22.2.7.1 Gross Primary Production, Net Primary Production, GPP, NPP

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Primary Production. Gross Primary Production. Gross primary productivity is the amount of carbon fixed during photosynthesis by all producers in the ecosystem.

Hashimoto, H., Wang, W., Milesi, C., White, M., Ganguly, S., Gamo, M., Hirata, R., Myneni, R., Nemani, R.,
Exploring Simple Algorithms for Estimating Gross Primary Production in Forested Areas from Satellite Data,
RS(4), No. 1, January 2012, pp. 303-326.
DOI Link 1203
BibRef

Hashimoto, H., Wang, W., Milesi, C., Xiong, J., Ganguly, S., Zhu, Z., Nemani, R.,
Structural Uncertainty in Model-Simulated Trends of Global Gross Primary Production,
RS(5), No. 3, March 2013, pp. 1258-1273.
DOI Link 1304
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Thanyapraneedkul, J., Muramatsu, K., Daigo, M., Furumi, S., Soyama, N., Nasahara, K., Muraoka, H., Noda, H., Nagai, S., Maeda, T., Mano, M., Mizoguchi, Y.,
A Vegetation Index to Estimate Terrestrial Gross Primary Production Capacity for the Global Change Observation Mission-Climate (GCOM-C)/Second-Generation Global Imager (SGLI) Satellite Sensor,
RS(4), No. 12, December 2012, pp. 3689-3720.
DOI Link 1211
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Fensholt, R., Rasmussen, K., Kaspersen, P., Huber, S., Horion, S., Swinnen, E.,
Assessing Land Degradation/Recovery in the African Sahel from Long-Term Earth Observation Based Primary Productivity and Precipitation Relationships,
RS(5), No. 2, February 2013, pp. 664-686.
DOI Link 1303
BibRef

Westergaard-Nielsen, A.[Andreas], Lund, M.[Magnus], Hansen, B.U.[Birger Ulf], Tamstorf, M.P.[Mikkel Peter],
Camera derived vegetation greenness index as proxy for gross primary production in a low Arctic wetland area,
PandRS(86), No. 1, 2013, pp. 89-99.
Elsevier DOI 1312
Low Arctic BibRef

Fu, Y.C.[Ying-Chun], Lu, X.[Xueyu], Zhao, Y.L.[Yao-Long], Zeng, X.T.[Xian-Tie], Xia, L.L.[Li-Li],
Assessment Impacts of Weather and Land Use/Land Cover (LULC) Change on Urban Vegetation Net Primary Productivity (NPP): A Case Study in Guangzhou, China,
RS(5), No. 8, 2013, pp. 4125-4144.
DOI Link 1309
BibRef

Sur, C.Y.[Chan-Yang], Choi, M.[Minha],
Evaluating Ecohydrological Impacts of Vegetation Activities on Climatological Perspectives Using MODIS Gross Primary Productivity and Evapotranspiration Products at Korean Regional Flux Network Site,
RS(5), No. 5, 2013, pp. 2534-2553.
DOI Link 1307
BibRef

Ichii, K.[Kazuhito], Kondo, M.[Masayuki], Okabe, Y.[Yuki], Ueyama, M.[Masahito], Kobayashi, H.[Hideki], Lee, S.J.[Seung-Jae], Saigusa, N.[Nobuko], Zhu, Z.C.[Zai-Chun], Myneni, R.B.[Ranga B.],
Recent Changes in Terrestrial Gross Primary Productivity in Asia from 1982 to 2011,
RS(5), No. 11, 2013, pp. 6043-6062.
DOI Link 1312
BibRef

Bandaru, V.[Varaprasad], West, T.O.[Tristram O.], Ricciuto, D.M.[Daniel M.], Izaurralde, R.C.[R. César],
Estimating crop net primary production using national inventory data and MODIS-derived parameters,
PandRS(80), No. 1, June 2013, pp. 61-71.
Elsevier DOI 1305
Agriculture; Carbon flux; Crop production; Geospatial scaling; Phenology; Satellite remote sensing BibRef

