Tim E. Jupp scite author profile

SummaryBackground: With more than a million spectators expected to travel among 12 different cities in Brazil during the football World Cup, June 12-July 13, 2014, the risk of the mosquito-transmitted disease dengue fever is a concern. We addressed the potential for a dengue epidemic during the tournament, using a probabilistic forecast of dengue risk for the 553 microregions of Brazil, with risk level warnings for the 12 cities where matches will be played.

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Estimating the risk of Amazonian forest dieback

Rammig¹,

Jupp²,

Thonicke³

et al. 2010

New Phytologist

144

116

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Summary• Climate change will very likely affect most forests in Amazonia during the course of the 21st century, but the direction and intensity of the change are uncertain, in part because of differences in rainfall projections. In order to constrain this uncertainty, we estimate the probability for biomass change in Amazonia on the basis of rainfall projections that are weighted by climate model performance for current conditions.• We estimate the risk of forest dieback by using weighted rainfall projections from 24 general circulation models (GCMs) to create probability density functions (PDFs) for future forest biomass changes simulated by a dynamic vegetation model (LPJmL).• Our probabilistic assessment of biomass change suggests a likely shift towards increasing biomass compared with nonweighted results. Biomass estimates range between a gain of 6.2 and a loss of 2.7 kg carbon m )2 for the Amazon region, depending on the strength of CO 2 fertilization.• The uncertainty associated with the long-term effect of CO 2 is much larger than that associated with precipitation change. This underlines the importance of reducing uncertainties in the direct effects of CO 2 on tropical ecosystems.

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The development of an early warning system for climate‐sensitive disease risk with a focus on dengue epidemics in Southeast Brazil

Lowe

Bailey

Stephenson

et al. 2012

Statistics in Medicine

119

115

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Previous studies have demonstrated statistically significant associations between disease and climate variations, highlighting the potential for developing climate-based epidemic early warning systems. However, limitations to such studies include failure to allow for non-climatic confounding factors, limited geographical/temporal resolution, or lack of evaluation of predictive validity. Here, we consider such issues in the context of dengue fever in South East Brazil, where dengue epidemics impact heavily on Brazilian public health services. A spatio-temporal generalised linear mixed model (GLMM) is developed, including both climate and non-climate covariates. Overdispersion and unobserved confounding factors are accounted for via a Negative Binomial formulation and inclusion of both spatial and temporal random effects. Model parameters are estimated in a Bayesian framework to allow full posterior predictive distributions for disease risk to be derived in time and space. Detailed probabilistic forecasts can then be issued for any pre-defined 'alert' thresholds, allowing probabilistic early warnings for dengue epidemics to be made. Using this approach with the criterion 'greater than a 50% chance of exceeding 300 cases per 100,000 inhabitants', successful epidemic alerts would have been issued for 81% of the 54 regions that experienced epidemic dengue incidence rates in South East Brazil, during the major 2008 epidemic. Use of seasonal climate forecasts in this model allows predictions to be made several months ahead of an impending epidemic. We argue that the general modelling framework, described here in the context of dengue in Brazil, is potentially valuable in similar applications, both outside of Brazil and for other climate-sensitive diseases.

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A thermodynamic explanation for black smoker temperatures

Jupp

Schultz

2000

Nature

118

113

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There is a remarkable difference between the maximum temperature of black smoker effluent (350 degrees C-400 degrees C) and the temperature of the solidifying magma which heats it (approximately 1,200 degrees C). It has been suspected for some time that the nonlinear thermodynamic properties of water might be responsible for this discrepancy. Here, we translate this hypothesis into a physical model, by examining the internal temperature structure of convection cells in a porous medium. We demonstrate that, at pressures appropriate to seafloor crust, plumes of pure water form naturally at approximately 400 degrees C for any heat source with temperature greater than approximately 500 degrees C. Higher temperatures are confined to a boundary layer at the base of the convection cell, where the flow is horizontal. The phenomenon is explained analytically using the thermodynamic properties of water, and is illustrated by numerical simulations. Our model predicts the existence of the high-temperature 'reaction zone' found in ophiolites and suggests that vent temperatures will remain steady as magma chambers solidify and cool.

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Tim E. Jupp

Increasing risk of Amazonian drought due to decreasing aerosol pollution

Dengue outlook for the World Cup in Brazil: an early warning model framework driven by real-time seasonal climate forecasts

Estimating the risk of Amazonian forest dieback

The development of an early warning system for climate‐sensitive disease risk with a focus on dengue epidemics in Southeast Brazil

A thermodynamic explanation for black smoker temperatures

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