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References

Ajtay, G. L. (1979). Terrestrial primary production and phytomass. The global carbon cycle, SCOPE 13, 129-181.

Allen, R. G., Pereira, L. S., Raes, D., & Smith, M. (1998). Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56. FAO, Rome, 300(9), D05109.

Allen, R. G., Pereira, L. S., Raes, D., & Smith, M. (2005). Penman-Monteith Equation. Encyclopedia of Soils in the Environment. Elsevier/Academic Press, Oxford/Boston, 180-188.

Allen, R. G., Pruitt, W. O., Wright, J. L., Howell, T. A., Ventura, F., Snyder, R., ... & Smith, M. (2006a). A recommendation on standardized surface resistance for hourly calculation of reference ETo by the FAO56 Penman-Monteith method. Agricultural Water Management, 81(1), 1-22.

Allen, R. G., Trezza, R., & Tasumi, M. (2006b). Analytical integrated functions for daily solar radiation on slopes. Agricultural and Forest Meteorology, 139(1), 55-73.

ASCE (1996), Hydrology Handbook, American Society of Civil Engineers Task Committee on Hydrology Handbook, American Society of Civil Engineering, Publ. 28, 784.Sens. 32, 3689–3709. doi:10.1080/01431161003762405

Atzberger,C. and Eilers, P.H.C. (2011). Evaluating the effectiveness of smoothing algorithms in the absence of ground reference measurements. Int.J.Remote Sens. 32, 3689–3709. doi:10.1080/01431161003762405

Bastiaanssen, W. G. M., Cheema, M. J. M., Immerzeel, W. W., Miltenburg, I. J., & Pelgrum, H. (2012). Surface energy balance and actual evapotranspiration of the transboundary Indus Basin estimated from satellite measurements and the ETLook model. Water Resources Research, 48(11).

Bastiaanssen, W.G.M and S. Ali , 2003. A new crop yield forecasting model based on satellite measurements applied across the Indus Basin, Pakistan. Agriculture, Ecosystems and Environment 94, 321–340

Boschetti et al. (2017), “PhenoRice: A method for automatic extraction of spatio-temporal information on rice crops using satellite data time series,” Remote Sens. Environ., vol. 194, pp. 347–365, 2017.

Braden, H., Energiehaushalts- und Verdunstungsmodell für Wasser- und Stoffhaushalts-untersuchungen landwirtschaftlich genutzter Einzugsgebiete. Mitteilungen der Deutschen Bodenkundlichen Gesellschaft, (1985), 42, 254-299.

Camillo, P. J., & Gurney, R. J. (1986). A resistance parameter for bare-soil evaporation models. Soil Science, 141(2), 95-105.

Carlson, T. (2007). An overview of the" triangle method" for estimating surface evapotranspiration and soil moisture from satellite imagery. Sensors, 7(8), 1612-1629.

Carlson, T. N., & Ripley, D. A. (1997). On the relation between NDVI, fractional vegetation cover, and leaf area index. Remote sensing of Environment, 62(3), 241-252.

Chen, J., Jönsson, P., Tamura, M., Gu, Z., Matsushita, B., & Eklundh, L. (2004). A simple method for reconstructing a high-quality NDVI time-series data set based on the Savitzky–Golay filter. Remote sensing of Environment, 91(3), 332-344.

Chen, X., Cui, Z., Fan, M., Vitousek, P., Zhao, M., Ma, W., ... & Deng, X. (2014). Producing more grain with lower environmental costs. Nature, 514(7523), 486-489.

Choudhury, B. J., Reginato, R. J., & Idso, S. B. (1986). An analysis of infrared temperature observations over wheat and calculation of latent heat flux. Agricultural and Forest Meteorology, 37(1), 75-88.

Clapp, R. B., & Hornberger, G. M. (1978). Empirical equations for some soil hydraulic properties. Water resources research, 14(4), 601-604.

Copernicus Gio Global Land Component – Dry Matter Productivity algorithm theoretical basis document https://land.copernicus.eu/global/sites/cgls.vito.be/files/products/GIOGL1_ATBD_DMP_I2.00.pdf

Copernicus Service information (2019): https://land.copernicus.eu/global/sites/cgls.vito.be/files/products/CGLOPS1_PUM_LC100_V2_I2.10.pdf

Copernicus (2017) Product User Manual Landcover 100m version 2, I2-10.

