Nathan Sparks scite author profile

Capturing the spatial and temporal correlation of multiple variables in a weather generator is challenging. A new massively multi-site, multivariate daily stochastic weather generator called IMAGE is presented here. It models temperature and precipitation variables as latent Gaussian variables with temporal behaviour governed by an auto-regressive model whose residuals and parameters are correlated through resampling of principle component time series of empirical orthogonal function modes. A case study using European climate data demonstrates the model's ability to reproduce extreme events of temperature and precipitation. The ability to capture the spatial and temporal extent of extremes using a modified Climate Extremes Index is demonstrated. Importantly, the model generates events covering not observed temporal and spatial scales giving new insights for risk management purposes.

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Remote sampling of a CO2 point source in an urban setting

Sparks

Toumi

2010

Atmospheric Environment

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Simulation of flood hazard and risk in the Danube basin with the Future Danube Model

et al. 2018

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Aircraft Observations of Tropical Cyclone Boundary Layer Turbulence over the South China Sea

Sparks

Hon

Chan

et al. 2019

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There have been no high-frequency aircraft observations of tropical cyclone (TC) eyewall boundary layer turbulence since two flights into Atlantic hurricanes in the 1980s. We present an analysis of the first TC boundary layer flight observations in the South China Sea by the Hong Kong Observatory comprising four eyewall penetrations. We derive the vertical flux of momentum and vertical momentum diffusivity from observed turbulence parameters. We observe negative (upward) vertical fluxes of tangential momentum near the eyewall consistent with a jet below the flight level near the radius of maximum wind. Our observations of vertical momentum diffusivity support a superlinear relationship between diffusivity and wind speed at the high wind speeds in the inner-core of TCs (power-law exponent of 1.73 ± 0.20) while the few existing boundary layer hurricane observations in the North Atlantic suggest a more linear relationship.

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A Physical Model of Tropical Cyclone Central Pressure Filling at Landfall

Sparks

Toumi

2022

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We derive a simple physically based analytic model which describes the pressure filling of a tropical cyclone (TC) over land. Starting from the axisymmetric mass continuity equation in cylindrical coordinates we derive that the half-life decay of the pressure deficit between the environment and TC centre is proportional to the initial radius of maximum surface wind speed. The initial pressure deficit and column-mean radial inflow speed into the core are the other key variables. The assumptions made in deriving the model are validated against idealised numerical simulations of TC decay over land. Decay half-lives predicted from a range of initial TC states are tested against the idealized simulations and are in good agreement. Dry idealised TC decay simulations show that without latent convective heating, the boundary layer decouples from the vortex above leading to a fast decay of surface winds while a mid-level vortex persists.

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Nathan Sparks

IMAGE: a multivariate multi-site stochastic weather generator for European weather and climate

Remote sampling of a CO2 point source in an urban setting

Simulation of flood hazard and risk in the Danube basin with the Future Danube Model

Aircraft Observations of Tropical Cyclone Boundary Layer Turbulence over the South China Sea

A Physical Model of Tropical Cyclone Central Pressure Filling at Landfall

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