MERIS全球500米7天植物叶片最大羧化速率产品(2018年)
数据贡献者: 焦子锑,董亚冬DOI: 10.12041/geodata.7727559.ver1.db摘要: MERIS全球500米7天植物叶片最大羧化速率产品(2018年),包括全球2018年间的植物叶片最大羧化速率数据,时间分辨率为7天,每年包含52期全球数据,数据为.dat 格式,包含了数据的投影信息。数据引用方式: 使用本数据集时,请在文章中引用以下文献 [1] Qian, X., & Liu, L. (2020). Retrieving Crop Leaf Chlorophyll Content Using an Improved Look-Up-Table Approach by Combining Multiple Canopy Structures and Soil Backgrounds. Remote Sensing, 12(13), 2139. [2] Houborg, R., Cescatti, A., Migliavacca, M., & Kustas, W.P. (2013). Satellite retrievals of leaf chlorophyll and photosynthetic capacity for improved modeling of GPP. Agricultural and Forest Meteorology, 177, 10-23. [3] Qian, X., Liu, L., Croft, H., & Chen, J. (2021). Relationship between Leaf Maximum Carboxylation Rate and Chlorophyll Content Preserved across 13 Species. Journal of Geophysical Research: Biogeosciences, e2020JG006076. [4] Qian, X., Zhang, Y., Liu, L., & Du, S. (2019). Exploring the potential of leaf reflectance spectra for retrieving the leaf maximum carboxylation rate. International Journal of Remote Sensing, 40(14), 5411-5428. [5] Qian, X., Liu, L., Chen, X., & Zarco-Tejada, P. J. (2021). Assessment of satellite chlorophyll-based leaf maximum carboxylation rate (Vcmax) using flux observations at crop and grass sites. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 14, 5352-5360.
MERIS全球500米7天植物叶片最大羧化速率产品(2019年)
数据贡献者: 焦子锑,董亚冬DOI: 10.12041/geodata.2071689.ver1.db摘要: MERIS全球500米7天植物叶片最大羧化速率产品(2019年),包括全球2019年间的植物叶片最大羧化速率数据,时间分辨率为7天,每年包含52期全球数据,数据为.dat 格式,包含了数据的投影信息。数据引用方式: 使用本数据集时,请在文章中引用以下文献 [1] Qian, X., & Liu, L. (2020). Retrieving Crop Leaf Chlorophyll Content Using an Improved Look-Up-Table Approach by Combining Multiple Canopy Structures and Soil Backgrounds. Remote Sensing, 12(13), 2139. [2] Houborg, R., Cescatti, A., Migliavacca, M., & Kustas, W.P. (2013). Satellite retrievals of leaf chlorophyll and photosynthetic capacity for improved modeling of GPP. Agricultural and Forest Meteorology, 177, 10-23. [3] Qian, X., Liu, L., Croft, H., & Chen, J. (2021). Relationship between Leaf Maximum Carboxylation Rate and Chlorophyll Content Preserved across 13 Species. Journal of Geophysical Research: Biogeosciences, e2020JG006076. [4] Qian, X., Zhang, Y., Liu, L., & Du, S. (2019). Exploring the potential of leaf reflectance spectra for retrieving the leaf maximum carboxylation rate. International Journal of Remote Sensing, 40(14), 5411-5428. [5] Qian, X., Liu, L., Chen, X., & Zarco-Tejada, P. J. (2021). Assessment of satellite chlorophyll-based leaf maximum carboxylation rate (Vcmax) using flux observations at crop and grass sites. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 14, 5352-5360.