Zhu, L.[Likai], Southworth, J.[Jane],
Disentangling the Relationships between Net Primary Production and Precipitation in Southern Africa Savannas Using Satellite Observations from 1982 to 2010,
RS(5), No. 8, 2013, pp. 3803-3825.
DOI Link 1309
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Wang, J.B.[Jun-Bang], Dong, J.W.[Jing-Wei], Liu, J.Y.[Ji-Yuan], Huang, M.[Mei], Li, G.C.[Gui-Cai], Running, S.W.[Steven W.], Smith, W.K.[W. Kolby], Harris, W.[Warwick], Saigusa, N.[Nobuko], Kondo, H.[Hiroaki], Liu, Y.F.[Yun-Fen], Hirano, T.[Takashi], Xiao, X.M.[Xiang-Ming],
Comparison of Gross Primary Productivity Derived from GIMMS NDVI3g, GIMMS, and MODIS in Southeast Asia,
RS(6), No. 3, 2014, pp. 2108-2133.
DOI Link 1404
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Liu, Z.J.[Zheng-Jia], Shao, Q.Q.[Quan-Qin], Liu, J.Y.[Ji-Yuan],
The Performances of MODIS-GPP and -ET Products in China and Their Sensitivity to Input Data (FPAR/LAI),
RS(7), No. 1, 2014, pp. 135-152.
DOI Link 1502
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Chen, J.[Jing], Zhang, H.F.[Hui-Fang], Liu, Z.R.[Zi-Rui], Che, M.L.[Ming-Liang], Chen, B.Z.[Bao-Zhang],
Evaluating Parameter Adjustment in the MODIS Gross Primary Production Algorithm Based on Eddy Covariance Tower Measurements,
RS(6), No. 4, 2014, pp. 3321-3348.
DOI Link 1405
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Wu, C.Y.[Chao-Yang], Gonsamo, A.[Alemu], Zhang, F.M.[Fang-Min], Chen, J.M.[Jing M.],
The potential of the greenness and radiation (GR) model to interpret 8-day gross primary production of vegetation,
PandRS(88), No. 1, 2014, pp. 69-79.
Elsevier DOI 1402
Enhanced vegetation index BibRef

Liu, Z.J.[Zheng-Jia], Wang, L.[Lunche], Wang, S.[Sisi],
Comparison of Different GPP Models in China Using MODIS Image and ChinaFLUX Data,
RS(6), No. 10, 2014, pp. 10215-10231.
DOI Link 1411
BibRef

Neumann, M.[Mathias], Zhao, M.[Maosheng], Kindermann, G.[Georg], Hasenauer, H.[Hubert],
Comparing MODIS Net Primary Production Estimates with Terrestrial National Forest Inventory Data in Austria,
RS(7), No. 4, 2015, pp. 3878-3906.
DOI Link 1505
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Wang, X.F.[Xu-Feng], Cheng, G.D.[Guo-Dong], Li, X.[Xin], Lu, L.[Ling], Ma, M.G.[Ming-Guo],
An Algorithm for Gross Primary Production (GPP) and Net Ecosystem Production (NEP) Estimations in the Midstream of the Heihe River Basin, China,
RS(7), No. 4, 2015, pp. 3651-3669.
DOI Link 1505
BibRef

Gilabert, M.A., Moreno, A., Maselli, F., Martínez, B., Chiesi, M., Sánchez-Ruiz, S., García-Haro, F.J., Pérez-Hoyos, A., Campos-Taberner, M., Pérez-Priego, O., Serrano-Ortiz, P., Carrara, A.,
Daily GPP estimates in Mediterranean ecosystems by combining remote sensing and meteorological data,
PandRS(102), No. 1, 2015, pp. 184-197.
Elsevier DOI 1503
GPP. terrestrial CO2 uptake. BibRef

Álvarez-Taboada, F.[Flor], Tammadge, D.[David], Schlerf, M.[Martin], Skidmore, A.[Andrew],
Assessing MODIS GPP in Non-Forested Biomes in Water Limited Areas Using EC Tower Data,
RS(7), No. 3, 2015, pp. 3274-3292.
DOI Link 1504
Global effect of shrubland, savanna, grasslands. BibRef

Kang, X.M.[Xiao-Ming], Hao, Y.[Yanbin], Cui, X.Y.[Xiao-Yong], Chen, H.[Huai], Huang, S.X.[San-Xiang], Du, Y.[Yangong], Li, W.[Wei], Kardol, P.[Paul], Xiao, X.M.[Xiang-Ming], Cui, L.[Lijuan],
Variability and Changes in Climate, Phenology, and Gross Primary Production of an Alpine Wetland Ecosystem,
RS(8), No. 5, 2016, pp. 391.
DOI Link 1606
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Niu, B.[Ben], He, Y.T.[Yong-Tao], Zhang, X.Z.[Xian-Zhou], Fu, G.[Gang], Shi, P.[Peili], Du, M.Y.[Ming-Yuan], Zhang, Y.J.[Yang-Jian], Zong, N.[Ning],
Tower-Based Validation and Improvement of MODIS Gross Primary Production in an Alpine Swamp Meadow on the Tibetan Plateau,
RS(8), No. 7, 2016, pp. 592.
DOI Link 1608
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Schickling, A.[Anke], Matveeva, M.[Maria], Damm, A.[Alexander], Schween, J.H.[Jan H.], Wahner, A.[Andreas], Graf, A.[Alexander], Crewell, S.[Susanne], Rascher, U.[Uwe],
Combining Sun-Induced Chlorophyll Fluorescence and Photochemical Reflectance Index Improves Diurnal Modeling of Gross Primary Productivity,
RS(8), No. 7, 2016, pp. 574.
DOI Link 1608
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Rafique, R.[Rashid], Zhao, F.[Fang], de Jong, R.[Rogier], Zeng, N.[Ning], Asrar, G.R.[Ghassem R.],
Global and Regional Variability and Change in Terrestrial Ecosystems Net Primary Production and NDVI: A Model-Data Comparison,
RS(8), No. 3, 2016, pp. 177.
DOI Link 1604
BibRef

