期刊
AGRICULTURAL AND FOREST METEOROLOGY
卷 313, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.agrformet.2021.108759
关键词
Climate change; Temperature seasonality; Temperature sensitivity; Greenup onset date; Vegetation spring phenology
资金
- National Key Research and Development Program of China [2017YFA0604700]
- National Natural Science Foundation of China [42001108]
- Faculty Start-Up Fund of Beijing Normal University
- Top-Notch Young Talents Program of China
This study explores the spatial variation in the temperature sensitivity of vegetation spring leafing phenology in the Northern Hemisphere. It shows that areas with stronger temperature seasonality have smaller temperature sensitivity of vegetation greenup onset date. This is possibly due to stronger pre-greenup temperature constraints leading to faster leaf development rates.
The temperature sensitivity (ST) of the vegetation greenup onset date (VGD) is critical for the assessment and prediction of phenological response to climate warming. Spatial variations in ST, though well documented based on satellite observations in recent studies, have remained largely under-explained. We determined VGD from satellite observation of the normalized difference vegetation index over the period 2000-2018 and showed that ST is substantially smaller in areas with stronger temperature seasonality (i.e. the multiyear mean of standard deviations of monthly mean temperature over a 12-month period). Spatially, ST averaged over each 2 degrees C bin of temperature seasonality increased from about 10.0 days K-1 in areas with temperature seasonality of about 3.5 degrees C to about 3.3 to 2.3 days K-1 in areas with temperature seasonality between 15.0 and 22.3 degrees C. Statistical analyses suggest that this pattern was not related with spatial variations in the length of chilling exposure, spring frost risk, inter-annual variability of spring temperature, or photoperiod. Rather, it may occur because areas with stronger temperature seasonality have stronger pre-VGD constraints because of a lower temperature and a faster temperature increase from the onset of greenup to summer, which could result in faster leaf development rates and thus higher speeds of completion of leaf development. Our results also show that the greater ST associated with higher mean annual temperature and multiyear mean VGD across the northern middle and high latitudes observed in previous studies is probably caused by temperature seasonality. This study deepens our understanding of the spatial variation in the temperature sensitivity of vegetation spring leafing phenology in the Northern Hemisphere.
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