Dr. Janok Bhattacharya‘s research program is mostly focused on investigating the sequence stratigraphy and 3D facies architecture of shelf, shallow marine, paralic, and fluvial depositional systems. Although much industry exploration effort is currently focused on deepwater depositional systems, about 50% of global oil production is currently from shallow marine, paralic and fluvial strata. Despite the continued importance of these reservoir types, ours is one of the only research programs devoted to this important area.

I am also investigating the interrelationships between structure and stratigraphy as a paired process. Specific projects are aimed at examining the effects of meso-scale tectonic structure on high-frequency sequence stratigraphic architecture in foreland basins and the relationship between sedimentation processes and formation of growth faults associated with deltaic depositional systems.

My research program is founded on the fundamentals of sedimentology, fieldwork, facies analysis, and sequence stratigraphy. Our program also crosses the boundaries between geophysics and engineering disciplines and provides an important environment for teamwork and integration that we believe provides a model for industry.

Dr. Janok Bhattacharya‘s research program is mostly focused on investigating the sequence stratigraphy and 3D facies architecture of shelf, shallow marine, paralic, and fluvial depositional systems. Although much industry exploration effort is currently focused on deepwater depositional systems, about 50% of global oil production is currently from shallow marine, paralic and fluvial strata. Despite the continued importance of these reservoir types, ours is one of the only research programs devoted to this important area.

I am also investigating the interrelationships between structure and stratigraphy as a paired process. Specific projects are aimed at examining the effects of meso-scale tectonic structure on high-frequency sequence stratigraphic architecture in foreland basins and the relationship between sedimentation processes and formation of growth faults associated with deltaic depositional systems.

My research program is founded on the fundamentals of sedimentology, fieldwork, facies analysis, and sequence stratigraphy. Our program also crosses the boundaries between geophysics and engineering disciplines and provides an important environment for teamwork and integration that we believe provides a model for industry.

My research areas are on ground, airborne, and satellite remote sensing of vegetation from the leaf to the globe with special focus on:

1. plant structural and photosynthetic traits;
2. land surface and carbon uptake phenology;
3. terrestrial ecosystem primary productivity and greenness;
4. global change impact on terrestrial ecosystem productivity; and
5. terrestrial carbon cycle modelling.

I have done, and am doing, remote sensing of vegetation studies at ecological monitoring sites (e.g., eddy covariance tower networks); on improved product development at regional scale (e.g., leaf area index, primary productivity and land surface phenology); and on global change impact assessment on terrestrial ecosystem productivity at regional (e.g., circumpolar land surface phenology and atmospheric CO2 seasonality) and global scales. Besides remote sensing data, I use ground measurements of plant biophysical variables, photosynthetic traits, atmospheric CO2 concentration, eddy covariance CO2 fluxes and plant phenology; gridded climate data records; terrestrial ecosystem carbon cycle models; and Earth System Model (ESM) outputs.

My research areas are on ground, airborne, and satellite remote sensing of vegetation from the leaf to the globe with special focus on:

1. plant structural and photosynthetic traits;
2. land surface and carbon uptake phenology;
3. terrestrial ecosystem primary productivity and greenness;
4. global change impact on terrestrial ecosystem productivity; and
5. terrestrial carbon cycle modelling.

I have done, and am doing, remote sensing of vegetation studies at ecological monitoring sites (e.g., eddy covariance tower networks); on improved product development at regional scale (e.g., leaf area index, primary productivity and land surface phenology); and on global change impact assessment on terrestrial ecosystem productivity at regional (e.g., circumpolar land surface phenology and atmospheric CO2 seasonality) and global scales. Besides remote sensing data, I use ground measurements of plant biophysical variables, photosynthetic traits, atmospheric CO2 concentration, eddy covariance CO2 fluxes and plant phenology; gridded climate data records; terrestrial ecosystem carbon cycle models; and Earth System Model (ESM) outputs.

Dr. Gita Ljubicic is a Geographer with training in the natural and social sciences, who works primarily at the intersection of cultural and environmental geography. Her work is driven by a deep commitment to respecting and learning from Indigenous knowledge alongside science in order to address complex socio-ecological issues. She and her research team are dedicated to a cooperative, community-driven approach to research that involves developing and fostering working relationships with Indigenous experts and organizations throughout all stages of the research process. Gita has primarily worked with Inuit community members and organizations in Nunavut, but through collaborations she have been involved in research with Inuit, M?©tis, and First Nations communities across the Yukon, Northwest Territories, Nunavut, Nunavik (northern Qu?©bec), and Nunatsiavut (northern Labrador).

Gita has worked with Inuit communities and academic partners to learn from Inuit knowledge about sea ice, caribou, plants, and water in relation to implications of climate change, importance in northern livelihoods and wellbeing, and contributions to decision-making from local to national scales. In all projects the research process itself is an important focus, where she and her team explore: i) collaborative approaches to research; ii) ethics of informed consent in a cross-cultural context; iii) participatory mapping and knowledge representations; and, v) qualitative data management practices. Taken together, the outcomes of learning from Indigenous knowledge, and working together effectively, contribute to efforts to bring together diverse perspectives and evidence for more representative decision-making. Gita and her research team have been engaged in various environmental monitoring, co-management, eduction, and cultural heritage initiatives as an important means of mobilizing research results.

To learn more about Dr. Ljubicic visit https://straightupnorth.ca/gita-ljubicic/, and for the StraightUpNorth team visit https://straightupnorth.ca/team/

Dr. Gita Ljubicic is a Geographer with training in the natural and social sciences, who works primarily at the intersection of cultural and environmental geography. Her work is driven by a deep commitment to respecting and learning from Indigenous knowledge alongside science in order to address complex socio-ecological issues. She and her research team are dedicated to a cooperative, community-driven approach to research that involves developing and fostering working relationships with Indigenous experts and organizations throughout all stages of the research process. Gita has primarily worked with Inuit community members and organizations in Nunavut, but through collaborations she have been involved in research with Inuit, M?©tis, and First Nations communities across the Yukon, Northwest Territories, Nunavut, Nunavik (northern Qu?©bec), and Nunatsiavut (northern Labrador).

