Changes in satellite-derived spring vegetation green-up date and its linkage to climate in China from 1982 to 2010: a multimethod analysis.

@article{Cong2013ChangesIS,
  title={Changes in satellite-derived spring vegetation green-up date and its linkage to climate in China from 1982 to 2010: a multimethod analysis.},
  author={Nan Cong and Tao Wang and Huijuan Nan and Yuecun Ma and Xuhui Wang and Ranga B. Myneni and Shilong Piao},
  journal={Global change biology},
  year={2013},
  volume={19 3},
  pages={
          881-91
        }
}
The change in spring phenology is recognized to exert a major influence on carbon balance dynamics in temperate ecosystems. Over the past several decades, several studies focused on shifts in spring phenology; however, large uncertainties still exist, and one understudied source could be the method implemented in retrieving satellite-derived spring phenology. To account for this potential uncertainty, we conducted a multimethod investigation to quantify changes in vegetation green-up date from… 
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References

SHOWING 1-10 OF 75 REFERENCES
Spring vegetation green-up date in China inferred from SPOT NDVI data: A multiple model analysis
Variations in satellite‐derived phenology in China's temperate vegetation
The relationship between vegetation phenology and climate is a crucial topic in global change research because it indicates dynamic responses of terrestrial ecosystems to climate changes. In this
Climate-associated changes in spring plant phenology in China
TLDR
The results suggest that spring in China has started on average 2.88 days earlier per decade in response to spring warming by −4.93 days per degree Celsius over the last three decades.
Recent changes in phenology over the northern high latitudes detected from multi-satellite data
Phenology of vegetation is a sensitive and valuable indicator of the dynamic responses of terrestrial ecosystems to climate change. Therefore, to better understand and predict ecosystems dynamics, it
A continental phenology model for monitoring vegetation responses to interannual climatic variability
Regional phenology is important in ecosystem simulation models and coupled biosphere/atmosphere models. In the continental United States, the timing of the onset of greenness in the spring (leaf
Growing season extension and its impact on terrestrial carbon cycle in the Northern Hemisphere over the past 2 decades
TLDR
The ORganizing Carbon and Hydrology In Dynamic Ecosystems process based ecosystem model together with observed climate data is used to investigate spatiotemporal changes in phenology and their impacts on carbon fluxes in the Northern Hemisphere during 1980–2002 and suggested that the GSL strongly correlates with annual gross primary productivity (GPP) and netPrimary productivity (NPP), indicating that longer growing seasons may eventually enhance vegetation growth.
Intercomparison, interpretation, and assessment of spring phenology in North America estimated from remote sensing for 1982-2006
Shifts in the timing of spring phenology are a central feature of global change research. Long-term observations of plant phenology have been used to track vegetation responses to climate variability
Spring temperature change and its implication in the change of vegetation growth in North America from 1982 to 2006
TLDR
Using observed climate data and satellite-derived Normalized Difference Vegetation Index (NDVI) data from 1982 to 2006, changes in spring (April–May) temperature trends and their impact on vegetation growth in NA are investigated.
Extension of the growing season due to delayed autumn over mid and high latitudes in North America during 1982–2006
TLDR
It is the delayed dormancy onset date that has contributed to the prolonged length of the growing season over the mid and high latitudes in North America during recent decades, implying that vegetation activity in NorthAmerica has been altered by climatic change, which may further affect ecosystem structure and function in the continent.
Phenology shifts at start vs. end of growing season in temperate vegetation over the Northern Hemisphere for the period 1982–2008
TLDR
Admitting regional heterogeneity, changes in hemispheric features suggest that the longer-lasting vegetation growth in recent decades can be attributed to extended leaf senescence in autumn rather than earlier spring leaf-out.
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