Research

Fall Valedictorian: Myles Davidson, Master of Applied Psychology

Myles Davidson BA’21, Valedictorian for the Faculty of Graduate Studies and Research

Myles is an emerging research professional who was raised in St. Peter’s on the island of Cape Breton. He obtained his Bachelor of Arts in Criminology (Honours) and Psychology from Saint Mary’s University in 2021. Having a strong passion for both research and academia, Myles chose to stay at Saint Mary’s and enroll in the Master of Applied Psychology program. In his seven years at Saint Mary’s, Myles has been involved in various research projects centered on the prevention of sexual abuse, child sexual abuse and substance abuse.

With ten publications to his credit, Myles’ research contributions have led to real-world changes, most notably as a member of the research team that informed the current vaping legislation in Nova Scotia.

Myles has participated in several academic conferences to date, with his presentation at the 2023 Canadian Psychological Association conference winning second place amongst all graduate presentations. In addition to his research, Myles has been a teaching assistant at Saint Mary’s for the last five years specializing in research methods and statistics. For this work, he was recognized with an excellence in teaching award from the Council of Canadian Departments of Psychology in 2022. During his master’s degree, Myles received research funding from several notable organizations including Research Nova Scotia and the Social Sciences and Humanities Research Council.

Aside from his education, Myles is an accomplished professional musician. To date, he has released two studio albums and has performed extensively throughout the Maritimes. Some of the highlights of his career include performing at the Celtic Colours International Festival and the East Coast Music Awards, as well as having one of his songs featured in a museum in Barra, Scotland. Despite the demands of school, Myles has ensured that music continues to be a central focus in his life. In the future, Myles intends to pursue a doctorate in forensic psychology and carve out his own path in academia by conducting impactful research.

Q&A with Myles

Hometown: St. Peter’s, N.S.

Thesis title: Consent in vanilla and BDSM sexual encounters: conceptualization, violations, and repercussions

Thesis description: This thesis sought to understand how consent is negotiated in BDSM encounters, whether practicing in an organized BDSM community is protective against consent violations, and whether having an interest in sexual sadism is a reliable predictor of consent violation perpetration.

Why did this type of research appeal to you? A lot of my undergraduate and graduate work was in sexual abuse prevention, specifically, the role that sexual sadism plays in sexual abuse perpetration. I believe it is critical to understand what causes sexual abuse and what researchers can do to prevent it. Additionally, since there has been very little research conducted on BDSM, I was motivated to contribute in this area.

Why did you choose Saint Mary’s for your graduate studies? I completed my undergraduate degree at SMU and loved every minute of it. The community at SMU is supportive, collaborative and welcoming no matter who you are and what your interests are. When I chose to pursue a master's degree in forensic psychology, I knew there was no better place for me.

Any other successes you’d like to share, or difficulties you were able to overcome? In terms of successes, SMU not only allowed me to conduct research that led to publications, but it also allowed me to work on projects that had a positive impact on the lives of others. In terms of difficulties, I spent the end of my undergraduate degree and the start of my graduate degree in the height of the pandemic. I commend SMU for how they went above and beyond to ensure that no student was left behind.

Future plans? I plan to pursue my PhD in forensic psychology, followed by a career in academia.

Any advice for new students?

  • Build strong connections with your professors. A seemingly inconsequential conversation can lead to the opportunity of a lifetime.

  • Don't be afraid to step out of your comfort zone.

  • Most importantly, have fun with your degree. If you do what you love, you'll love what you do.


Fall Convocation takes place on September 22 and 23, 2023. Watch the ceremonies live at smu.ca/graduation or on our Facebook page.

Researchers use the James Webb Space Telescope to view growing “baby galaxy”

Team co-led by Saint Mary’s astronomer uses the James Webb Space Telescope to get a detailed view of a “baby galaxy” undergoing an intense growth spurt

Artist conception of the James Webb Space Telescope. Credit: NASA GSFC/CIL/Adriana Manrique Gutierrez

Answering the question of how galaxies form and grow over time has been a driving reason for the construction of the James Webb Space Telescope (JWST).

Now, a team of researchers led by graduate student Yoshi Asada and Dr. Marcin Sawicki at Saint Mary’s University used JWST to make an exciting discovery that will help explain the structure of the Universe. They discovered a highly magnified “baby galaxy” which is being assembled from “building blocks” created early in the history of the Universe. This galaxy is a perfect poster child of a galaxy’s early stages of growth, and its study will help scientists better understand this crucial part of a galaxy’s life. The galaxy is the result of an ongoing collision and merger of two smaller galaxies named ELG1 and ELG2.  The remnants of these two smaller galaxies can still be seen in the JWST images.

The graphic shows the two images (Image A and Image B) of the merging galaxy taken by JWST.  The two images of the same system are produced by Einstein’s gravitational lensing effect, which here is caused by the bending of light around the mass concentration of the galaxy cluster MACS 0417 that lies between the observers and the merging galaxy pair.  Light from the distant galaxy pair takes two separate pathways to reach JWST. This results in two images of the merging galaxy system.  The purple hue of the light coming from the merging galaxies is due to the hydrogen gas within them that’s made to glow by the large numbers of hot young stars that are forming within the young galaxies.

Image credit: Yoshi Asada, Marcin Sawicki and the CANUCS collaboration.

The baby galaxy discovered by the astronomers is particularly exciting because its JWST images have been highly magnified by a phenomenon called Einstein’s gravitational lensing effect. Due to the presence of other massive galaxies that lie between the telescope and the target baby galaxy which act like a cosmic magnifying glass, the baby galaxy’s light has been warped.