Gita has worked with Inuit communities and academic partners to learn from Inuit knowledge about sea ice, caribou, plants, and water in relation to implications of climate change, importance in northern livelihoods and wellbeing, and contributions to decision-making from local to national scales. In all projects the research process itself is an important focus, where she and her team explore: i) collaborative approaches to research; ii) ethics of informed consent in a cross-cultural context; iii) participatory mapping and knowledge representations; and, v) qualitative data management practices. Taken together, the outcomes of learning from Indigenous knowledge, and working together effectively, contribute to efforts to bring together diverse perspectives and evidence for more representative decision-making. Gita and her research team have been engaged in various environmental monitoring, co-management, eduction, and cultural heritage initiatives as an important means of mobilizing research results.

To learn more about Dr. Ljubicic visit https://straightupnorth.ca/gita-ljubicic/, and for the StraightUpNorth team visit https://straightupnorth.ca/team/

Dr. Elli Papangelakis is an Assistant Professor in the School of Earth, Environment & Society at McMaster University. She has a multidisciplinary education background, with a BSc in Physics and Geography (University of Toronto), a MSc in Geography (UBC), and a PhD in Civil and Environmental Engineering (University of Waterloo). Her research focuses on the effects of urbanization and land-use change on the geomorphic processes of rivers through a combination of fieldwork, laboratory, and GIS research methods. Her primary goal is to better understand sediment transport processes, morphologic adjustments, and physical habitat characteristics of urban rivers. She is particularly interested in urban river restoration and management, specifically on assessing the performance of different restoration designs and in the development of novel river management strategies that bring together the most advanced science and technology from different fields. Most of her research focuses is confused in Southern Ontario, which provides an excellent example of heavily-urbanized and managed fluvial environments. She also works with salmon habitat restoration projects in British Columbia.

Examples of exciting new approaches her research group employs:

• Gravel augmentation to rehabilitate urban rivers
• Measuring geomorphic parameters using UAV (drone) based imaging
• GIS-based erosion sensitivity models
• Citizen science for geomorphic monitoring

Dr. Elli Papangelakis is an Assistant Professor in the School of Earth, Environment & Society at McMaster University. She has a multidisciplinary education background, with a BSc in Physics and Geography (University of Toronto), a MSc in Geography (UBC), and a PhD in Civil and Environmental Engineering (University of Waterloo). Her research focuses on the effects of urbanization and land-use change on the geomorphic processes of rivers through a combination of fieldwork, laboratory, and GIS research methods. Her primary goal is to better understand sediment transport processes, morphologic adjustments, and physical habitat characteristics of urban rivers. She is particularly interested in urban river restoration and management, specifically on assessing the performance of different restoration designs and in the development of novel river management strategies that bring together the most advanced science and technology from different fields. Most of her research focuses is confused in Southern Ontario, which provides an excellent example of heavily-urbanized and managed fluvial environments. She also works with salmon habitat restoration projects in British Columbia.

Examples of exciting new approaches her research group employs:

• Gravel augmentation to rehabilitate urban rivers
• Measuring geomorphic parameters using UAV (drone) based imaging
• GIS-based erosion sensitivity models
• Citizen science for geomorphic monitoring

Dr. James Michael Waddington’s research in ecohydrology studies the ecological and hydrological processes that underlie the structure and function of wetlands and watershed ecosystems and the distribution, movement, and quality of water.

With his research foundation firmly in hydrology and by adopting a watershed ecosystems framework, he uses innovative field experimental manipulations and ecohydrological modelling to understand watershed interactions of water, vegetation, soil and greenhouse gas exchange. His research examines the effects of wildfire, drought and resource extraction on watershed ecohydrology with a focus on ecosystems, such as peatlands, that may be sensitive to changes in hydrology. He is developing new wetland restoration approaches and designs for resource managers, fire managers and industry partners to enhance watershed resilience to climate change.

Dr. James Michael Waddington’s research in ecohydrology studies the ecological and hydrological processes that underlie the structure and function of wetlands and watershed ecosystems and the distribution, movement, and quality of water.

With his research foundation firmly in hydrology and by adopting a watershed ecosystems framework, he uses innovative field experimental manipulations and ecohydrological modelling to understand watershed interactions of water, vegetation, soil and greenhouse gas exchange. His research examines the effects of wildfire, drought and resource extraction on watershed ecohydrology with a focus on ecosystems, such as peatlands, that may be sensitive to changes in hydrology. He is developing new wetland restoration approaches and designs for resource managers, fire managers and industry partners to enhance watershed resilience to climate change.

Dr. Allison Williams is a Professor in the School of Earth, Environment & Society. She is trained as a health geographer in quantitative, qualitative, and mixed-methods research. She holds a Bachelors of Arts degree from Bishop’s University, a Masters of Arts degree from the University of Toronto, and a Doctor of Philosophy from York University. In 2008. She engages in social justice research to inform policy and program change. Most recently, she is leading a partnership grant to create carer-inclusive workplaces.

Dr. Allison Williams is a Professor in the School of Earth, Environment & Society. She is trained as a health geographer in quantitative, qualitative, and mixed-methods research. She holds a Bachelors of Arts degree from Bishop’s University, a Masters of Arts degree from the University of Toronto, and a Doctor of Philosophy from York University. In 2008. She engages in social justice research to inform policy and program change. Most recently, she is leading a partnership grant to create carer-inclusive workplaces.