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Phenology shift from 1989 to 2008 on the Tibetan Plateau: an analysis with a process-based soil physical model and remote sensing data

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  • Zhenong Jin
  • Qianlai Zhuang
  • Jin-Sheng He
  • Tianxiang Luo
  • Yue Shi

Abstract

Phenology is critical to ecosystem carbon quantification, and yet has not been well modeled considering both aboveground and belowground environmental variables. This is especially true for alpine and pan-arctic regions where soil physical conditions play a significant role in determining the timing of phenology. Here we examine how the spatiotemporal pattern of satellite-derived phenology is related to soil physical conditions simulated with a soil physical model on the Tibetan Plateau for the period 1989–2008. Our results show that spatial patterns and temporal trends of phenology are parallel with the corresponding soil physical conditions for different study periods. On average, 1 °C increase in soil temperature advances the start of growing season (SOS) by 4.6 to 9.9 days among different vegetation types, and postpones the end of growing season (EOS) by 7.3 to 10.5 days. Soil wetting meditates such trends, especially in areas where warming effect is significant. Soil thermal thresholds for SOS and EOS, defined as the daily mean soil temperatures corresponding to the phenological metrics, are spatially clustered, and are closely correlated with mean seasonal temperatures in Spring and Autumn, respectively. This study highlights the importance and feasibility of incorporating spatially explicit soil temperature and moisture information, instead of air temperature and precipitation, into phenology models so as to improve carbon modeling. The method proposed and empirical relations established between phenology and soil physical conditions for Alpine ecosystems on the Tibetan plateau could also be applicable for other cold regions. Copyright Springer Science+Business Media Dordrecht 2013

Suggested Citation

  • Zhenong Jin & Qianlai Zhuang & Jin-Sheng He & Tianxiang Luo & Yue Shi, 2013. "Phenology shift from 1989 to 2008 on the Tibetan Plateau: an analysis with a process-based soil physical model and remote sensing data," Climatic Change, Springer, vol. 119(2), pages 435-449, July.
    • Handle: RePEc:spr:climat:v:119:y:2013:i:2:p:435-449
    DOI: 10.1007/s10584-013-0722-7
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    References listed on IDEAS

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    1. Jinyun Tang & Qianlai Zhuang, 2011. "Modeling soil thermal and hydrological dynamics and changes of growing season in Alaskan terrestrial ecosystems," Climatic Change, Springer, vol. 107(3), pages 481-510, August.
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    Cited by:

    1. Yuhao Jiang & Baolin Li & Yecheng Yuan & Qingling Sun & Tao Zhang & Yan Liu & Ying Li & Rui Li & Fei Li, 2021. "Trends in Flowering Phenology of Herbaceous Plants and Its Response to Precipitation and Snow Cover on the Qinghai—Tibetan Plateau from 1983 to 2017," Sustainability, MDPI, vol. 13(14), pages 1-21, July.
    2. Miao, Lijuan & Müller, Daniel & Cui, Xuefeng & Ma, Meihong, 2017. "Changes in vegetation phenology on the Mongolian Plateau and their climatic determinants," EconStor Open Access Articles and Book Chapters, ZBW - Leibniz Information Centre for Economics, vol. 12(12), pages 1-13.
    3. Zhenong Jin & Qianlai Zhuang & Jeffrey S. Dukes & Jin-Sheng He & Andrei P. Sokolov & Min Chen & Tonglin Zhang & Tianxiang Luo, 2016. "Temporal variability in the thermal requirements for vegetation phenology on the Tibetan plateau and its implications for carbon dynamics," Climatic Change, Springer, vol. 138(3), pages 617-632, October.
    4. Zihao Feng & Jianjun Chen & Renjie Huang & Yanping Yang & Haotian You & Xiaowen Han, 2022. "Spatial and Temporal Variation in Alpine Vegetation Phenology and Its Response to Climatic and Topographic Factors on the Qinghai–Tibet Plateau," Sustainability, MDPI, vol. 14(19), pages 1-17, October.

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