Joo, H.[Hui_Tae], Son, S.[Seung_Hyun], Park, J.W.[Jung-Woo], Kang, J.J.[Jae Joong], Jeong, J.Y.[Jin-Yong], Lee, C.I.[Chung Il], Kang, C.K.[Chang-Keun], Lee, S.H.[Sang Heon],
Long-Term Pattern of Primary Productivity in the East/Japan Sea Based on Ocean Color Data Derived from MODIS-Aqua,
RS(8), No. 1, 2016, pp. 25.
DOI Link 1602
BibRef

Neumann, M.[Mathias], Moreno, A.[Adam], Thurnher, C.[Christopher], Mues, V.[Volker], Härkönen, S.[Sanna], Mura, M.[Matteo], Bouriaud, O.[Olivier], Lang, M.[Mait], Cardellini, G.[Giuseppe], Thivolle-Cazat, A.[Alain], Bronisz, K.[Karol], Merganic, J.[Jan], Alberdi, I.[Iciar], Astrup, R.[Rasmus], Mohren, F.[Frits], Zhao, M.[Maosheng], Hasenauer, H.[Hubert],
Creating a Regional MODIS Satellite-Driven Net Primary Production Dataset for European Forests,
RS(8), No. 7, 2016, pp. 554.
DOI Link 1608
BibRef

Gilabert, M.A.[María Amparo], Sánchez-Ruiz, S.[Sergio], Moreno, Á.[Álvaro],
Annual Gross Primary Production from Vegetation Indices: A Theoretically Sound Approach,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link 1704
BibRef

Zhang, R.[Rui], Zhou, Y.[Yi], Luo, H.X.[Hong-Xia], Wang, F.[Futao], Wang, S.X.[Shi-Xin],
Estimation and Analysis of Spatiotemporal Dynamics of the Net Primary Productivity Integrating Efficiency Model with Process Model in Karst Area,
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link 1706
regional net primary productivity. BibRef

Tebbs, E.J.[Emma J.], Rowland, C.S.[Clare S.], Smart, S.M.[Simon M.], Maskell, L.C.[Lindsay C.], Norton, L.R.[Lisa R.],
Regional-Scale High Spatial Resolution Mapping of Aboveground Net Primary Productivity (ANPP) from Field Survey and Landsat Data: A Case Study for the Country of Wales,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708
BibRef

Ma, R.[Rui], Zhang, L.[Li], Tian, X.J.[Xiang-Jun], Zhang, J.C.[Jian-Cai], Yuan, W.P.[Wen-Ping], Zheng, Y.[Yi], Zhao, X.[Xiang], Kato, T.[Tomomichi],
Assimilation of Remotely-Sensed Leaf Area Index into a Dynamic Vegetation Model for Gross Primary Productivity Estimation,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link 1704
BibRef

Hu, L.[Ling], Fan, W.J.[Wen-Jie], Ren, H.Z.[Hua-Zhong], Liu, S.[Suhong], Cui, Y.[Yaokui], Zhao, P.[Peng],
Spatiotemporal Dynamics in Vegetation GPP over the Great Khingan Mountains Using GLASS Products from 1982 to 2015,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Tao, J.B.[Jian-Bin], Mishra, D.R.[Deepak R], Cotten, D.L.[David L.], O'Connell, J.[Jessica], Leclerc, M.[Monique], Nahrawi, H.B.[Hafsah Binti], Zhang, G.[Gengsheng], Pahari, R.[Roshani],
A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
BibRef

Meroni, M.[Michele], Fasbender, D.[Dominique], Lopez-Lozano, R.[Raul], Migliavacca, M.[Mirco],
Assimilation of Earth Observation Data Over Cropland and Grassland Sites into a Simple GPP Model,
RS(11), No. 7, 2019, pp. xx-yy.
DOI Link 1904
BibRef

