top of page

Publication

Check out our papers by clicking the journal icon!

images.jfif

Meng, L. (2021). Green with Phenology. Science, 374: 1065-1066. fcld.ly/nxd4tr8

download.jpg

Meng, L., Zhou, Y., Román, M.O., Stokes, E.C., Wang, Z., Asrar, G.R., Mao, J., Richardson, A.D., Gu, L. and Wang, Y. (2022). Artificial light at night: an under-appreciated effect on phenology of deciduous woody plants. PNAS Nexus, pgac046, https://doi.org/10.1093/pnasnexus/pgac046.

FSVAjH1WQAA2RNc.jpg

Meng, L., Chambers, J., Koven, C.D., Pastorello, G., Gimenez, B., Jardine, K., Tang, Y., McDowell, N., Negron-Juarez, R., Longo, M. and Araujo, A. (2022). Soil moisture thresholds explain a shift from light-limited to water-limited sap velocity in the Central Amazon during the 2015-16 El Niño drought. Environmental Research Letters, 17, 064023.

Picture2.png

Meng, L., Mao, J., Ricciuto, D.M., Shi, X., Richardson, A., Hanson, P.J., Warren, J., Zhou, Y., Li, X., Zhang, L., Schädeld, C. (2021). Evaluation and Modification of ELM Seasonal Deciduous Phenology against Observations in a Southern Boreal Peatland Forest. Agricultural and Forest Meteorology. 308: 108556.

aj0ozoPu_400x400.jpg

Meng, L., Zhou, Y., Gu, L., Richardson, A. D., Peñuelas, J., Fu, Y., ... & Wang, Z. (2021). Photoperiod decelerates the advance of spring phenology of six deciduous tree species under climate warming. Global Change Biology, 27(12), 2914-2927. 

2.png

Shi, X., Ricciuto, D.M., Thornton, P.E., Xu, X., Yuan, F., Norby, R.J., Walker, A.P., Warren, J., Mao, J., Hanson, P.J., Meng, L., Weston D., and Griffiths N. (2021). Extending a land-surface model with Sphagnum moss to simulate responses of a northern temperate bog to whole ecosystem warming and elevated CO2. Biogeosciences, 18: 467-486.

Picture1.png

Meng, L., Mao, J., Zhou, Y., Richardson, A., Lee, X., Thornton, P., Ricciuto, D., Li, X., Dai, Y., Shi, X., & Jia, G. (2020). Urban warming advances spring phenology but reduces temperature response of phenology in the conterminous United States. Proceedings of the National Academy of Sciences of the United States of America, 117(8), 4228-4233. ISU News     ORNL News  

Picture2.png

Meng, L., Zhou, Y., Li, X., Asrar, G. R., Mao, J., Wanamaker Jr, A. D., & Wang, Y. (2020). Divergent responses of spring phenology to daytime and nighttime warming. Agricultural and Forest Meteorology, 281, 107832.

Picture1.png

Li, X., Zhou, Y., Meng, L., Asrar, G. R., Lu, C., & Wu, Q. (2019). A dataset of 30 m annual vegetation phenology indicators (1985–2015) in urban areas of the conterminous United States. Earth System Science Data, 11(2), 881-894.

Picture1.png

Li, X., Zhou, Y., Meng, L., Asrar, G., Sapkota, A., & Coates, F. (2019). Characterizing the relationship between satellite phenology and pollen season: A case study of birch. Remote Sensing of Environment, 222, 267-274.

Picture1.png

Li, H., Zhou, Y., Li, X., Meng, L., Wang, X., Wu, S., & Sodoudi, S. (2018). A new method to quantify surface urban heat island intensity. Science of the Total Environment, 624, 262-272.

Picture1.png

Li, X., Zhou, Y., Asrar, G. R., & Meng, L. (2017). Characterizing spatiotemporal dynamics in phenology of urban ecosystems based on Landsat data. Science of the Total Environment, 605, 721-734.

Picture1.png

Meng, L., Wang, C., & Zhang, J. (2016). Heat injury risk assessment for single-cropping rice in the middle and lower reaches of the Yangtze River under climate change. Journal of Meteorological Research, 30(3), 426-443.

Picture1.png

Meng, L., Wang, C. (2015). Characteristic of Heat Injury Hazard for Single-season Rice and its Responses to Climate Change in the Middle and Lower Reaches of Yangtze River. Journal of Natural Disasters, 24: 80-89.

Picture1.png

Meng, L., Liu, X. J., Wu, D. R., & Wang, C. Y. (2015). Responses of summer maize main phenology to climate change in the North China Plain. Chinese Journal of Agrometeorology, 36(4), 375-382.

bottom of page