Winter precipitation is crucial to water managers, farmers, ranchers, and urban areas throughout the Southwest. Precipitation during the cool winter months usually falls from slow moving storms that enable water to percolate into the soil, to recharge aquifers, or collect in reservoirs. Moreover, snow falling during the winter months stores water until later in the season when temperatures rise and is an important part of the water budget. In contrast, summer precipitation often results from strong convective thunderstorms and is often intense—running off the land's surface before being captured for use by plants, and is subject to the high evaporation rates that accompany the Southwest's intense summer heat.
Tree rings provide a useful tool to help extend winter precipitation records further back in time than the instrumental (rain gauge) record. The growth of many Southwestern tree species can be linked directly to the total amount of precipitation that falls during the extended winter, or cool season (November-April). Tree rings act as a surrogates for direct observations, providing information on pre-historic precipitation variability before rain gauges were in service. Statistical models can be developed to relate tree growth to precipitation during periods when instrumental records are available. These relationships are then applied to periods prior to the instrumental record to reconstruct past precipitation back a thousand years.