Balzarolo, M.[Manuela], Peńuelas, J.[Josep], Veroustraete, F.[Frank],
Influence of Landscape Heterogeneity and Spatial Resolution in Multi-Temporal In Situ and MODIS NDVI Data Proxies for Seasonal GPP Dynamics,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Lin, X.F.[Xiao-Feng], Chen, B.Z.[Bao-Zhang], Zhang, H.F.[Hui-Fang], Wang, F.[Fei], Chen, J.[Jing], Guo, L.F.[Li-Feng], Kong, Y.[Yawen],
Effects of the Temporal Aggregation and Meteorological Conditions on the Parameter Robustness of OCO-2 SIF-Based and LUE-Based GPP Models for Croplands,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Zhang, F.Y.[Feng-Ying], Zhang, Z.X.[Zeng-Xin], Kong, R.[Rui], Chang, J.[Juan], Tian, J.X.[Jia-Xi], Zhu, B.[Bin], Jiang, S.S.[Shan-Shan], Chen, X.[Xi], Xu, C.Y.[Chong-Yu],
Changes in Forest Net Primary Productivity in the Yangtze River Basin and Its Relationship with Climate Change and Human Activities,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907
BibRef

Shang, E.[Erping], Xu, E.[Erqi], Zhang, H.Q.[Hong-Qi], Liu, F.[Fang],
Analysis of Spatiotemporal Dynamics of the Chinese Vegetation Net Primary Productivity from the 1960s to the 2000s,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Curran, K.[Kieran], Brewin, R.J.W.[Robert J. W.], Tilstone, G.H.[Gavin H.], Bouman, H.A.[Heather A.], Hickman, A.[Anna],
Estimation of Size-Fractionated Primary Production from Satellite Ocean Colour in UK Shelf Seas,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
BibRef

He, M.Z.[Ming-Zhu], Kimball, J.S.[John S.], Maneta, M.P.[Marco P.], Maxwell, B.D.[Bruce D.], Moreno, A.[Alvaro], Beguería, S.[Santiago], Wu, X.C.[Xiao-Cui],
Regional Crop Gross Primary Productivity and Yield Estimation Using Fused Landsat-MODIS Data,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Kang, X.M.[Xiao-Ming], Yan, L.[Liang], Zhang, X.D.[Xiao-Dong], Li, Y.[Yong], Tian, D.S.[Da-Shuan], Peng, C.H.[Chang-Hui], Wu, H.D.[Hai-Dong], Wang, J.Z.[Jin-Zhi], Zhong, L.[Lei],
Modeling Gross Primary Production of a Typical Coastal Wetland in China Using MODIS Time Series and CO2 Eddy Flux Tower Data,
RS(10), No. 5, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Torres de Almeida, C.[Catherine], Delgado, R.C.[Rafael Coll], Galvăo, L.S.[Lęnio Soares], de Oliveira Cruz e Aragăo, L.E.[Luiz Eduardo], Ramos, M.C.[María Concepción],
Improvements of the MODIS Gross Primary Productivity model based on a comprehensive uncertainty assessment over the Brazilian Amazonia,
PandRS(145), 2018, pp. 268-283.
Elsevier DOI 1811
Amazon, Savanna, Validation, MOD17A2, Light use efficiency BibRef

Xie, X.Y.[Xin-Yao], Li, A.[Ainong], Jin, H.[Huaan], Yin, G.F.[Gao-Fei], Bian, J.H.[Jin-Hu],
Spatial Downscaling of Gross Primary Productivity Using Topographic and Vegetation Heterogeneity Information: A Case Study in the Gongga Mountain Region of China,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Lobanova, P.[Polina], Tilstone, G.H.[Gavin H.], Bashmachnikov, I.[Igor], Brotas, V.[Vanda],
Accuracy Assessment of Primary Production Models with and without Photoinhibition Using Ocean-Colour Climate Change Initiative Data in the North East Atlantic Ocean,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
BibRef

