|Prospects for pyrolysis technologies in the bioenergy sector: A review|
P Roy, G Dias
Renewable and Sustainable Energy Reviews 77, 59-69, 2017
|When too much isn’t enough: Does current food production meet global nutritional needs?|
KB Kc, GM Dias, A Veeramani, CJ Swanton, D Fraser, D Steinke, E Lee, ...
PloS one 13 (10), e0205683, 2018
|Biotechnology or organic? Extensive or intensive? Global or local? A critical review of potential pathways to resolve the global food crisis|
E Fraser, A Legwegoh, KC Krishna, M CoDyre, G Dias, S Hazen, ...
Trends in Food Science & Technology 48, 78-87, 2016
|Life cycle perspectives on the sustainability of Ontario greenhouse tomato production: Benchmarking and improvement opportunities|
GM Dias, NW Ayer, S Khosla, R Van Acker, SB Young, S Whitney, ...
Journal of Cleaner Production 140, 831-839, 2017
|Carbon footprint of dietary patterns in Ontario, Canada: A case study based on actual food consumption|
A Veeramani, GM Dias, SI Kirkpatrick
Journal of cleaner production 162, 1398-1406, 2017
|Gaseous mercury emissions from natural sources in Canadian landscapes|
WH Schroeder, S Beauchamp, G Edwards, L Poissant, P Rasmussen, ...
Journal of Geophysical Research: Atmospheres 110 (D18), 2005
|A diode laser based gas monitor suitable for measurement of trace gas exchange using micrometeorological techniques|
GC Edwards, GW Thurtell, GE Kidd, GM Dias, C Wagner-Riddle
Agricultural and Forest Meteorology 115 (1-2), 71-89, 2003
|Nanotechnology for a sustainable future: Addressing global challenges with the international network4sustainable nanotechnology|
L Pokrajac, A Abbas, W Chrzanowski, GM Dias, BJ Eggleton, S Maguire, ...
ACS nano 15 (12), 18608-18623, 2021
|Energy and greenhouse gas intensity of corn (Zea mays L.) production in Ontario: A regional assessment|
S Jayasundara, C Wagner-Riddle, G Dias, KA Kariyapperuma
Canadian Journal of Soil Science 94 (1), 77-95, 2014
|Development and evaluation of a sampling system to determine gaseous Mercury fluxes using an aerodynamic micrometeorological gradient method|
GC Edwards, PE Rasmussen, WH Schroeder, DM Wallace, ...
Journal of Geophysical Research: Atmospheres 110 (D10), 2005
|Life cycle assessment of thermal energy production from short-rotation willow biomass in Southern Ontario, Canada|
GM Dias, NW Ayer, K Kariyapperuma, N Thevathasan, A Gordon, ...
Applied Energy 204, 343-352, 2017
|Review of household food waste quantification methods: Focus on composition analysis|
SV Withanage, GM Dias, K Habib
Journal of Cleaner Production 279, 123722, 2021
|Implications of land class and environmental factors on life cycle GHG emissions of Miscanthus as a bioenergy feedstock|
D Sanscartier, B Deen, G Dias, HL MacLean, H Dadfar, I McDonald, ...
Gcb Bioenergy 6 (4), 401-413, 2014
|A tunable diode laser system for ammonia flux measurements over multiple plots|
JS Warland, GM Dias, GW Thurtell
Environmental Pollution 114 (2), 215-221, 2001
|Differentiating natural and anthropogenic sources of metals to the environment|
GM Dias, GC Edwards
Human and Ecological Risk Assessment 9 (4), 699-721, 2003
|Supplying renewable energy for Canadian cement production: Life cycle assessment of bioenergy from forest harvest residues using mobile fast pyrolysis units|
NW Ayer, G Dias
Journal of Cleaner Production 175, 237-250, 2018
|Principles for responsible metals supply to electronics|
SB Young, A Fonseca, G Dias
Social Responsibility Journal 6 (1), 126-142, 2010
|Sources of variability in mercury flux measurements|
GC Edwards, PE Rasmussen, WH Schroeder, RJ Kemp, GM Dias, ...
Journal of Geophysical Research: Atmospheres 106 (D6), 5421-5435, 2001
|LCM of Metals Supply to Electronics: Tracking and Tracing'Conflict Minerals'|
SB Young, G Dias
Available at SSRN 1875976, 2011
|Material and visceral engagements with household food waste: Towards opportunities for policy interventions|
I Urrutia, GM Dias, J Clapp
Resources, Conservation and Recycling 150, 104435, 2019