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Miss Wenyuan Ma

Miss Wenyuan Ma

Casual Academic
UNSW Canberra
School of Science

Wenyuan's  research project is to provide insights into the geographical patterns of pyrocumulonimbus (pyroCb) occurrence and practical guidance for wildfire management, now and into the future. The main research objectives of this project are: (1) to better understand the drivers of pyroCb development and their impact mechanisms, to quantify the relative contributions of these drivers, and to investigate the geographical differences in these drivers and their impacts at the large scale; (2) to quantify pyroCb risk and develop models to predict the longer-term probability of pyroCb occurrence; (3) to understand the temporal and spatial patterns of pyroCb occurrences in Australia, investigate how these patterns might change under future climate projections, and to map the longer-term risks of pyroCb in Australia. This work forms part of an ongoing international collaboration on pyroCb research.

Location
B26 108
  • Journal articles | 2023
    Ma W; Wilson CS; Sharples JJ; Jovanoski Z, 2023, 'Investigating the Effect of Fuel Moisture and Atmospheric Instability on PyroCb Occurrence over Southeast Australia', Atmosphere, 14,
    Journal articles | 2022
    Wang Y; Feng Z; Ma W, 2022, 'Analysis of Tree Species Suitability for Plantation Forests in Beijing (China) Using an Optimal Random Forest Algorithm', Forests, 13,
    Journal articles | 2021
    Guo J; Liu X; Ge W; Ni X; Ma W; Lu Q; Xing X, 2021, 'Specific drivers and responses to land surface phenology of different vegetation types in the qinling mountains, central China', Remote Sensing, 13,
    Journal articles | 2020
    Ma W; Feng Z; Cheng Z; Chen S; Wang F, 2020, 'Identifying Forest Fire Driving Factors and Related Impacts in China Using Random Forest Algorithm', Forests, 11, pp. 507 - 507,
  • Conference Papers | 2023
    Wilson CS; Ma W; Sharples JJ; Evans JP, 2023, 'Statistical analysis of Continuous Haines Index and Fuel Moisture Index for pyrocumulonimbus and non-pyrocumulonimbus wildfires in southeast Australia', in Proceedings of the International Congress on Modelling and Simulation, MODSIM, pp. 1055 - 1061