Luo, Z.H.[Zhao-Hui], Wu, W.C.[Wen-Chen], Yu, X.[Xijun], Song, Q.G.[Qin-Gmei], Yang, J.[Jian], Wu, J.H.[Jia-Hui], Zhang, H.J.[Heng-Jun],
Variation of Net Primary Production and Its Correlation with Climate Change and Anthropogenic Activities over the Tibetan Plateau,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Hu, J.C.[Jiao-Chan], Liu, L.Y.[Liang-Yun], Guo, J.[Jian], Du, S.S.[Shan-Shan], Liu, X.J.[Xin-Jie],
Upscaling Solar-Induced Chlorophyll Fluorescence from an Instantaneous to Daily Scale Gives an Improved Estimation of the Gross Primary Productivity,
RS(10), No. 10, 2018, pp. xx-yy.
DOI Link 1811
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Chen, T.Y.[Tian-Yang], Xie, Y.C.[Yi-Chun], Liu, C.[Chao], Bai, Y.F.[Yong-Fei], Zhang, A.B.[An-Bing], Mao, L.S.[Li-Shen], Fan, S.[Siyu],
Trend Analysis of Relationship between Primary Productivity, Precipitation and Temperature in Inner Mongolia,
IJGI(7), No. 6, 2018, pp. xx-yy.
DOI Link 1806
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Gómez Giménez, M.[Marta], de Jong, R.[Rogier], Keller, A.[Armin], Rihm, B.[Beat], Schaepman, M.E.[Michael E.],
Studying the Influence of Nitrogen Deposition, Precipitation, Temperature, and Sunshine in Remotely Sensed Gross Primary Production Response in Switzerland,
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link 1905
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Lin, S.R.[Shang-Rong], Li, J.[Jing], Liu, Q.H.[Qin-Huo], Li, L.H.[Long-Hui], Zhao, J.[Jing], Yu, W.T.[Wen-Tao],
Evaluating the Effectiveness of Using Vegetation Indices Based on Red-Edge Reflectance from Sentinel-2 to Estimate Gross Primary Productivity,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Fernández-Martínez, M.[Marcos], Yu, R.[Rong], Gamon, J.[John], Hmimina, G.[Gabriel], Filella, I.[Iolanda], Balzarolo, M.[Manuela], Stocker, B.[Benjamin], Peńuelas, J.[Josep],
Monitoring Spatial and Temporal Variabilities of Gross Primary Production Using MAIAC MODIS Data,
RS(11), No. 7, 2019, pp. xx-yy.
DOI Link 1904
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Li, X.[Xing], Xiao, J.F.[Jing-Feng],
Mapping Photosynthesis Solely from Solar-Induced Chlorophyll Fluorescence: A Global, Fine-Resolution Dataset of Gross Primary Production Derived from OCO-2,
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
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Joiner, J.[Joanna], Yoshida, Y.[Yasuko], Zhang, Y.[Yao], Duveiller, G.[Gregory], Jung, M.[Martin], Lyapustin, A.[Alexei], Wang, Y.[Yujie], Tucker, C.J.[Compton J.],
Estimation of Terrestrial Global Gross Primary Production (GPP) with Satellite Data-Driven Models and Eddy Covariance Flux Data,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Huang, X.J.[Xiao-Juan], Xiao, J.F.[Jing-Feng], Ma, M.G.[Ming-Guo],
Evaluating the Performance of Satellite-Derived Vegetation Indices for Estimating Gross Primary Productivity Using FLUXNET Observations across the Globe,
RS(11), No. 15, 2019, pp. xx-yy.
DOI Link 1908
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Qiu, R.N.[Ruo-Nan], Han, G.[Ge], Ma, X.[Xin], Xu, H.[Hao], Shi, T.Q.[Tian-Qi], Zhang, M.[Miao],
A Comparison of OCO-2 SIF, MODIS GPP, and GOSIF Data from Gross Primary Production (GPP) Estimation and Seasonal Cycles in North America,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
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Liu, F.H.[Fu-Hong], Xu, C.Y.[Chong-Yu], Yang, X.X.[Xiao-Xia], Ye, X.C.[Xu-Chun],
Controls of Climate and Land-Use Change on Terrestrial Net Primary Productivity Variation in a Subtropical Humid Basin,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
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Lan, K.W.[Kuo-Wei], Lian, L.J.[Li-Jhih], Li, C.H.[Chun-Huei], Hsiao, P.Y.[Po-Yuan], Cheng, S.Y.[Sha-Yan],
Validation of a Primary Production Algorithm of Vertically Generalized Production Model Derived from Multi-Satellite Data around the Waters of Taiwan,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
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Liran, O.[Oded], Shir, O.M.[Ofer M.], Levy, S.[Shai], Grunfeld, A.[Ariel], Shelly, Y.[Yuval],
Novel Remote Sensing Index of Electron Transport Rate Predicts Primary Production and Crop Health in L. sativa and Z. mays,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Qiu, R.N.[Ruo-Nan], Han, G.[Ge], Ma, X.[Xin], Sha, Z.Y.[Zong-Yao], Shi, T.Q.[Tian-Qi], Xu, H.[Hao], Zhang, M.[Miao],
CO2 Concentration, A Critical Factor Influencing the Relationship between Solar-induced Chlorophyll Fluorescence and Gross Primary Productivity,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Martínez, B., Gilabert, M.A., Sánchez-Ruiz, S., Campos-Taberner, M., García-Haro, F.J., Brümmer, C., Carrara, A., Feig, G., Grünwald, T., Mammarella, I., Tagesson, T.,
Evaluation of the LSA-SAF gross primary production product derived from SEVIRI/MSG data (MGPP),
PandRS(159), 2020, pp. 220-236.
Elsevier DOI 1912
GPP, SEVIRI/MSG, 10-day, LSA SAF, Water stress, Light-use efficiency, MGPP BibRef