Di Gregorio, A. (2005). Land cover classification system: classification concepts and user manual: LCCS (No. 8). Food & Agriculture Organization.

Dolman, A. J. (1993). A multiple-source land surface energy balance model for use in general circulation models. Agricultural and Forest Meteorology, 65(1-2), 21-45.

Marharyta Domnich, Indrek Sünter, Heido Trofimov, Olga Wold, Fariha Harun, Anton Kostiukhin, Mihkel Järveoja, Mihkel Veske, Tanel Tamm, Kaupo Voormansik, Aire Olesk, Valentina Boccia, Nicolas Longepe, and Enrico Giuseppe Cadau. 2021. "KappaMask: AI-Based Cloudmask Processor for Sentinel-2" Remote Sensing 13, no. 20: 4100. https://doi.org/10.3390/rs13204100

Duchemin, B., Hadria, R., Erraki, S., Boulet, G., Maisongrande, P., Chehbouni, A., ... & Khabba, S. (2006). Monitoring wheat phenology and irrigation in Central Morocco: On the use of relationships between evapotranspiration, crops coefficients, leaf area index and remotely-sensed vegetation indices. Agricultural Water Management, 79(1), 1-27.

Eerens, H., Piccard, I., Royer, A., & Orlandi, S. (2004). Methodology of the MARS crop yield forecasting system. Vol. 3: Remote sensing information, data processing and analysis. Eds. Royer A. and Genovese G., EUR, 21291
FAO (2020). WaPOR V2 quality assessment – Technical Report on the Data Quality of the WaPOR FAO Database version 2. Rome. https://doi.org/10.4060/cb2208en

Eilers, Paul H.C. (2003). A perfect smoother. Analytical Chemistry 2003 75 (14), 3631-3636. DOI: 10.1021/ac034173t

Eilers, P. H. C. , V. Pesendorfer and R. Bonifacio, "Automatic smoothing of remote sensing data," 2017 9th International Workshop on the Analysis of Multitemporal Remote Sensing Images (MultiTemp), Brugge, 2017, pp. 1-3. doi: 10.1109/Multi-Temp.2017.8076705 DOI: 10.1109/Multi-Temp.2017.8076705

FAO (2016). Water Accounting and Auditing: A Sourcebook. FAO Water Reports, no. 43.

FAO and IHE Delft (2019). WaPOR quality assessment. Technical report on the data quality of the WaPOR FAO database version 1.0. Rome. 134 pp.

Foody, G. M. (2002). Status of land cover classification accuracy assessment. Remote sensing of environment, 80(1), 185-201.

Gao, B. C. (1996). NDWI—A normalized difference water index for remote sensing of vegetation liquid water from space. Remote sensing of environment, 58(3), 257-266.

Gao, F.; Kustas, W.; Anderson, M. A Data Mining Approach for Sharpening Thermal Satellite Imagery over Land. Remote Sens. 2012, 4, 3287–3319

Gitelson, Anatoly A. and John A. Gamon, 2015. The need for a common basis for defining light-use efficiency: Implications for productivity estimation. Remote Sensing of Environment 156 (January 2015), pp. 196–201; doi: 10.1016/j.rse.2014.09.017

Gitelson, Anatoly A., Timothy J. Arkebauer, and Andrew E. Suyker, 2018. Convergence of daily light use efficiency in irrigated and rainfed C3 and C4 crops. Remote Sensing of Environment 217, 30-37

Guzinski, R., & Nieto, H. (2019). Evaluating the feasibility of using Sentinel-2 and Sentinel-3 satellites for high-resolution evapotranspiration estimations. Remote Sensing of Environment, 221, 157–172. https://doi.org/10.1016/j.rse.2018.11.019

Hazaymeh, K., & Hassan, Q. K. (2015). Spatiotemporal image-fusion model for enhancing the temporal resolution of Landsat-8 surface reflectance images using MODIS images. Journal of Applied Remote Sensing, 9(1), 096095-096095.
Holtslag, A. A. M. (1984). Estimates of diabatic wind speed profiles from near-surface weather observations. Boundary-Layer Meteorology, 29(3), 225-250.

Jarvis, P. G. (1976). The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 273(927), 593-610.