Dr. Marcin Sawicki

There’s an upside, notes Dr. Sawicki, Canada Research Chair and Professor of Astronomy and Physics. “Because of Einstein’s lensing effect, we see the galaxy twice in two slightly different places in the sky. It’s like seeing a mirage in the desert – we see the same image twice because light takes two paths to reach our eye.” The galaxy’s light also appears up to 15 times brighter, making it easier to observe and study.

The images of the baby galaxy were taken earlier this year using the NIRCam instrument aboard the JWST, which was launched in December 2021. The astronomers’ study of this system was published recently in the peer-reviewed journal Monthly Notices of the Royal Astronomical Society.

Combining the power of  JWST and gravitational lensing has allowed the astronomers to get an intensely close look at this poster-child baby galaxy. “Studying this object has allowed us to gain some important insights about how young galaxies form. We learned that they get built from the merging of smaller sub-components and that during their assembly, the galaxies can undergo intense growth spurts of star formation,“ says Asada, a Kyoto University PhD student who is the lead author of the study and who is spending a year in Canada working on JWST data with Canadian astronomers.

Both Asada and Sawicki are members of the CANUCS collaboration which uses the power of JWST boosted by Einstein’s gravitational lensing to study the details of some of the smallest, youngest, and most distant galaxies in the Universe.  “The combination of JWST and gravitational lensing is letting us get a glimpse of the early Universe that was not possible until now. With our JWST CANUCS observations in hand, we look forward to many more discoveries about how galaxies such as our own Milky Way grew over cosmic time,” adds Dr. Sawicki.

Related links:

Meet the new face of retail: the Saint Mary's retail robot

A group of male students stand with Dr. Merabet in a hallway with their retail robot in the foreground. The robot is a tall slim black object.

L-R, Mohammad Rahimipour MSc in Applied Science; Professor Adel Merabet; Lucas Orychock first-year Diploma of Engineering; Uzair Tahir MSc in Applied Science; Abhishek Vijayakumar Latha MSc in Computing and Data Analytics; Francis Kuzhippallil MSc Computing and Data Analytics.

Students are arriving to Saint Mary’s University from Nova Scotia and around the world to create the next generation of robots.

Uzair Tahir

“It was a very big decision to leave my country, my family, come to Canada and start from zero,” says Uzair Tahir, a Master of Science in Applied Science student who left Pakistan to join the team in Dr. Adel Merabet’s lab on the third floor of the McNally Building. Only three months into his studies, he is enhancing his skills in computer vision and machine learning and can see a bright future. “My work here leads to a career in robotics and I see the potential for commercial application.”

The Saint Mary’s robot is the brainchild of the university’s David Sobey Centre for Innovation in Retailing and Services. The robot is just one of several technology-based innovations currently being pioneered at the Centre, all designed to transform our everyday shopping experience. The robot will certainly free up retail employees from humdrum tasks, but that is only the beginning. The real advantage is its ability to capture voluminous data about customers’ buying habits, which can lead to greater efficiency in inventory management and eventually enable retailers to anticipate shopper demands. Combine the robot with machine learning and AI, as the Saint Mary’s team is doing, and we are entering the Fourth Industrial Revolution which will transform how we work, conduct business and how we shop for goods and services.

Does this mean robots will commandeer grocery aisles or replace humans at your favourite big box store? No, but robots are finding their niche by enabling better data capture before and after point of sale, allowing managers to respond more quickly to customer demands for everything from potato chips to batteries.

Students work together on the retail robot in Professor Merabet’s lab

Francis Kuzhippallil and Abhishek Vijayakumar Latha, both current students in the Master of Science in Computing and Data Analytics program, see the project as a great gain for their future careers. They contributed to the development of algorithms and codes that enable the robot to take photos of products on store shelves and transmit the information without overlap or duplication, a key factor in planogram compliance, which lets retailers know exactly which products have been moved or purchased and when to restock.

“I want to be one step ahead and this project gives me that opportunity,” says Latha. For Francis Kuzhippallil, the project has boosted his portfolio. “Interviewers and colleagues are always interested to know more about this project. I am honoured to have a role.”

Francis Kuzhippallil

Abhishek Vijayakumar Latha

Mohammad Rahimipour, who is in the Master of Science in Applied Science program, came to Saint Mary’s from Iran in 2022. “My experience here has been amazing,” says Rahimipour. “Saint Mary’s University is very multi-cultural. The environment is collaborative; students know their input is valued and the professors support us.”

Mohammad Rahimipour

Rahimipour is the team leader—he has led the construction of version 3, a robot that is autonomous and able to operate without a human controller. New cameras allow it to take accurate photos at a greater distance, all advantages for a machine that will need to navigate around bargain shoppers or avoid a ‘cleanup on aisle two.’

“I have made a lot of changes to the robot. I see my progress every day as the robot performs and the project improves. I can’t wait to try out the robot in a real store. That’s the next step,” says Rahimipour.

Lucas Orychock

Entering his second year in Engineering at Saint Mary’s, Lucas Orychock from Bedford, Nova Scotia, knows it is unusual for an undergraduate student to gain this type of first-hand experience. During his summer work with Dr. Merabet’s team, he had the opportunity to learn how to use sophisticated tools to capture photos from high-quality cameras. “Achieving this level of exposure to hands-on research is motivating. There is a place for everybody’s input.”