Nuarsa, I.W.[I Wayan], As-syakur, A.R.[Abd. Rahman], Gunadi, I.G.A.[I Gusti Alit], Sukewijaya, I.M.[I Made],
Changes in Gross Primary Production (GPP) over the Past Two Decades Due to Land Use Conversion in a Tourism City,
IJGI(7), No. 2, 2018, pp. xx-yy.
DOI Link 1802
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Wei, X.X.[Xiao-Xu], Wang, X.F.[Xu-Feng], Wei, W.[Wei], Wan, W.[Wei],
Use of Sun-Induced Chlorophyll Fluorescence Obtained by OCO-2 and GOME-2 for GPP Estimates of the Heihe River Basin, China,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
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Kovac, Ž.[Žarko], Platt, T.[Trevor], Gladan, Ž.N.[Živana Nincevic], Morovic, M.[Mira], Sathyendranath, S.[Shubha], Raitsos, D.E.[Dionysios E.], Grbec, B.[Branka], Matic, F.[Frano], Veža, J.[Jere],
A 55-Year Time Series Station for Primary Production in the Adriatic Sea: Data Correction, Extraction of Photosynthesis Parameters and Regime Shifts,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Hinojo-Hinojo, C.[César], Goulden, M.L.[Michael L.],
Plant Traits Help Explain the Tight Relationship between Vegetation Indices and Gross Primary Production,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Zhang, Z.J.[Zhi-Jiang], Zhao, L.[Lin], Lin, A.[Aiwen],
Evaluating the Performance of Sentinel-3A OLCI Land Products for Gross Primary Productivity Estimation Using AmeriFlux Data,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link 2006
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Wang, M.J.[Meng-Jia], Sun, R.[Rui], Zhu, A.[Anran], Xiao, Z.Q.[Zhi-Qiang],
Evaluation and Comparison of Light Use Efficiency and Gross Primary Productivity Using Three Different Approaches,
RS(12), No. 6, 2020, pp. xx-yy.
DOI Link 2003
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Zhou, Y.L.[Yan-Lian], Wu, X.C.[Xiao-Cui], Ju, W.M.[Wei-Min], Zhang, L.M.[Lei-Ming], Chen, Z.[Zhi], He, W.[Wei], Liu, Y.[Yibo], Shen, Y.[Yang],
Modeling the Effects of Global and Diffuse Radiation on Terrestrial Gross Primary Productivity in China Based on a Two-Leaf Light Use Efficiency Model,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
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Kulk, G.[Gemma], Platt, T.[Trevor], Dingle, J.[James], Jackson, T.[Thomas], Jönsson, B.F.[Bror F.], Bouman, H.A.[Heather A.], Babin, M.[Marcel], Brewin, R.J.W.[Robert J. W.], Doblin, M.[Martina], Estrada, M.[Marta], Figueiras, F.G.[Francisco G.], Furuya, K.[Ken], González-Benítez, N.[Natalia], Gudfinnsson, H.G.[Hafsteinn G.], Gudmundsson, K.[Kristinn], Huang, B.Q.[Bang-Qin], Isada, T.[Tomonori], Kovac, Ž.[Žarko], Lutz, V.A.[Vivian A.], Marańón, E.[Emilio], Raman, M.[Mini], Richardson, K.[Katherine], Rozema, P.D.[Patrick D.], van de Poll, W.H.[Willem H.], Segura, V.[Valeria], Tilstone, G.H.[Gavin H.], Uitz, J.[Julia], van Dongen-Vogels, V.[Virginie], Yoshikawa, T.[Takashi], Sathyendranath, S.[Shubha],
Primary Production, an Index of Climate Change in the Ocean: Satellite-Based Estimates over Two Decades,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003
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And: Correction: RS(13), No. 17, 2021, pp. xx-yy.
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Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison,
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IEEE DOI 2012
Carbon, Atmospheric modeling, Productivity, Biological system modeling, Meteorology, Ocean temperature, CbPM, VGPM BibRef

Raj, R.[Rahul], Bayat, B.[Bagher], Lukeš, P.[Petr], Šigut, L.[Ladislav], Homolová, L.[Lucie],
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Wojnowski, W.[Wojciech], Wei, S.S.[Shan-Shan], Li, W.J.[Wen-Juan], Yin, T.G.[Tian-Gang], Li, X.X.[Xian-Xiang], Ow, G.L.F.[Genevieve Lai Fern], Yusof, M.L.M.[Mohamed Lokman Mohd], Whittle, A.J.[Andrew J.],
Comparison of Absorbed and Intercepted Fractions of PAR for Individual Trees Based on Radiative Transfer Model Simulations,
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Maleki, M.[Maral], Arriga, N.[Nicola], Barrios, J.M.[José Miguel], Wieneke, S.[Sebastian], Liu, Q.A.[Qi-Ang], Peńuelas, J.[Josep], Janssens, I.A.[Ivan A.], Balzarolo, M.[Manuela],
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Wang, H.B.[Hai-Bo], Xiao, J.F.[Jing-Feng],
Improving the Capability of the SCOPE Model for Simulating Solar-Induced Fluorescence and Gross Primary Production Using Data from OCO-2 and Flux Towers,
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Solar-induced chlorophyll fluorescence. For Gross Primary Production. BibRef

