(1) Li, Yating.Multimodel simulations revealed strong spatial heterogeneity in temperature-, photoperiod- and moisture-driven modes of autumn phenology in Northern Hemisphere grasslands (25°?N-55°?N).LAND DEGRADATION & DEVELOPMENT.2023
(2) 任世龙.Assessing the relative importance of sunshine, temperature, precipitation, and spring phenology in regulating leaf senescence timing of herbaceous species in China.AGRICULTURAL AND FOREST METEOROLOGY.2022,313
(3) 任世龙.Temperature-precipitation background affects spatial heterogeneity of spring phenology responses to climate change in northern grasslands (30°N-55°N).AGRICULTURAL AND FOREST METEOROLOGY.2022,315
(4) An, Shuai.Spatial Difference between Temperature and Snowfall Driven Spring Phenology of Alpine Grassland Land Surface Based on Process-Based Modeling on the Qinghai-Tibet Plateau.REMOTE SENSING.2022,14 (5)
(5) Shilong Ren, Yann Vitasse, Xiaoqiu Chen, Matthias Peichl, Shuai An. Assessing the relative importance of sunshine, temperature, precipitation, and spring phenology in regulating leaf senescence timing of herbaceous species in China.Agricultural and Forest Meteorology.2022,313 :108770
(6) Shilong Ren, Xiaoqiu Chen, Chengchen Pan. Temperature-precipitation background affects spatial heterogeneity of spring phenology responses to climate change in northern grasslands (30° N-55° N).Agricultural and Forest Meteorology.2022,315 :108816
(7) Shilong Ren, Shuai An. Temporal Pattern Analysis of Cropland Phenology in Shandong Province of China Based on Two Long-Sequence Remote Sensing Data.Remote Sensing.2021 (13)
(8) Shilong Ren, and Matthias Peichl. Enhanced spatiotemporal heterogeneity and the climatic and biotic controls of autumn phenology in northern grasslands.Science of The Total Environment.2021,788 :147806
(9) Shilong Ren, Yating Li, and Matthias Peichl. Diverse effects of climate at different times on grassland phenology in mid-latitude of the Northern Hemisphere.Ecological Indicators.2020 (113):106260
(10) Shilong Ren, Qiming Qin, Huazhong Ren, Juan Sui, and Yao Zhang. New model for simulating autumn phenology of herbaceous plants in the Inner Mongolian Grassland.Agricultural and Forest Meteorology.2019,275 :136-145
(11) Shilong Ren, Qiming Qin, Huazhong Ren, Juan Sui, and Yao Zhang. Heat and drought stress advanced global wheat harvest timing from 1981–2014.Remote Sensing.2019,11 (8):971
(12) Shilong Ren, Qiming Qin, and Huazhong Ren. Contrasting wheat phenological responses to climate change in global scale.Science of The Total Environment.2019,665 :620-631
(13) Shilong Ren, Xiaoqiu Chen, Weiguang Lang, and Mark D. Schwartz. Climatic Controls of the Spatial Patterns of Vegetation Phenology in Midlatitude Grasslands of the Northern Hemisphere.Journal of Geophysical Research: Biogeosciences.2018,123 (8):2323-2336
(14) Shilong Ren, Shuhua Yi, Matthias Peichl, and Xiaoyun Wang. Diverse responses of vegetation phenology to climate change in different grasslands in Inner Mongolia during 2000–2016.Remote Sensing.2017,10 :17
(15) Shilong Ren, Xiaoqiu Chen, and Shuai An. Assessing plant senescence reflectance index-retrieved vegetation phenology and its spatiotemporal response to climate change in the Inner Mongolian Grassland.International Journal of Biometeorology.2016 (61):601–612