Your search keyword '"Funk, Christopher C."' showing total 2 results

1. Assessing North American multimodel ensemble (NMME) seasonal forecast skill to assist in the early warning of anomalous hydrometeorological events over East Africa.

Author

Shukla, Shraddhanand, Roberts, Jason, Hoell, Andrew, Funk, Christopher C., Robertson, Franklin, and Kirtman, Ben

Subjects

LONG-range weather forecasting, PRECIPITATION forecasting, FORECASTING, ABILITY, GROWING season, EVALUATION methodology

Abstract

The skill of North American multimodel ensemble (NMME) seasonal forecasts in East Africa (EA), which encompasses one of the most food and water insecure areas of the world, is evaluated using deterministic, categorical, and probabilistic evaluation methods. The skill is estimated for all three primary growing seasons: March–May (MAM), July–September (JAS), and October–December (OND). It is found that the precipitation forecast skill in this region is generally limited and statistically significant over only a small part of the domain. In the case of MAM (JAS) [OND] season it exceeds the skill of climatological forecasts in parts of equatorial EA (Northern Ethiopia) [equatorial EA] for up to 2 (5) [5] months lead. Temperature forecast skill is generally much higher than precipitation forecast skill (in terms of deterministic and probabilistic skill scores) and statistically significant over a majority of the region. Over the region as a whole, temperature forecasts also exhibit greater reliability than the precipitation forecasts. The NMME ensemble forecasts are found to be more skillful and reliable than the forecast from any individual model. The results also demonstrate that for some seasons (e.g. JAS), the predictability of precipitation signals varies and is higher during certain climate events (e.g. ENSO). Finally, potential room for improvement in forecast skill is identified in some models by comparing homogeneous predictability in individual NMME models with their respective forecast skill. [ABSTRACT FROM AUTHOR]

Published

2019

2. Financing agricultural drought risk through ex-ante cash transfers.

Author

Guimarães Nobre, Gabriela, Davenport, Frank, Bischiniotis, Konstantinos, Veldkamp, Ted, Jongman, Brenden, Funk, Christopher C., Husak, Gregory, Ward, Philip J., and Aerts, Jeroen C.J.H.

Abstract

Abstract Despite advances in drought early warning systems, forecast information is rarely used for triggering and financing early actions, such as cash transfer. Scaling up cash transfer pay-outs, and overcoming the barriers to actions based on forecasts, requires an understanding of costs resulting from False Alarms, and the potential benefits associated with appropriate early interventions. On this study, we evaluate the potential cost-effectiveness of cash transfer responses, comparing the relative costs of ex-ante cash transfers during the maize growing season to ex-post cash transfers after harvesting in Kenya. For that, we developed a forecast model using Fast-and Frugal Trees that unravels early warning relationships between climate variability, vegetation coverage, and maize yields at multiple lead times. Results indicate that our models correctly forecast low maize yield events 85% of the time across the districts studied, some already six months before harvesting. The models' performance improves towards the end of the growing season driven by a decrease of 29% in the probability of False Alarms. Overall, we show that timely cash transfers ex-ante to a disaster can often be more cost-effective than investing in ex-post expenditures. Our findings suggest that early response can yield significant cost savings, and can potentially increase the effectiveness of existing cash transfer systems. Graphical abstract Unlabelled Image Highlights • Drought early warning systems are rarely used for triggering early actions, such as cash transfer. • We evaluate the cost-effectiveness of cash transfers ex-ante (forecast-based) and ex-post. • We developed a forecast model using Machine Learning named Fast-and-Frugal Trees. • We show that our models predict the majority of the low maize yield events in all districts studied. • Our results indicate that cash transfers ex-ante can often be more cost-effective than ex-post. [ABSTRACT FROM AUTHOR]

Published

2019