For Professor Adel Merabet, the collaboration with the David Sobey Centre for Innovation in Retailing and Services and the participation of many students from programs such as Engineering, the Master of Science in Applied Science and Computing and Data Analytics, is the perfect example of a project that is interdisciplinary, combining the talents of many researchers and pragmatic, demonstrating real-world application and commercial potential.

Saint Mary's researcher part of international astronomy mission XRISM

High-energy astronomy mission will further understanding of the extreme universe

Saint Mary’s professor Dr. Luigi Gallo is one of two Canadians involved in an exciting new three-year mission, a collaboration led by JAXA (Japan Aerospace Exploration Agency) with important contributions from NASA (National Aeronautics and Space Administration) and the European Space Agency.

On Wednesday, September 6 at 8:42:11 p.m. ADT, a powerful satellite called XRISM (X-ray Imaging and Spectroscopy Mission) was launched on a rocket from the Tanegashima Space Center in Japan.

Watch the launch video (via SciNews):

A video screenshot of a rocket launch

Source: YouTube via SciNews

This new space observatory will contain two scientific instruments: Resolve, an X-ray spectrometer contributed by NASA; and Xtend, an X-ray imager. Some filter calibration for Resolve was carried out by NASA at the Canadian Light Source, a synchrotron facility in Saskatoon, SK.

XRISM is eight meters long, with the telescopes mounted at one end focusing X-ray light onto the detectors at the other end. To study X-ray sources in the universe, the XRISM satellite must be launched into space above the atmosphere, as X-rays cannot penetrate Earth’s atmosphere. XRISM was launched into space on the JAXA HII-A rocket; it will take several months to get it tested and calibrated before science data starts flowing.

The mission itself is essentially going to look at X-ray spectra with very high resolution—analogous to seeing very fine differences in the colours of optical light we can see with our eyes, explains Dr. Gallo. X-rays are a high-energy form of light that is undetectable to the human eye. The regions around black holes, as well as massive stars, supernovae and clusters of galaxies all emit X-rays.

Luigi wears a brown collared tshirt. He has short black hair.

Dr. Luigi Gallo

“The X-rays are basically produced in the hottest and most volatile environments in the universe,” says Dr. Gallo. “We’re studying extreme events like black holes, neutron stars, supernovas, and giant galaxy clusters. I’m looking at the black holes. That's what I study, and I'm looking at the X-rays coming from the regions closest to the black hole—basically, the material just before it disappears and falls beyond the black hole event horizon.”

Because these extreme events can’t be replicated in laboratories on Earth, these missions are crucial to furthering our understanding of the universe.

“We’re looking at extreme gravity, extreme temperatures, and huge magnetic fields—you can't produce those kinds of environments on Earth,” explains Dr. Gallo. “You can't study the physics and understand what happens to matter under those extreme conditions. The only way we can do that is by looking out into space.”

This work done by scientists on this mission, the previous 2016 Hitomi (ASTRO-H) satellite mission and others, pushes the limits of our understanding, and it’s important for generations to come.

“In science, we are always building on our current understanding,” says Dr. Gallo. “What we're doing today is building on the successes, and failures, of previous work over the past centuries, and we're just taking one relatively small step forward. As revolutionary as XRISM will be, ultimately, it’s one step forward that future generations will build on. There are always bigger things to come.”

Dr. Gallo completed his PhD at the prestigious Max Planck Institute in Garching, Germany, followed by postdoctoral research in Japan. He later joined the Saint Mary’s faculty and works with the Canadian Space Agency. He has been a professor in the Department of Astronomy and Physics at Saint Mary’s University since 2007. As part of the XRISM program at Saint Mary’s, graduate student Margaret Buhariwalla and postdoc Dr. Adam Gonzalez have also been able to participate in this research with Dr. Gallo.  


Sobey School undergrad contributes to COVID research for Scientific Reports

Kyle Morton BComm’23

Kyle Morton had yet to complete his undergraduate degree at Saint Mary’s University when he used machine learning in a ground-breaking study of the COVID-19 virus for Scientific Reports. To contribute to an article in the world’s largest scientific journal would be an accomplishment for more experienced researchers. For Morton, it was a miracle.

 “I remember when my economics professor, Yigit Aydede, told me the article had been accepted,” said Morton. “I jumped out of my seat and clapped my hands. It was another fantastic experience that Saint Mary’s made possible.”

Morton participated in the research project over six months during 2022, when he linked two large data sets, one from Statistics Canada and the other from Nova Scotia’s 811 system that recorded influenza symptoms during the first four months of the COVID-19 pandemic.

Yigit and Kyle sit in orange chairs looking at a laptop

Dr. Yigit Aydede and Kyle Morton work together examine data for their research

The resulting article by Saint Mary’s University’s Dr. Yigit Aydede, and Jan Ditzen, Free University of Bolzano, Italy, Identifying the regional drivers of influenza-like illness in Nova Scotia, Canada, with dominance analysis - Scientific Reports, unveils a new methodology, one that may assist health officials to both predict where viruses will spread and target interventions to halt them. Read more about the study.

“Working with large data sets, it is easy for errors to go unnoticed, because you cannot visually inspect them. The challenge was: How do you make sure there are no mistakes that will end up leading to the wrong conclusions when you actually perform your analysis?”

