Edificio Porta dell'Innovazione - Piano 2 - via della Libertà 12 - 30175 Venezia Marghera (VE), Italy
+39 041 2346055
Malcolm Mistry holds a PhD in Science and Management of Climate Change from Ca’Foscari University of Venice. His PhD thesis focused on impacts of climate change and variability on crop yields using emulators and empirical models. Malcolm holds a Master’s in Weather and Climate Modelling from the University of Reading (U.K.) where his dissertation examined the Intra-seasonal variability of Indian Summer Monsoon (ISM) in Observed and General Circulation Model (GCM).
Apart from being a post-doctoral researcher at Ca’ Foscari University of Venice, Malcolm also holds a scientific affiliation with Fondazione Centro Euro-Mediterraneo sui Cambiamenti Climatici (CMCC – ECIP Division). He has previously worked as a Research Associate at Barcelona Supercomputing Centre (Spain), where he gained expertise in handling large climate datasets, running Earth System Models (ESM), numerous scientific data management and spatial analysis tools. Malcolm’s research interests include big data, sectoral impacts of climate change and variability, development and application of climate extreme indices, and last but not the least, creating awareness of the science of climate change and its potential impacts by giving talks in local schools. Prior embarking on a research career, Malcolm worked as a navigating officer onboard research and seismic survey ships, engaged in data acquisition of sea bed profiles for offshore oil and gas industry.
- Global Temperature Effects on Economic Activity and Equity: A Spatial Analysis
- Assessing future vulnerability and risk of humanitarian crises using climate change and population projections within the INFORM framework
- Global vulnerability of crop yields to climate change
- The role of residential air circulation and cooling demand for electrification planning: Implications of climate change in sub-Saharan Africa
- Sharing the burden: quantifying climate change spillovers in the European Union under the Paris Agreement
- Climate variability, crop and conflict: Exploring the impacts of spatial concentration in agricultural production
- Impacts of a warmer world on space cooling demand in Brazilian households
- Climate Variability, Crop and Conflict: Exploring the Impacts of Spatial Concentration in Agricultural Production
- Intraseasonal Precipitation Variability over West Africa under 1.5 °C and 2.0 °C Global Warming Scenarios: Results from CORDEX RCMs
- Historical global gridded degree‐days: A high‐spatial resolution database of CDD and HDD