Jiménez-Muñoz, J.C., Cristóbal, J., Sobrino, J.A., Sòria, G., Ninyerola, M. and Pons X. “Revision of the Single-Channel Algorithm for Land Surface Temperature Retrieval From Landsat Thermal-Infrared Data” IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING 47 (1): 339-349 (2009)

Katerji, W. and Sheng, T. (2012), Litani River Basin Management Support Program, Land Use And Crop Classification Analysis For The Upper Litani River Basin (May 2011 – October 2011) . USAIDS Projects Reports.

Kooman, P.L., Rabbinge, R., 1996. An Analysis of the Relation between Dry Matter Allocation to the Tuber and Earliness of a Potato Crop. Ann. Bot. 77, 235–242. https://doi.org/10.1006/anbo.1996.0027

Liang, Shunlin, Alan H. Strahler, Charles Walthall, 1999. Retrieval of Land Surface Albedo from Satellite Observations: A Simulation Study. Journal of Applied Meteorology and Climatology, 38: 6, 712-725. https://doi.org/10.1175/1520-0450(1999)038<0712:ROLSAF>2.0.CO;2

Lobell, D.B., Hicke, J.A., Asner, G.P., Field, C.B., Tucker, C.J., Los, S.O., 2002. Satellite estimates of productivity and light use efficiency in United States agriculture, 1982-98. Glob. Chang. Biol. 8, 722–735. https://doi.org/10.1046/j.1365-2486.2002.00503.x

Mao, Q.; Peng, J.; Wang, Y. Resolution Enhancement of Remotely Sensed Land Surface Temperature: Current Status and Perspectives. Remote Sens. 2021, 13, 1306. https://doi.org/10.3390/rs13071306

McCree, K. J. (1972). Test of current definitions of photosynthetically active radiation against leaf photosynthesis data. Agricultural Meteorology, 10, pp. 443-453.

Mehrez, M. B., Taconet, O., Vidal-Madjar, D., & Valencogne, C. (1992). Estimation of stomatal resistance and canopy evaporation during the HAPEX-MOBILHY experiment. Agricultural and forest meteorology, 58(3-4), 285-313.

Monin, A. S., & Obukhov, A. M. F. (1954). Basic laws of turbulent mixing in the surface layer of the atmosphere. Contrib. Geophys. Inst. Acad. Sci. USSR, 151(163), e187.

Monteith, J. L. (1965, July). Evaporation and environment. In Symp. Soc. Exp. Biol (Vol. 19, No. 205-23, p. 4).

Monteith, J. L. (1972). Solar radiation and productivity in tropical ecosystems. Journal of applied ecology, 9(3), 747-766.

Monteith, J., & Unsworth, M. (2013). Principles of environmental physics. Academic Press.

Moran, M. S., Clarke, T. R., Inoue, Y., & Vidal, A. (1994). Estimating crop water deficit using the relation between surface-air temperature and spectral vegetation index. Remote sensing of environment, 49(3), 246-263.

Rahman, H. and G. Dedieu, SMAC: a simplified method for the atmospheric correction of satellite measurements in the solar spectrum, International Journal of Remote Sensing 1994, 15(1), 123-143 , doi.org/10.1080/01431169408954055

Rouse, J. W., Haas, R. H., Schell, J. A., & Deering, D. W. (1974). Monitoring vegetation systems in the Great Plains with ERTS. NASA special publication, 351(1974), 309.

Rozenstein, O., Qin, Z., Derimian, Y. And Karnieli, A. Derivation of Land Surface Temperature for Landsat-8 TIRS Using a Split Window Algorithm, Sensors, 2014, 14(4):5768-5780, https://doi.org/10.3390/s140405768

Sánchez, J. M., Caselles, V., & Kustas, W. P. (2008). Estimating surface energy fluxes using a micro-meteorological model and satellite images. Tethys J. Weather Clim. West. Mediterr, 5, 25-36.

Schlesinger, W.H. 1991. Biogeochemistry, an Analysis of Global Change. New York, USA, Academic Press.

Smith, J. H., Stehman, S. V., Wickham, J. D., & Yang, L. (2003). Effects of landscape characteristics on land-cover class accuracy. Remote Sensing of Environment, 84(3), 342-349.

Sobrino, J. A., Jiménez-Muñoz, J. C., Soria, G., Romaguera Albentosa, M., Guanter, L., Moreno, J., Plaza, A., & Martinez, P. (2008). Land surface emissivity retrieval from different VNIR and TIR sensors. IEEE transactions on geoscience and remote sensing, 46(2), 316-327. https://doi.org/10.1109/TGRS.2007.904834

Steduto, P., Hsiao, T. C., Fereres, E., & Raes, D. (2012). I&D Paper 66 Crop yield response to water. Roma: FAO.

