摘要:We created a daily mean gridded temperature dataset of monsoon Asia (15˚S-55˚N, 60˚E-155˚E) for the period of 1973-2007, with a 0.50 x 0.50 degree grid. We analyzed this dataset based on station observations collected and a quality control and interpolation system developed through the activities of the Asian Precipitation – Highly Resolved Observational Data Integration Towards Evaluation of Water Resources (APHRODITE) project (Yatagai et al., 2009, 2012). The number of stations is up to 1.5-3 times the number of stations based on the Global Telecommunication System (GTS), which have been used to obtain other gridded temperature products. The monthly means and climatology of our product are comparable to the monthly means of those products. This is the only product in Asia that has high resolution both temporally and spatially as the APHRODITE precipitation product is known for. The ability to discriminate between rain and snow is added to the APHRODITE daily precipitation prod- uct by using daily mean temperature and relative humidity (RH). Relative humidity is derived from a reanaly- sis product, because RH observation data are collected insufficiently for interpolation. We found use of the temperature product of this study and the RH derived from the reanalysis product to be adequate for determining whether precipitation was rain or snow. Our estimated solid precipitation amount using rain/snow discrimination for late fall to early spring (October to March) is consistent with satellite observations. This dataset is available on the APHRODITE website . The combina- tion of daily mean temperature, precipitation and rain/snow information in this high- resolution gridded format would be useful as input to river-flow models, crop models and many other situations where water resources must be estimated.