MERIS全球500米7天植物叶片最大羧化速率产品(2020年)
数据贡献者: 焦子锑,董亚冬DOI: 10.12041/geodata.4814022.ver1.db摘要: MERIS全球500米7天植物叶片最大羧化速率产品(2020年),包括全球2020年间的植物叶片最大羧化速率数据,时间分辨率为7天,每年包含52期全球数据,数据为.dat 格式,包含了数据的投影信息。数据引用方式: 使用本数据集时,请在文章中引用以下文献 [1] Qian, X., & Liu, L. (2020). Retrieving Crop Leaf Chlorophyll Content Using an Improved Look-Up-Table Approach by Combining Multiple Canopy Structures and Soil Backgrounds. Remote Sensing, 12(13), 2139. [2] Houborg, R., Cescatti, A., Migliavacca, M., & Kustas, W.P. (2013). Satellite retrievals of leaf chlorophyll and photosynthetic capacity for improved modeling of GPP. Agricultural and Forest Meteorology, 177, 10-23. [3] Qian, X., Liu, L., Croft, H., & Chen, J. (2021). Relationship between Leaf Maximum Carboxylation Rate and Chlorophyll Content Preserved across 13 Species. Journal of Geophysical Research: Biogeosciences, e2020JG006076. [4] Qian, X., Zhang, Y., Liu, L., & Du, S. (2019). Exploring the potential of leaf reflectance spectra for retrieving the leaf maximum carboxylation rate. International Journal of Remote Sensing, 40(14), 5411-5428. [5] Qian, X., Liu, L., Chen, X., & Zarco-Tejada, P. J. (2021). Assessment of satellite chlorophyll-based leaf maximum carboxylation rate (Vcmax) using flux observations at crop and grass sites. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 14, 5352-5360.
MERIS全球500米7天植物叶片最大羧化速率产品(2007年)
数据贡献者: 刘良云DOI: 10.12041/geodata.4857020.ver1.db摘要: MERIS全球500米7天植物叶片最大羧化速率产品(2007年),包括全球2007年间的植物叶片最大羧化速率数据,时间分辨率为7天,每年包含52期全球数据,数据为.dat 格式,包含了数据的投影信息。数据引用方式: 使用本数据集时,请在文章中引用以下文献 [1] Qian, X., & Liu, L. (2020). Retrieving Crop Leaf Chlorophyll Content Using an Improved Look-Up-Table Approach by Combining Multiple Canopy Structures and Soil Backgrounds. Remote Sensing, 12(13), 2139. [2] Houborg, R., Cescatti, A., Migliavacca, M., & Kustas, W.P. (2013). Satellite retrievals of leaf chlorophyll and photosynthetic capacity for improved modeling of GPP. Agricultural and Forest Meteorology, 177, 10-23. [3] Qian, X., Liu, L., Croft, H., & Chen, J. (2021). Relationship between Leaf Maximum Carboxylation Rate and Chlorophyll Content Preserved across 13 Species. Journal of Geophysical Research: Biogeosciences, e2020JG006076. [4] Qian, X., Zhang, Y., Liu, L., & Du, S. (2019). Exploring the potential of leaf reflectance spectra for retrieving the leaf maximum carboxylation rate. International Journal of Remote Sensing, 40(14), 5411-5428. [5] Qian, X., Liu, L., Chen, X., & Zarco-Tejada, P. J. (2021). Assessment of satellite chlorophyll-based leaf maximum carboxylation rate (Vcmax) using flux observations at crop and grass sites. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 14, 5352-5360.
MERIS全球500米7天植物叶片最大羧化速率产品(2008年)
数据贡献者: 刘良云DOI: 10.12041/geodata.1079494.ver1.db摘要: MERIS全球500米7天植物叶片最大羧化速率产品(2008年),包括全球2008年间的植物叶片最大羧化速率数据,时间分辨率为7天,每年包含52期全球数据,数据为.dat 格式,包含了数据的投影信息。数据引用方式: 使用本数据集时,请在文章中引用以下文献 [1] Qian, X., & Liu, L. (2020). Retrieving Crop Leaf Chlorophyll Content Using an Improved Look-Up-Table Approach by Combining Multiple Canopy Structures and Soil Backgrounds. Remote Sensing, 12(13), 2139. [2] Houborg, R., Cescatti, A., Migliavacca, M., & Kustas, W.P. (2013). Satellite retrievals of leaf chlorophyll and photosynthetic capacity for improved modeling of GPP. Agricultural and Forest Meteorology, 177, 10-23. [3] Qian, X., Liu, L., Croft, H., & Chen, J. (2021). Relationship between Leaf Maximum Carboxylation Rate and Chlorophyll Content Preserved across 13 Species. Journal of Geophysical Research: Biogeosciences, e2020JG006076. [4] Qian, X., Zhang, Y., Liu, L., & Du, S. (2019). Exploring the potential of leaf reflectance spectra for retrieving the leaf maximum carboxylation rate. International Journal of Remote Sensing, 40(14), 5411-5428. [5] Qian, X., Liu, L., Chen, X., & Zarco-Tejada, P. J. (2021). Assessment of satellite chlorophyll-based leaf maximum carboxylation rate (Vcmax) using flux observations at crop and grass sites. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 14, 5352-5360.