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Pine Maximum Latewood Density in Semi‐Arid Northern China Records Hydroclimate Rather Than Temperature

Bao Yang, Minhui He, Yang Liu, Feng Wang, Fredrik Charpentier Ljungqvist

2023Geophysical Research Letters19 citationsDOIOpen Access PDF

Abstract

Abstract Long records of tree‐ring maximum latewood density (MXD) measurements in conifers have been successfully employed to reconstruct summer temperature changes globally. Yet, the potential of MXD as a proxy in semi‐arid, low‐latitude regions for reconstructing either temperature or hydroclimate variability remains largely unexplored. Here, we developed a MXD data set of Chinese pine from semi‐arid northern China, and investigated its sensitivity to different climate variables. We found that the annual self‐calibrated Palmer Drought Severity Index from previous August to current July displays the strongest influence on the MXD variation. The entire MXD chronology (covering 1736–2020) is highly consistent with nearby tree‐ring‐based annual precipitation and drought reconstructions at decadal timescales, confirming a temporally stable hydroclimate signal in our MXD record. In particular, the rapid wetting trend during the 2010–2020 period is well captured by the MXD data. This novel study has wide implications for future use of tree‐ring density data to reconstruct past climate changes globally.

Topics & Concepts

DendrochronologyClimatologyAridPrecipitationPaleoclimatologyEnvironmental scienceProxy (statistics)ChronologyAridity indexClimate changeAtmospheric sciencesGeologyPhysical geographyMeteorologyGeographyOceanographyPaleontologyComputer scienceMachine learningTree-ring climate responsesPlant Water Relations and Carbon DynamicsEcology and Vegetation Dynamics Studies
Pine Maximum Latewood Density in Semi‐Arid Northern China Records Hydroclimate Rather Than Temperature | Litcius