Morton sees machine learning as a third form of statistics, one that is predictive. Once he had prepared the data, making sure it was clean and free from errors, Professor Aydede and the research team used powerful algorithms to combine both sets. The results revealed the spatial as well as the temporal spread of the virus in real-time, something that was only possible due to the extraordinary and detailed data concerning COVID-19 symptoms, unparalleled access to Nova Scotia’s 811 records and the unique adaptation of algorithms originally designed for the finance industry.

The opportunity to study and work alongside Dr. Aydede in the Sobey School of Business has transformed Morton’s career aspirations, inspiring him to use machine learning to solve problems.

“I chose Saint Mary’s because it had a very good reputation for its business school. I liked the smaller yet international campus and the undergraduate focus. I gained a lot more experience, working with my peers and my professors one-on-one; I would not have had the same opportunity at other, larger institutions.”

While studying in the Bachelor of Commerce program at the Sobey School of Business, Morton was the recipient of two scholarships from donors to Saint Mary’s University: The Chrysler Canada Scholarship and the KPMG Future Leaders Scholarship. He also received the Fred and Ruth Stork German Studies Award from Waterloo University. This Fall, Morton begins his Master’s in Data Science at the London School of Economics, something he describes as “a dream come true.”

MTEI researcher passionate about innovation, growth and social impact in the Atlantic Region

KJ is a black man with a short beard and glasses. He stands addressing a room wearing a scarf that says Youth Council

Kjeld “KJ” Mizpah Conyers-Steede

Hailing from Bermuda, KJ—short for Kjeld Mizpah Conyers-Steede—has spent the past nine years in Atlantic Canada, primarily in New Brunswick and Nova Scotia. Presently rooted in Windsor, NS, KJ is passionately committed to driving economic progress in rural communities.

"My work revolves around social innovation and policy, designed to nurture a thriving innovation culture in these settings," shares KJ. "Having experienced life in both urban and rural areas, I strongly believe that rural communities hold untapped potential for innovation and growth."

During the COVID-19 pandemic, while working as a policy advisor for Spring Garden Business Association, KJ witnessed the challenges small businesses faced. This experience ignited his interest in economic development, which he had previously explored at an academic level. He further expanded his expertise in change management while working with Hockey Nova Scotia.

KJ established Catalyst Conversation Strategies, a consulting firm aimed at tackling complex challenges in collaboration with clients and municipalities. Through this venture, he engaged in solving significant problems through innovative approaches, bridging the gap between policy, academia and economic growth.

Inspiring Communities led KJ to his current research position, working alongside Dr. Chantal Hervieux, Director, Centre for Leadership Excellence – Impactlab at Saint Mary’s University, in the realm of regional innovation ecosystems. This journey has shed light on the lack of Black and Indigenous people of color (BIPOC) representation in economic development research, prompting KJ to strive for a more inclusive academia.

“Engaging in research has instilled in me a newfound confidence, spurring aspirations of teaching and bridging the gap between socially conscious mindset and business success. It’s a vehicle for transformation, allowing me to create a playground of ideas and engage with like-minded individuals who share my passion.”

KJ’s connection to Saint Mary's is deeply personal. His father's experience as an alumnus and the impact SMU had on his career inspired KJ to pursue his own journey at the university. KJ is enrolled in the Master of Technology, Entrepreneurship, and Innovation program in the Sobey School of Business. The program aligns with his interests in innovative implementation and understanding social impact. His broader vision revolves around connecting Atlantic Ocean-facing regions for collaborative problem-solving, particularly regarding economic resilience, climate change and social issues.

“Saint Mary's University. It's a place where I can harmonize my diverse background and unconventional approach to academia, while also contributing to the broader narrative of Canadian higher education.”

SMU Professor examines virus spread in Nova Scotia

Article by SMU Professor Dr. Yigit Aydede, published in Scientific Reports, examines virus spread in Nova Scotia

Dr. Yigit Aydede

Understanding how influenza and other viruses such as COVID-19 migrate from one community to the next is key to predicting where disease will spread and determining how to curtail its progress. A new article by Saint Mary’s University’s Dr. Yigit Aydede, and Jan Ditzen, Free University of Bolzano, Italy, published in Scientific Reports unveils a new methodology, one that may assist health officials to both predict where viruses will spread and target interventions to halt them.

The COVID-19 pandemic put mapping at the forefront of both the general public’s and public health experts’ tracking of the outbreak. Dr. Aydede’s research demonstrates the essential role of spatial and temporal analysis when tracking and predicting outbreaks between and within communities.
— Dr. Mathew Novak, Director, Wicked Problems Lab, Saint Mary’s University and Associate Professor, Department of Geography & Environmental Studies

The study, Identifying the regional drivers of influenza-like illness in Nova Scotia, Canada, with dominance analysis - Scientific Reports, is hailed by the journal’s editors as the first epidemiological study of its kind because it combines data concerning geographical or spatial spread with temporal spread (incidents over time), as opposed to more common epidemiological studies which examine temporal spread alone. 

The research was only possible due to a unique set of circumstances: unparalleled access to unique provincial healthcare data, new methodology, and the use of machine learning.

“Research Nova Scotia was proud to support Dr. Aydede’s work through the Nova Scotia COVID-19 Health Research Coalition,” says Stefan Leslie, CEO of Research Nova Scotia. “Better understanding relationships between viral transmission rates, air quality, and social mobility will help inform public health decision making, optimize allocation of healthcare resources, and ultimately benefit Nova Scotians.”

