Figure 1 illustrates the 1982–2009 latitudinal LAI trends as calculated from the annual mean LAI for the satellite dataset and “ALL” simulation of CLM4 ( ...

Mar 1, 2013 · The south-to-north asymmetric land surface warming was assessed to be the principal driver of this latitudinal asymmetry of LAI trend.

Over that 28-year period, both the remote-sensing estimate and model simulation show a significant increasing trend in annual vegetation growth.

Global Latitudinal-Asymmetric Vegetation Growth Trends and Their Driving Mechanisms: 1982-2009 ; Journal. Remote Sensing ; Volume. 5 ; Number of Pages. 1484-1497.

The climate-only simulation confirms that climate change particular the asymmetry of land temperature variation tend to explain the latitudinal pattern of LAI ...

The south-to-north asymmetric land surface warming was assessed to be the principal driver of this latitudinal asymmetry of LAI trend. Heterogeneous ...

Global Latitudinal-Asymmetric Vegetation Growth Trends and Their Driving Mechanisms: 1982–2009. Overview of attention for article published in Remote Sensing ...

Mar 21, 2013 · The south-to-north asymmetric land surface warming was assessed to be the principal driver of this latitudinal asymmetry of LAI trend.

... Global Latitudinal-Asymmetric Vegetation Growth Trends and Their Driving Mechanisms: 1982–2009. Remote Sens. 2013, 5, 1484-1497. https://doi.org/10.3390 ...

Global Latitudinal-Asymmetric Vegetation Growth Trends and Their Driving Mechanisms: 1982-2009, Remote Sens. doi:10.3390/rs5031484; Zeng et al., 2012. Global ...