Have a family member or friend watch as you flick your vehicle and signal lights on and off to ensure they are working correctly. Top up your windshield washer fluid and any other fluids that are getting low. Get an oil change. Remove worn wiper blades and replace them with new ones. Ensure you have an ice scraper in your vehicle. While it’s important to make sure your vehicle is ready to go, it’s also important for drivers and passengers to be prepared, in case of an emergency or if you are stranded. Some additional ways to be prepared include: Have a cell phone battery bank and keep it on you, as well as a charging cable that connects your phone to your vehicle. Download and register for the CAA app and keep your CAA membership card in your wallet or vehicle so you always know how to contact CAA Manitoba if you are stranded. Consider adding extra mitts, hats and socks and footwear to your emergency kit. Check Manitoba 511.ca for road conditions and closures if you head out into a rural area. Always tell your loved ones where you plan to go and your planned route before you leave on a longer trip in your vehicle. “At CAA Manitoba, Member safety is our number one priority,” says Dacey. “There’s still time to make sure you, your loved ones and your vehicle are ready to drive safely this winter.” For more information about driving safely in winter conditions, please visit our Safe Winter Driving page at caamanitoba.com.

Aston University scientists explore more sustainable method of separating contaminants from water using bio-inspired membranes

• Contaminated water is responsible for around 500,000 deaths a year • New transmembrane proteins will allow selective removal of single contaminant from water • Will use tiny transport channels around one million times smaller than an ant. Aston University scientists are to explore a more sustainable method of separating contaminants from water. The method will use exquisite molecular selectivity, which means that just a single chemical or molecular species will be able to pass through the membrane, allowing scientists to selectively remove a single contaminant from water. The World Health Organization estimates that microbiologically contaminated water is responsible for almost 500,000 deaths a year and current filtration technologies aren’t effective enough. The University has received a grant of £165,999 from the Engineering and Physical Sciences Research Council to research the use of bioinspired membranes to selectively remove contaminants from water, while using minimal energy. The membranes will be made from plastic but will have transmembrane proteins embedded within them, made possible thanks to new polymers developed by the University. The transmembrane proteins enable the selective removal of specific contaminants using transport channels measuring approximately 4-10 nanometres - around one million times smaller than an ant. The Aston University team led by Dr Matt Derry, lecturer in chemistry, will be developing bio-inspired membranes which selectively remove contaminants with minimal energy. Working with Dr Alan Goddard, reader in biochemistry at Aston University, the team’s design is based on solutions found in biological evolution and refinement which has occurred over millions of years. Dr Derry, who is based in the University’s College of Engineering and Physical Sciences. said: “Polluted water is a complex global socioeconomic issue that affects human and animal health, and greatly impacts industries such as agriculture and fishing, recreational activities and transport. “Current filtration technologies are ineffective and their manufacture often requires complex and expensive multi-step processes with high associated energy costs. “We are going to use advanced polymer synthesis to develop new bespoke polymers which will both extract transmembrane proteins and immobilise them within artificial separation membranes. “This will create water purification membranes which remove impurities with greater selectivity and specificity.” The new membrane technology developed in this project will advance and evolve membrane science. The platform materials and approaches used can be applied to other membrane filtration and water purification applications such as selective phosphate removal from agricultural wastewater. Dr Derry added: “We are hoping that the new membranes will lead to high-performance devices that can contribute to a circular economy. “The need for such new systems is recognised by the UN with Sustainable Development Goal six on clean water and sanitation.” The research will begin in April 2024 and will end in May 2026.

How Diverse Crop Mixes Can Help Solve the Water Scarcity Crisis

How exactly can alternative crop mixes come to our rescue in this water scarcity crisis? Different crops have different water needs in order to grow without stress. And it is often the case that the thirstiest crops are grown in places where little water is available. Shifting crop mixes to crops that require less water but still ensure farmer profits is a promising way to reduce the amount of water needed to irrigate crops and to avoid conditions of water scarcity. Kyle Davis, assistant professor in Geography and Spatial Sciences at the University of Delaware, can offer commentary on this. He is an expert in food systems, sustainability, global environmental change and geospatial data science among other things. Diverse crop mixes can save water, maintain economic output, and provide for the needs of aquatic ecosystems. Davis and others recently released a study that looks at issue.  "These findings demonstrate strong opportunities for economic, food security and environmental co-benefits in irrigated agriculture and provide both hope and direction to regions struggling with water scarcity around the world," the study notes.  Davis has been featured in publications such as Earth.com and Phys.org and was recently awarded an Early Career Award for pioneering global research in sustainable agricultural food systems. He can be contacted by clicking the "View Profile" button. 

MEDIA RELEASE: Are you Winter Ready? CAA, TPS, OPP and the Ontario Government join forces to prepare motorists for the season ahead

Cold and winter weather is about to settle in and CAA South Central Ontario (CAA SCO), Toronto Police Service (TPS), Ontario Provincial Police (OPP), and the Ontario Government want to know: are you winter ready? The four organizations have joined forces to help inform Ontarians that now is the time to get your winter tires installed, check your car battery and stock your car with an emergency kit with all the essentials needed for the winter months. “Our weather can be unpredictable, especially in the winter. It’s important to think ahead and prepare before driving conditions become hazardous,” says Nadia Matos, Manager External Communications, CAA SCO. “It all comes down to safety and there’s no time like the present to ensure you and your car are properly equipped.” TPS, OPP and the Ontario Government are also reinforcing the importance of driver behaviour. "The safety of Ontario’s roads is always a top priority, and we are continuing to work closely with our road safety partners to promote safe driving habits this winter season,” says Prabmeet Sarkaria, Minister of Transportation. “Road safety is everyone’s responsibility, so when you’re heading out, always remember to slow down and drive according to weather and road conditions. Together, we can keep Ontario’s roads and highways safe for everyone this winter.” “Winter driving can be stressful. Motorists need to be alert at all times when on the road, even in the most routine circumstances like driving to and from work,” says Police Constable Sean Shapiro, Toronto Police Service. “That includes slowing down and driving according to weather conditions and ensuring you give yourself plenty of time to get to your destination.” This year motorists also need to be aware of new amendments to the Highway Traffic Act. “It is now illegal to pass snowplows working side by side on Ontario highways. Only pass a snowplow if the lane is completely clear of any part of the plow, including its blade,” says Sargeant Kerry Schmidt, Ontario Provincial Police. Offenders may face a fine ranging from $150 to $1,000. This winter, before heading out on the road motorists can download and use the 511 app to check the weather and road conditions before they leave home. The 511 app can be found at 511on.ca or in the app store on your mobile device. Motorists should also refer to some other tips to help make their winter drive a safer one: Keep your gas tank at least half full at all times. Cold weather causes condensation in the system, which can lead to fuel-line freeze-up and can prevent your car from starting. Remove excess snow from your car before driving off. Any snow left on the roof might slide down onto the windshield and obstruct your vision. Keep your wiper fluid full. Keep extra fluid in your trunk. Make sure it’s rated for -40℃. Pack a fully stocked emergency kit. The kit should include a flashlight and extra batteries, warning devices (e.g., flares, reflective vests/strips), a first aid kit, blankets, jumper cables, non-perishable food and water plus a phone charger. Be sure to also keep an ice scraper, small shovel and snow brush handy in your car at all times.