The ideal circumstances for data collection arose in Nova Scotia during the first four months of the COVID-19 pandemic. From March to July 2020, health officials asked Nova Scotians to report their symptoms to the province’s 811 telehealth system, where nurses painstakingly recorded and referred citizens reporting a minimum of four influenza-like symptoms. When the data was made available to researchers at Saint Mary’s University, they realized it was exceptional. Far more detailed than COVID-19 PCR tests which only confirm the presence or absence of disease, the symptom data from the 811 records reveals how viruses, in real-time, spread across Nova Scotia’s neighbourhoods and communities.

“This type of data that records symptoms as they arose, early in the pandemic, simply does not exist anywhere else in the world and is due to decisions taken by provincial health authorities that turned the Province of Nova Scotia, in effect, into a living laboratory,” says Dr. Aydede, Sobey Professorship in Economics and the study’s principal investigator. 

Dr. Mat Novak, Dr. Yigit Aydede and student, Kyle Morton BComm’23

The inability of scientists and health officials to predict where COVID-19 would strike was a key feature of the disease, one that remained a constant source of frustration throughout the pandemic. “We could watch the overall trajectory of the disease as the number of incidents rose and fell, and we understood the R factor (degree of virulence) but there was no ability to predict the spread of the disease on the ground,” says Dr. Aydede. “Thanks to the Nova Scotia COVID-19 Research Coalition and a grant from Research Nova Scotia we had an unbelievable data set that allowed us to look back at what occurred and identify the communities or locations that were driving the spread in Nova Scotia and further identify key socio-economic factors as well.” 

Dr. Aydede adapted algorithms recently developed for the finance industry to analyse economic ‘shock waves.’ “It is not always clear which features or factors are essential and which ones can be dropped without compromising predictive or statistical power,” says Dr. Aydede.  “Machine learning, particularly Tree-based methods such as the Random Forests algorithm used here, helps identify relevant predictors in large complex data sets with complex variables and factors.” 

The study analysed 112 Nova Scotian communities identified by postal codes and found that 18 communities were drivers of viral spread and then analysed 1,400 socio and economic factors, such home mortgage ownership, employment status and use of public transit that all coincided with the spread. 

“This important health-related study led by Dr. Aydede is a terrific example of many elements that allow our Saint Mary’s professors to establish research leadership in areas that may seem unexpected for our university,” says Dr. Adam Sarty, Dean of the Faculty of Graduate Studies and Research. “By applying methods used in economics to health-related problems and drawing on the expertise of both his international colleagues and the technical data-visualization talents of our multi-disciplinary research lab at Saint Mary’s, Dr. Aydede was able to partner with Research Nova Scotia and the provincial health authority to illustrate the power of such interdisciplinary networking.” 

Want to learn more about Machine Learning? 

Professor Aydede has just published his book for students of business and social science. Machine Learning Toolbox for Social Scientists | Applied Predictive An (taylorfrancis.com) 

About Scientific Reports 

Scientific Reports are open-access journals publishing original research from all areas of the natural sciences, psychology, medicine and engineering. It is the fifth most cited journal in the world and its editorial team, in partnership with an extensive network of peer reviewers, provides expert and constructive peer review. Scientific Reports is part of the Nature Portfolio.  

Archaeology field school illuminates everyday life in ancient Roman villa

Students at Saint Mary’s University are helping to peel back layers of the past at a Roman villa dating back more than 2,000 years in central Italy. A vivid story from ancient history is emerging at the Villa of Titus excavation site in the Apennine mountains, about 70 kilometres northeast of Rome.

“Based on the artifacts recovered this year, it seems mostly likely that the building was residential,” says Dr. Myles McCallum, Associate Dean of Arts and co-director of the archaeological research project that is also home to a field school. “We found toiletry items such as bronze tweezers and spoons for applying makeup, bits of furniture one might find in a Roman house and lots of pottery used for cooking, all of which indicate a domestic use of the building.”

Eleven Saint Mary’s students and two alumni participated in the field school this May and June, along with six students and several researchers from McMaster University. Offered by the Ancient Studies program in our Department of Languages and Cultures, the study abroad opportunity launched in 2018 and also took place in 2019 and 2022. By working on an active research site, students learn the basics of environmental archaeology, excavation and artifacts analysis, and some even contribute to published research reports and articles.   

“These skills all build on each other. You dig things up physically, clean things off and take pictures and drawings of them to try and understand and identify them. You measure them, you fill out paperwork, you log information into a database,” says McCallum.

“You put it all together and it adds to that understanding of what life was like 2,000 years ago in a different part of the world. It engages every part of your brain, the frontal lobe big-picture stuff. So that’s a big deal for students because no matter what you do in life, you’re going to have to be able to pose questions and figure out how to answer them.”

The research follows a theory that the monumental two-storey structure was built in the first century BCE for the emperor Titus, who reined 79-81 CE during the Second Dynasty of the Roman Empire. As more of the intact brick walls emerge from the hillside, “we understand much more about the building’s overall plan, as a villa with a central courtyard on a large terrace,” says McCallum.

Researchers found evidence this year that the complex was occupied for about 120 years. They also discovered signs of a previous building at the site, which had an adjacent well and large garden area.

“So people were there for a few hundred years in the smaller building, then built something much bigger on top of it. We also know that the villa went out of use in the second century CE, but we’re not entirely sure why,” McCallum says.

The main goal of the project is to reconstruct the daily lives of the enslaved workers, the subaltern people who grew crops, made bricks and wine, pressed olives for oil and engaged in cleaning, building, mining, woodworking and metalworking. Much of their economic activity may have taken place in the building’s basement (cryptoporticus), which had a large storage room, a door where carts could load and unload, and possibly also living quarters.