Bai, Y.[Yu], Liang, S.L.[Shun-Lin], Yuan, W.P.[Wen-Ping],
Estimating Global Gross Primary Production from Sun-Induced Chlorophyll Fluorescence Data and Auxiliary Information Using Machine Learning Methods,
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Cheng, X.F.[Xiang-Fen], Zhou, Y.[Yu], Hu, M.J.[Mei-Jun], Wang, F.[Feng], Huang, H.[Hui], Zhang, J.S.[Jin-Song],
The Links between Canopy Solar-Induced Chlorophyll Fluorescence and Gross Primary Production Responses to Meteorological Factors in the Growing Season in Deciduous Broadleaf Forest,
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Cervantes-Duarte, R.[Rafael], González-Rodríguez, E.[Eduardo], Funes-Rodríguez, R.[René], Ramos-Rodríguez, A.[Alejandro], Torres-Hernández, M.Y.[María Yesenia], Aguirre-Bahena, F.[Fernando],
Variability of Net Primary Productivity and Associated Biophysical Drivers in Bahía de La Paz (Mexico),
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Cai, Z.Z.[Zhan-Zhang], Junttila, S.[Sofia], Holst, J.[Jutta], Jin, H.X.[Hong-Xiao], Ardö, J.[Jonas], Ibrom, A.[Andreas], Peichl, M.[Matthias], Mölder, M.[Meelis], Jönsson, P.[Per], Rinne, J.[Janne], Karamihalaki, M.[Maria], Eklundh, L.[Lars],
Modelling Daily Gross Primary Productivity with Sentinel-2 Data in the Nordic Region: Comparison with Data from MODIS,
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Zhang, F.J.[Feng-Ji], Zhang, Z.J.[Zhi-Jiang], Long, Y.[Yi], Zhang, L.[Ling],
Integration of Sentinel-3 OLCI Land Products and MERRA2 Meteorology Data into Light Use Efficiency and Vegetation Index-Driven Models for Modeling Gross Primary Production,
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Zhu, X.F.[Xiu-Fang], Zhang, S.Z.[Shi-Zhe], Liu, T.T.[Ting-Ting], Liu, Y.[Ying],
Impacts of Heat and Drought on Gross Primary Productivity in China,
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Zhang, H.L.[He-Lin], Sun, R.[Rui], Peng, D.L.[Dai-Liang], Yang, X.H.[Xiao-Hua], Wang, Y.[Yan], Hu, Y.M.[Yue-Ming], Zheng, S.J.[Shi-Jun], Zhang, J.Y.[Jing-Yu], Bai, J.[Jia], Li, Q.[Qi],
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Ding, Z.[Zhi], Zheng, H.[Hui], Liu, Y.[Ying], Zeng, S.D.[Si-Dong], Yu, P.[Pujia], Shi, W.[Wei], Tang, X.G.[Xu-Guang],
Spatiotemporal Patterns of Ecosystem Restoration Activities and Their Effects on Changes in Terrestrial Gross Primary Production in Southwest China,
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Zhang, Y.[Yin], Hu, Q.W.[Qing-Wu], Zou, F.L.[Feng-Li],
Spatio-Temporal Changes of Vegetation Net Primary Productivity and Its Driving Factors on the Qinghai-Tibetan Plateau from 2001 to 2017,
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Liu, J.J.[Jia-Jia], Zhou, T.[Tao], Luo, H.[Hui], Liu, X.[Xia], Yu, P.[Peixin], Zhang, Y.[Yajie], Zhou, P.[Peifang],
Diverse Roles of Previous Years' Water Conditions in Gross Primary Productivity in China,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
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Wang, Z.[Zhao], Liu, S.G.[Shu-Guang], Wang, Y.P.[Ying-Ping], Valbuena, R.[Ruben], Wu, Y.P.[Yi-Ping], Kutia, M.[Mykola], Zheng, Y.[Yi], Lu, W.Z.[Wei-Zhi], Zhu, Y.[Yu], Zhao, M.F.[Mei-Fang], Peng, X.[Xi], Gao, H.Q.[Hai-Qiang], Feng, S.L.[Shuai-Long], Shi, Y.[Yi],
Tighten the Bolts and Nuts on GPP Estimations from Sites to the Globe: An Assessment of Remote Sensing Based LUE Models and Supporting Data Fields,
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Yu, T.[Tao], Zhang, Q.[Qiang], Sun, R.[Rui],
Comparison of Machine Learning Methods to Up-Scale Gross Primary Production,
RS(13), No. 13, 2021, pp. xx-yy.
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Li, C.[Chuanhua], Dou, T.[Tianbao], Wang, Y.[Yutao], Zhu, T.[Tongbin], Yin, H.[Huanhuan], Zhou, M.[Min], Liu, L.H.[Li-Hui], Wu, X.D.[Xiao-Dong],
