[논문]Geographical variations in gross primary production and evapotranspiration of paddy rice in the Korean Peninsula

Jeong, Seungtaek; Ko, Jonghan; Kang, Minseok; Yeom, Jongmin; Ng, Chi Tim; Lee, Seung- Hoon; Lee, Yeon-Gil; Kim, Han-Yong

doi:10.1016/j.scitotenv.2020.136632

[해외논문] Geographical variations in gross primary production and evapotranspiration of paddy rice in the Korean Peninsula

The Science of the total environment, v.714, 2020년, pp.136632 -

Jeong, Seungtaek (Department of Applied Plant Science, Chonnam National University) , Ko, Jonghan (Department of Applied Plant Science, Chonnam National University) , Kang, Minseok (National Center for Agro Meteorology) , Yeom, Jongmin (Korea Aerospace Research Institute) , Ng, Chi Tim (Department of Statistics, Chonnam National University) , Lee, Seung- Hoon (Interdisciplinary Program in Agricultural & Forest Meteorology, Seoul National University) , Lee, Yeon-Gil (Korea Institute of Hydrological Survey) , Kim, Han-Yong (Department of Applied Plant Science, Chonnam National University)

Abstract ▼ AI-Helper

Abstract The quantification of canopy photosynthesis and evapotranspiration of crops (ETc) is essential to appreciate the effects of environmental changes on CO2 flux and water availability in agricultural ecosystems and crop productivity. This study simulated the canopy photosynthesis and ET processes of paddy rice (Oryza sativa) based on the development of physiological modules (i.e., gross primary production [GPP] and ETc) and their incorporation into the GRAMI-rice model that uses remote sensing data. We also projected spatiotemporal variations in the GPP, ET, yield, and biomass of paddy rice at maturity using the updated GRAMI-rice model combined with geostationary satellite images to identify the relationships of canopy photosynthesis and ETc with crop productivity. GPP and ET data for paddy rice were obtained from three KoFlux sites in South Korea in 2015 and 2016. Vegetation indices were acquired from the Geostationary Ocean Color Imager (GOCI) of the Communication Ocean and Meteorological Satellite (COMS) from 2012 to 2017 and integrated into GRAMI-rice. GPP and ETc estimates using GRAMI-rice were in close agreement with flux tower estimates with Nash-Sutcliffe efficiency ranges of 0.40–0.79 for GPP and 0.49–0.62 for ETc. Also, GRAMI-rice was reasonably well incorporated with the COMS GOCI imagery and reproduced spatiotemporal variations in the GPP and ET of rice in the Korean peninsula. The current study results demonstrate that the updated GRAMI–rice model with the canopy photosynthesis and ETc modules is capable of reproducing spatiotemporal variations in CO2 assimilation and ET of paddy rice at various geographical scales and for regions of interest that are observable by satellite sensors (e.g., inaccessible North Korea). Highlights Geostationary satellite images were integrated into the GRAMI-rice model. Simulated gross primary production (GPP) agreed with flux tower-measured GPP. Simulated crop evapotranspiration (ETc) corresponded to the flux tower-measured ETc. The modeling system well reproduced geographical variations in GPP and ETc. Strong correlations between GPP and yield were observed in western Korea. Graphical abstract [DISPLAY OMISSION]

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