“Next year, we’re going to expand our exploration of this basement area,” says McCallum. The first step will require heavy equipment to remove hundreds of tonnes of stone and earth that had collapsed into the lower level, and then students will have a chance to excavate.

“It’s interesting because we think we know a lot about slaves during the Roman Empire, but nobody wrote about them, at least not from a social-historical perspective. So archaeological evidence is really the only direct evidence we have of what their lives were like. As a focus of research, it’s pretty recent,” says McCallum.  

The villa sits high above the Velino Valley’s Lago di Paterno, a freshwater lake considered to be Italy’s geographical center and a once-sacred site connected to the goddess Vacuna. The University of London is conducting archaeobotanical research there with pollen coring, studying changes to the landscape and its flora and fauna over a 15,000-year period. “So that will be interesting, to tie in the human relationship with the landscape and environmental history too,” says McCallum.

Other notable finds have been oil lamps, bronze coins, glass perfume bottles, mosaic flooring and tiles, and transport amphorae (containers) that carried goods from as far as Spain and North Africa. Also intriguing is evidence of a ritual to seal off a well—including a silver mirror and a baby suckling pig, both sacrificed in hopes of a divine blessing for the house being built over the well.

The Villa of Titus project team also includes co-director Dr. Martin Beckmann of McMaster University and researchers from universities in Italy, the U.K. and the U.S. With support from the Social Sciences and Humanities Research Council, Saint Mary’s is building on its existing strengths in archaeology research and education, deepening its cultural exchanges and academic connections with Italy’s museums, archaeologists and academic community.

“Experiential learning and study abroad opportunities are an important element of what we do in our program and in the Faculty of Arts,” says McCallum. “We’re working on developing more of these opportunities, and our students are embracing the chance to do this.”

Three other field schools took place in Italy this summer, including Sacred Space: Rome, from Ancient to Modern, offered by the Department for the Study of Religion, plus two in the Pisticci region, under a new dual stream Colonialism and Migration: Ancient and Modern field school:

  • the SJCS Migrant Justice Field School, offered by the Department of Social Justice & Community Studies; and

  • the Metaponto Archaeological Field School, led by Dr. Sveva Savelli and the Ancient Studies program for the second year in a row


Crunching the numbers: student-led project uses open data to improve the lives of Nova Scotians

Matthew and Tasneem sit at a picnic table while Rahul stands behind them, they all look at a laptop screen. They are seated on the waterfront.

Sobey School of Business Professor Dr. Matthew Boland and Master of Business Analytics students Tasneem Quazi and Rahul Kashyap.

Earlier this year, professor Matthew Boland and a team of graduate research assistants at Saint Mary’s University embarked on a new data analytics project. 

Armed with open data from the Nova Scotia government, the team had a simple but shared goal—to use that data to better the lives of Nova Scotians.

Matthew Boland sits on a blue chair in the lobby of the Sobey School building. He has cropped dark hair and wears a striped button up shirt.

“It's really important to try to make some local impact” - Matthew Boland.

Boland is an accounting professor at the Sobey School of Business at Saint Mary's University. He created the project for his students in the Master of Business Analytics program to show the local importance of data analytics. 

“It's really important to try to make some local impact,” says Boland. “That's what this project was about for me and our students.” 

The inspiration for the project struck last year when Boland stumbled across the Nova Scotia Open Data Portal. This website was launched in 2016 to make government data more accessible to the public. It includes information on everything from crime statistics to Crown land in the province.

The website presented an opportunity for Boland, who specializes in advanced data analytics. Although the Open Data Portal is available for free to everyone, he knew most people wouldn’t have the time or resources needed to make sense of the data. 

He decided to bring the website to his students.

“I asked them to start looking through the data…and think about a research question that this data could answer that would be of interest to Nova Scotians,” says Boland, who is from Berwick in the Annapolis Valley. 

Boland invited the students to use that data to study topics of their choosing, so long as they related to the province. He also asked students to combine their data with other available data sets to find new insights into these topics. 

The resulting studies covered a range of issues. One used data on fishing and aquaculture to predict the migratory patterns of invasive fish species in the province. Another looked at the relationship between air pollution and rates of asthma in Nova Scotia counties. 

Boland says he hopes these studies will help lawmakers and regulators find new ways to safeguard health and well-being in the province—from protecting native fish to keeping the air clean.

The students plan to make their findings and methodologies available for free to the public. Those interested will be able to use the code the students created to analyze the data, allowing them to replicate the study. 

Boland’s project is happening amidst a larger push toward better data analytics solutions in the province. In March, the Nova Scotia government announced it would spend $25 million to expand healthcare data analytics and management programs at Saint Mary's.

Moving forward, Boland’s project will be formalized as a class offered to graduate students. He hopes it will inspire others to pursue their own research, using data analytics to better the world around them.

“If some of this someday could help inform regulation or just be one small piece to a larger puzzle that helps…I think that would be pretty awesome,” says Boland. 

Building confidence in chemistry: Dr. Mary Sheppard’s research supports how students learn in her lab

Dr. Mary Sheppard wins the Father William A. Stewart Medal for Excellence in Teaching. Her PhD research focused on how students learn chemistry.

L-R: Alumni Association member Fiona King BComm’93, SMU President Dr. Robert Summerby-Murray, and Dr. Mary Sheppard at Spring Convocation.

