This data was collected with the Tropical Atmosphere Ocean (TAO) array which was developed by the international Tropical Ocean Global Atmosphere (TOGA) program. The TAO array consists of nearly 70 moored buoys spanning the equatorial Pacific, measuring oceanographic and surface meteorological variables critical for improved detection, understanding and prediction of seasonal-to-interannual climate variations originating in the tropics, most notably those related to the El Nino/Southern Oscillation (ENSO) cycles. The moorings were developed by National Oceanic and Atmospheric Administration's (NOAA) Pacific Marine Environmental Laboratory (PMEL). Each mooring measures air temperature, relative humidity, surface winds, sea surface temperatures and subsurface temperatures down to a depth of 500 meters and a few a of the buoys measure currents, rainfall and solar radiation. The data from the array, and current updates, can be viewed on the web at the this address . The El Nino/Southern Oscillation (ENSO) cycle of 1982-1983, the strongest of the century, created many problems throughout the world. Parts of the world such as Peru and the Unites States experienced destructive flooding from increased rainfalls while the western Pacific areas experienced drought and devastating brush fires. The ENSO cycle was neither predicted nor detected until it was near its peak. This highlighted the need for an ocean observing system (i.e. the TAO array) to support studies of large scale ocean-atmosphere interactions on seasonal-to-interannual time scales. The TAO array provides real-time data to climate researchers, weather prediction centers and scientists around the world. Forcasts for tropical Pacific Ocean temperatures for one to two years in advance can be made using the ENSO cycle data. These forcasts are possible because of the moored buoys, along with drifting buoys, volunteer ship temperature probes, and sea level measurements. Research questions of interest include: - How can the data be used to predict weather conditions throughout the world? - How do the variables relate to each other? - Which variables have a greater effect on the climate variations? - Does the amount of movement of the buoy effect the reliability of the data? - When performing an analysis of the data, one should pay attention the possible affect of autocorrelation. Using a multiple regression approach to model the data would require a look at autoregression since the weather statistics of the previous days will affect today's weather. The data is stored in an ASCII files with one observation per line. Spaces separate fields and periods (.) denote missing values. More information and data from the TAO array can be found at the Pacific Marine Environmental Laboratory TAO data webpage: [Web Link] Information on storm data is available here: [Web Link]. This site contains data from January 1994 to April 1998 in a chronological listing by state provided by the National Weather Service. The data includes hurricanes, tornadoes, thunderstorms, hail, floods, drought conditions, lightning, high winds, snow, and temperature extremes. Hurricane tracking data for the Atlantic is available here: [Web Link]. The site contains a map showing the paths of the Atlantic hurricanes and also includes the storms winds (in knots), pressure (in millibars), and the category of the storm based on Saffir-Simpson scale. Another site of interest related to the ENSO cyles is available here: [Web Link]. This site contains information on twelve areas of the world that have demonstrated ENSO-precipitation relationships. Included in the site are maps of the areas and time series plots of actual daily precipitation and accumulated normal precipitation for the areas.