Afforestation in China Cools Local Land Surface Temperature. Peng, S., Piao, S., Zeng, Z., Ciais, P., Zhou, L., Li, L. Z. X., Myneni, R. B., Yin, Y., & Zeng, H. Proceedings of the National Academy of Sciences, 111(8):2915–2919, February, 2014.
doi  abstract   bibtex   
[Significance] China has the largest afforested area in the world. Afforestation not only contributes to increased carbon storage but also alters local albedo and turbulent energy fluxes, which offers feedback on the local and regional climate. This study presents previously unidentified observational evidence of the effect of large-scale afforestation on land surface temperature (LST) in China. Afforestation decreases daytime LST, because of enhanced evapotranspiration, and increases nighttime LST. This nighttime warming tends to offset daytime cooling in dry regions. These results suggest it is necessary to carefully consider where to plant trees to achieve potential climatic benefits in future afforestation projects. [Abstract] China has the largest afforested area in the world ($\sim$62 million hectares in 2008), and these forests are carbon sinks. The climatic effect of these new forests depends on how radiant and turbulent energy fluxes over these plantations modify surface temperature. For instance, a lower albedo may cause warming, which negates the climatic benefits of carbon sequestration. Here, we used satellite measurements of land surface temperature (LST) from planted forests and adjacent grasslands or croplands in China to understand how afforestation affects LST. Afforestation is found to decrease daytime LST by about 1.1 $\pm$ 0.5 °C (mean $\pm$ 1 SD) and to increase nighttime LST by about 0.2 $\pm$ 0.5 °C, on average. The observed daytime cooling is a result of increased evapotranspiration. The nighttime warming is found to increase with latitude and decrease with average rainfall. Afforestation in dry regions therefore leads to net warming, as daytime cooling is offset by nighttime warming. Thus, it is necessary to carefully consider where to plant trees to realize potential climatic benefits in future afforestation projects.
@article{pengAfforestationChinaCools2014,
  title = {Afforestation in {{China}} Cools Local Land Surface Temperature},
  author = {Peng, Shu-Shi and Piao, Shilong and Zeng, Zhenzhong and Ciais, Philippe and Zhou, Liming and Li, Laurent Z. X. and Myneni, Ranga B. and Yin, Yi and Zeng, Hui},
  year = {2014},
  month = feb,
  volume = {111},
  pages = {2915--2919},
  issn = {1091-6490},
  doi = {10.1073/pnas.1315126111},
  abstract = {[Significance] 

China has the largest afforested area in the world. Afforestation not only contributes to increased carbon storage but also alters local albedo and turbulent energy fluxes, which offers feedback on the local and regional climate. This study presents previously unidentified observational evidence of the effect of large-scale afforestation on land surface temperature (LST) in China. Afforestation decreases daytime LST, because of enhanced evapotranspiration, and increases nighttime LST. This nighttime warming tends to offset daytime cooling in dry regions. These results suggest it is necessary to carefully consider where to plant trees to achieve potential climatic benefits in future afforestation projects.  [Abstract] 

China has the largest afforested area in the world ({$\sim$}62 million hectares in 2008), and these forests are carbon sinks. The climatic effect of these new forests depends on how radiant and turbulent energy fluxes over these plantations modify surface temperature. For instance, a lower albedo may cause warming, which negates the climatic benefits of carbon sequestration. Here, we used satellite measurements of land surface temperature (LST) from planted forests and adjacent grasslands or croplands in China to understand how afforestation affects LST. Afforestation is found to decrease daytime LST by about 1.1 {$\pm$} 0.5 \textdegree C (mean {$\pm$} 1 SD) and to increase nighttime LST by about 0.2 {$\pm$} 0.5 \textdegree C, on average. The observed daytime cooling is a result of increased evapotranspiration. The nighttime warming is found to increase with latitude and decrease with average rainfall. Afforestation in dry regions therefore leads to net warming, as daytime cooling is offset by nighttime warming. Thus, it is necessary to carefully consider where to plant trees to realize potential climatic benefits in future afforestation projects.},
  journal = {Proceedings of the National Academy of Sciences},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-13072275,afforestation,china,climate-change,feedback,forest-resources,land-use,land-use-driven-climate-change,latitude,non-linearity,precipitation,temperature,trade-offs},
  lccn = {INRMM-MiD:c-13072275},
  number = {8}
}

Downloads: 0