First-year chemistry classes introduce students to an exciting field of science—with new terminology and research methods, and the opportunity to study in a university laboratory setting for the first time.

Arriving at Saint Mary’s from Halifax or homes around the world, students’ first university classes can be an exciting, eye-opening experience—and a big adjustment.

Luckily, these new students at Saint Mary’s have an award-winning professor who understands the challenges they face. As a first-generation university graduate from Taylor’s Bay, Newfoundland and Labrador, Dr. Mary Sheppard still remembers leaving her small community for Memorial University.

“Leaving my family behind and going to the ‘big city’ of St. John’s was huge for me, and I understand what our rural students, and those from close-knit communities, are missing,” said Dr. Sheppard.

Finding the right path in her academic career meant being flexible and open to new paths.

“At first I wanted to be a pharmacist,” explained Dr. Sheppard. “When I was growing up in rural Newfoundland there was no access to career counseling. If you got good grades you were told you should be a pharmacist, nurse or doctor…I didn’t want to be a nurse or doctor—too much blood.”

It was her first-year chemistry professor who suggested that pharmacy might not be the best fit for her, and offered a chance to do a summer project that led to more than two decades studying and teaching chemistry.

“Growing up, I didn’t even know that a career in chemistry was a possibility,” said Dr. Sheppard. “I tell my students to keep an open mind. You don’t have to stick with what you first thought you wanted to be—I wouldn’t have been happy as a pharmacist.” 

Along with teaching first-year classes as a senior lecturer, for the past five years, Dr. Sheppard was also a student, pursuing a PhD at the University of New Hampshire.

Dr. Mary Sheppard

Dr. Sheppard’s PhD research has made her uniquely qualified for her role teaching at the university level. Her interest in how students learn led her to pursue the topic of chemistry education research for her doctoral degree. She explains that during the first few weeks of classes, she intentionally slows the pace to let students adjust to the environment.

“For some students, the lab can be very daunting because they didn't have a lab in high school—coming from a big city high school is not the same as any rural area in the world,” she says. “As part of our student success program, their first experience in that room isn’t an experiment—they go into the space as part of a scavenger hunt around campus…it helps them get oriented first.”

Once the term is underway, students will look forward to performing guided inquiry experiments along with a more traditional curriculum of procedural experiments. Guided inquiry prepares students for real-world work by challenging them to design an experiment to tackle a problem, tweaking it in the lab and submitting their group’s finalized experiment.

“Learning how to approach a problem teaches creative thinking— if the procedures don’t all work out perfectly, they learn more from that,” she says.

In her PhD research, Dr. Sheppard looked at how students learn about pH buffers, a chemistry topic that many find difficult to grasp. “I was trying to figure out why is this so tough for students—what are the roadblocks,” she explained. First, she interviewed students at the University of New Hampshire using a “think out loud” approach, recording them as they worked through problems. A qualitative analysis followed, allowing her to design teaching strategies that matched students’ successes and challenges.

“It was interesting to see that while the American students might have different backgrounds, they have the same or similar challenges that our students have.”

Her last goal for her PhD was to design a teaching strategy that addresses those challenges, setting students up for success. After many years of teaching, the instinct to help students is strong.

“You have to separate yourself from the student, you can’t help them because you want to see what they’re thinking and what the issues are,” she explained. “I think I ground the enamel off my teeth because I kept wanting to jump in and help.”

This research is beneficial to students in the classroom and lab and may lead to changes in how the topic is introduced in textbooks.

“Textbooks come from an expert point of view, but if you’re not an expert yet, that approach can be frustrating,” she explained. “One of the tenets of teaching pedagogy is that it’s not about knowing the topic, it’s about knowing how to teach it.”

Dr. Sheppard explained that like most PhD topics, hers was very narrow in focus. But she says it also exposed her to literature and people at conferences who are talking about different ways to teach.

“Understanding better how students learn at a higher level, it’s easier to transfer that knowledge to other areas of chemistry,” explained Dr. Sheppard.

Dr. Sheppard’s history of successful teaching and her drive to continuously build on that success have been recognized. This spring she won the Father William A. Stewart. S.J. Medal for Excellence in Teaching, the top teaching award at Saint Mary’s. The award is determined by nominations from alumni, students and colleagues and is awarded to a professor who has made significant contributions to the education of Saint Mary's students through excellence in teaching and service.

Father Stewart was known for his strong beliefs in promoting accessible education to marginalized communities and was also very much involved in promoting teaching innovation and excellence on campus. The award honours this legacy.

After receiving the award at the May convocation ceremony, Dr. Sheppard travelled to the U.S. where she received her PhD at the University of New Hampshire.

Congratulations Dr. Sheppard!

Documentary by Dr. Kate Ervine reveals the unseen ways we contribute to greenhouse gas emissions

Dr. Kate Ervine, The Carbon Cage

When you think of your carbon footprint, you may think of your daily commute or home energy consumption. One Saint Mary’s professor is shedding light on the other unseen ways we contribute to greenhouse gas emissions every day.

Kate Ervine is an associate professor of Global Development Studies. Last November, her short documentary, “The Carbon Cage,” was published by Scientific American

“Perhaps we can start reimagining a world where we reprioritize things that contribute to people’s well-being” - Dr. Kate Ervine

Ervine co-created the documentary with journalist and documentary filmmaker Duy Linh Tu through a grant from the Global Reporting Centre. It highlights how wealthy countries like the United States and Canada have become trapped in a cycle of fossil fuel reliance, and how attempts to combat climate change sometimes don’t address the root of the problem.