A Method for Quantifying the Impacts of Human Activities on Net Primary Production of Grasslands in Northwest China,
RS(13), No. 13, 2021, pp. xx-yy.
DOI Link 2107
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Nanzad, L.[Lkhagvadorj], Zhang, J.[Jiahua], Tuvdendorj, B.[Battsetseg], Yang, S.S.[Shan-Shan], Rinzin, S.[Sonam], Prodhan, F.A.[Foyez Ahmed], Sharma, T.P.P.[Til Prasad Pangali],
Assessment of Drought Impact on Net Primary Productivity in the Terrestrial Ecosystems of Mongolia from 2003 to 2018,
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DOI Link 2107
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Gao, H.[Haiqiang], Liu, S.G.[Shu-Guang], Lu, W.Z.[Wei-Zhi], Smith, A.R.[Andrew R.], Valbuena, R.[Rubén], Yan, W.[Wende], Wang, Z.[Zhao], Xiao, L.[Li], Peng, X.[Xi], Li, Q.[Qinyuan], Feng, Y.J.[Yu-Jun], McDonald, M.[Morag], Pagella, T.[Tim], Liao, J.[Juyang], Wu, Z.[Zhenming], Zhang, G.[Gui],
Global Analysis of the Relationship between Reconstructed Solar-Induced Chlorophyll Fluorescence (SIF) and Gross Primary Production (GPP),
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Ma, D.[Dujuan], Wu, X.D.[Xiao-Dan], Ma, X.[Xuanlong], Wang, J.P.[Jing-Ping], Lin, X.[Xingwen], Mu, C.[Cuicui],
Spatial, Phenological, and Inter-Annual Variations of Gross Primary Productivity in the Arctic from 2001 to 2019,
RS(13), No. 15, 2021, pp. xx-yy.
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Sun, H.[Hao], Hu, J.Q.[Jia-Qi], Wang, J.X.[Jia-Xiang], Zhou, J.H.[Jing-Heng], Lv, L.[Ling], Nie, J.Y.[Jing-Yan],
RSPD: A Novel Remote Sensing Index of Plant Biodiversity Combining Spectral Variation Hypothesis and Productivity Hypothesis,
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Liu, Q.[Qi], Liu, Q.[Quan], Meng, X.[Xianglei], Zhang, J.[Jiahua], Yao, F.[Fengmei], Zhang, H.[Hairu],
The Impact of Seasonality and Response Period on Qualifying the Relationship between Ecosystem Productivity and Climatic Factors over the Eurasian Steppe,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
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Gan, G.J.[Guo-Jing], Zhao, X.S.[Xiao-Song], Fan, X.[Xingwang], Xie, H.[Henwang], Jin, W.[Weirong], Zhou, H.[Han], Cui, Y.[Yifan], Liu, Y.[Yuanbo],
Estimating the Gross Primary Production and Evapotranspiration of Rice Paddy Fields in the Sub-Tropical Region of China Using a Remotely-Sensed Based Water-Carbon Coupled Model,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Wolf, J.[Julie], Chen, M.[Min], Asrar, G.R.[Ghassem R.],
Global Rangeland Primary Production and Its Consumption by Livestock in 2000-2010,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
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Xie, X.Y.[Xin-Yao], Li, A.N.[Ai-Nong], Jin, H.[Huaan], Bian, J.[Jinhu], Zhang, Z.J.[Zheng-Jian], Nan, X.[Xi],
Comparing Three Remotely Sensed Approaches for Simulating Gross Primary Productivity over Mountainous Watersheds: A Case Study in the Wanglang National Nature Reserve, China,
RS(13), No. 18, 2021, pp. xx-yy.
DOI Link 2109
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Giralt-Rueda, J.M.[Juan Miguel], Santamaria, L.[Luis],
Complementary Differences in Primary Production and Phenology among Vegetation Types Increase Ecosystem Resilience to Climate Change and Grazing Pressure in an Iconic Mediterranean Ecosystem,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef


Donmez, C., Berberoglu, S., Forrest, M., Cilek, A., Hickler, T.,
Comparing Process-Based Net Primary Productivity Models in a Mediterranean Watershed,
SSG13(67-74).
DOI Link 1402
BibRef

Li, T.[Ting], Wang, L.[Lin],
Spatio-temporal variation trends of vegetation net primary productivity based on AVHRR,
CVRS12(359-361).
IEEE DOI 1302
BibRef

Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Invasive Plants, Weeds, Exotic Plants .


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