Stewart, J. B. (1988). Modelling surface conductance of pine forest. Agricultural and Forest meteorology, 43(1), 19-35.

Sun et al. (2020). Integration of Time Series Sentinel-1 and Sentinel-2 Imagery for Crop Type Mapping over Oasis Agricultural Areas. Remote Sensing, 12,1,158.

Šúri, M., & Hofierka, J. (2004). A new GIS‐based solar radiation model and its application to photovoltaic assessments. Transactions in GIS, 8(2), 175-190.

Swets, D. L., Reed, B. C., Rowland, J. D., & Marko, S. E. (1999, May). A weighted least-squares approach to temporal NDVI smoothing. In Proceedings of the 1999 ASPRS Annual Conference: From Image to Information, Portland, Oregon (pp. 17-21).

Swets, D.L, Reed, B.C., Rowland, J.D., Marko, S.E. (1999). A weighted least-squares approach to temporal NDVI smoothing. In: Proceedings of the 1999 ASPRS Annual Conference, Portland, Oregon, pp. 526-536.

Swinnen, E., Van Hoolst, R., Eerens, H., (2018). Gio Global Land Component - Lot I ”Operation of the Global Land Component”, Algorithm Theorethical Basis Document, Dry Matter Productivity (DMP) Version 2.

Tasumi, M. Allen, R. G, and R. Trezza (2006). DEM based solar radiation estimation model for hydrological studies. Hydrological Science and Technology 22:197-208

Trischler, J., Sandberg, D., & Thörnqvist, T. (2014). Estimating the annual above-ground biomass production of various species on sites in Sweden on the basis of individual climate and productivity values. Forests, 5(10), 2521-2541.

USGS (2019). Landsat 8 (L8) Data Users Handbook, version 5.0, November 2019. https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/atoms/files/LSDS-1574_L8_Data_Users_Handbook-v5.0.pdf

Valentini, R. (2003). Fluxes of carbon, water and energy of European forests (Vol. 163). Springer Science & Business Media.

Van Hoolst, R., Eerens, H., Haesen, D., Royer, A., Bydekerke, L., Rojas, O., ... & Racionzer, P. (2016). FAO’s AVHRR-based Agricultural Stress Index System (ASIS) for global drought monitoring. International Journal of Remote Sensing, 37(2), 418-439.

Veroustraete, F., Sabbe, H., & Eerens, H. (2002). Estimation of carbon mass fluxes over Europe using the C-Fix model and Euroflux data. Remote Sensing of Environment, 83(3), 376-399.

Villalobos, F. J., & Fereres, E. (Eds.). (2016). Principles of agronomy for sustainable agriculture. Springer. Von Hoyningen-Hüne, J. (1983). Die Interception des Niederschlags in landwirtschaftlichen Beständen. Schriftenreihe des DVWK, 1983, 57, 1-53.

Wallace, J. S., Gash, J. H. C., McNeil, D. D., & Sivakumar, M. V. K. (1986). Measurement and prediction of actual evaporation from sparse dryland crops. Scientific Report on Phase II of ODA Project, 149.

Weiss, D.J., Atkinson, P.M., Bhatt, S., Mappin, B., Hay, S.I. and Gething, P.W., “An effective approach for gap-filling continental scale remotely sensed time-series” ISPRS Journal of Photogrammetry and Remote Sensing 98:106-118 (2014). doi.org/10.1016/j.isprsjprs.2014.10.001.

Wulder, M. A., Hall, R. J., Coops, N. C., & Franklin, S. E. (2004). High spatial resolution remotely sensed data for ecosystem characterization. BioScience, 54(6), 511-521.

Xu (2006). Modification of normalised difference water index (NDWI) to enhance open water features in remotely sensed imagery. International Journal of Remote Sensing, 27, 14, 3025-3033.

Zanaga, D., Van De Kerchove, R., Daems, D., De Keersmaecker, W., Brockmann, C., Kirches, G., Wevers, J., Cartus, O., Santoro, M., Fritz, S., Lesiv, M., Herold, M., Tsendbazar, N.E., Xu, P., Ramoino, F., Arino, O., 2022. ESA WorldCover 10 m 2021 v200. https://doi.org/10.5281/zenodo.7254221

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