“I set out to explore the global political economy of climate change and the centrality of carbon to our economies, our society and our lives, and why that makes climate change hard to address,” says Ervine. 

“It's not that we're not doing some effective things, but there’s a lot of delay and distraction.”

Ervine traces the roots of contemporary climate change to the rise of our current economic system during the Industrial Revolution. Since then, demands for unchecked growth in production, consumption and energy use have contributed to record-high CO2 emissions.

Ervine’s documentary shows that the last time Earth experienced similar levels of atmospheric CO2 was more than four million years ago.

“Fossil fuels have become central to powering economic growth,” says Ervine. “They still provide roughly 80 per cent of global energy.” 

Changing this system is no easy task. Ervine worked her way through university and graduate school with jobs at an automotive assembly plant and steel mill in her home province of Ontario. These jobs were in carbon-intensive industries, but they provided her—and other families—with a secure livelihood. 

“It's a challenge when we're talking about the kinds of deep transformations that need to happen because so many people's lives are going to be impacted in profound ways,” Ervine says. “It can provoke a lot of fear because you're asking, ‘What does this mean for my job? What does it mean for my family?’”

Ervine’s research looks at how just transitions and sustainable development for all might be possible within the context of carbon dependency. 

For Ervine, cutting emissions is key to combatting climate change. But as the effects of climate change have worsened, she says these reductions are not happening fast enough.

Ervine points to investments in things like carbon offsets as a way businesses and governments are delaying real, lasting change. In recent years, voluntary carbon offsetting has ballooned to a more than $2-billion industry. But research shows significant problems with carbon offsetting, which doesn’t actually lower emissions. 

“Part of my research has been about saying, when we know what needs to be done and how significant the problem is, why do we design policies that are not particularly effective?” says Ervine. 

As we look forward to a changing future, Ervine says more investments need to be made in phasing out fossil fuels and laying the groundwork for transformative and equitable change.  Democratic green energy, accessible mass public transit and sustainable food systems are just some of our many options. 

“Perhaps we can start reimagining a world where we reprioritize things that contribute to people’s well-being,” says Ervine. “It does require change, but we might actually get some pleasure and joy out of it.”

The Carbon Cage by Kate Ervine and Duy Linh Tu

Meet your Valedictorian: Emperor Ben Robertson MTEI'23

Emperor Ben Roberston MTEI’23

When Emperor Ben Robertson was selecting a school to obtain his Master of Technology Entrepreneurship & Innovation degree, he knew Saint Mary’s University was the right choice.

The university's commitment to providing high-quality education, unique experiential learning opportunities, a vibrant location and extensive student support services contributed to his decision.

His education has provided him with a strong foundation in the principles and practices of technology entrepreneurship and equipped him with the knowledge to help businesses thrive in the digital age.

Q&A with Emperor Ben Robertson

Where is your hometown?: Accra, Ghana.

What was your favourite class?: Out of all the classes I took in my MTEI program, my favourite courses were Technology Entrepreneurship and Tech Strategy and Productivity.

What was the best piece of advice you received?: The most profound piece of advice that has had a significant impact on my life did not come from anybody I know personally. It was a quote that I stumbled upon while walking down Barrington Street that read, "Think and act like failure is impossible for you." This simple yet powerful quote has transformed my perspective on how I approach my goals.

Which instructor had the biggest impact on you?: Throughout my academic journey, I was fortunate to have had many exceptional professors who delivered transformative lectures. However, one professor in particular, Dr. Ramesh Venkat, had an enormous impact on me. Thanks to Dr. Venkat's exceptional teaching, I gained a deeper understanding of marketing and developed valuable skills that have been essential to my career. His influence on me has been invaluable, and I am grateful for the impact he has had on my personal and professional growth.

What was your thesis research?: I collected data on the challenges that businesses faced and explored ways to create opportunities for them to succeed in their respective locations. One of the most intriguing aspects of this research was its timing, as it was conducted during the post-COVID period when businesses were transitioning to new ways of operating. By talking to business owners, I gained valuable insights into their challenges and how they were adapting to the changing business environment.

Overall, this experience gave me a unique opportunity to explore the challenges and opportunities facing small businesses in the Halifax-Dartmouth area. It also allowed me to develop key skills that are essential in any business environment, including communication, research and problem-solving skills.

What advice would you give to your younger self?: If I could go back and speak to my younger self, I would tell them to try new things and challenge themselves as much as possible. I would encourage them to embrace failure as a natural part of the learning process and to adopt a mindset of "failing fast and failing often."

The reason is simple: by trying new things and taking risks, we are more likely to stumble and fail along the way. However, each failure provides an opportunity to learn and grow; the more we fail the faster we can learn and adapt. This can lead to faster progress and success in the long run.

Do you volunteer in the community?: As a passionate individual interested in promoting economic growth and prosperity, I volunteer as a member of the African Nova Scotian Road to Economic Prosperity Youth Council (REPYC). This council is an initiative aimed at promoting economic growth and prosperity among African Nova Scotian communities in Nova Scotia.

What are your future goals?: I am excited about the future and the opportunities that lie ahead. I am confident that with my skills, knowledge and experience, I will be able to make a meaningful contribution to a multinational company while also pursuing my passion for entrepreneurship and innovation.

Spring Convocation takes place May 17-19, 2023. Watch the ceremonies live at smu.ca/graduation or on our Facebook page.