Publications

Liu, WW; Huang, JF; Wei, CW; Wang, XZ; Mansaray, LR; Han, JH; Zhang, DD; Chen, YL (2018). Mapping water-logging damage on winter wheat at parcel level using high spatial resolution satellite data. ISPRS JOURNAL OF PHOTOGRAMMETRY AND REMOTE SENSING, 142, 243-256.

Abstract
Damage to agricultural crops due to water-logging is becoming more frequent in this era of global climate change. In this study, we investigated the effect of water-logging on winter wheat growth (LAI and aboveground biomass) and yield at a parcel scale using high spatial resolution satellite data. For this purpose, a dynamic mapping of winter wheat LAI and biomass during growth under water-logging conditions was implemented. In addition, yield mapping and yield loss estimation were also carried out to arrive at the potential impacts of water-logging on both winter wheat growth and grain yield. Two varieties of winter wheat were investigated (Yang Mai 14 and Yang Mai 18) at tillering, jointing to booting and flowering. Field conditions were representative of water-logging treatment (contrast check (CK), waterlogging (WL) and flooding (FL)). A total of eight high spatial resolution optical satellite images, including WorldView-2, WorldView-3, Pleiades-1A, SPOT-6, GeoEye-1 and SPOT-7 were obtained at time points concurrent with eight temporal field observations. Seven widely used vegetation indices (VIs) were utilized as independent variables for LAI, biomass and yield estimation. Optimal estimation models were selected according to coefficient of determination (R-2), correlation coefficient (R) and root mean square error (RMSE) for subsequent mapping of LAI, biomass and yield. Results show that the power model, having EVI as the independent variable, had the highest accuracy for biomass estimation (R-2 of 0.78 and RMSE of 0.076 kg/m(2)) while the exponential model with NDVI is the optimal model for LAI estimation (with 0.74 in R-2 and 0.64 in RMSE). GNDVI is the optimal VI for yield mapping, with 0.563 in R-cv (cross validated R) and 843.76 kg/hm(2 )in RMSEcv (cross validated RMSEcv). As for the assessment of waterlogging damage on winter wheat growth, FL showed a more serious impact than that of WL, based on results of the dynamic mapping of biomass and LAI at the same development stages. Water-logging from jointing to booting showed a more serious damage impact with respect to biomass and yield than that at the tillering and flowering stages. Our results have demonstrated the potential of multi-source and high spatial resolution remotely-sensed optical data for quantifying the impact of water-logging on winter wheat growth and grain yield at parcel scales, a research direction that has rarely been reported in agricultural remote sensing literature. This study thus provides a fundamental basis and the possibility for crop yield loss evaluation, water-logging monitoring, and for the design of mitigation strategies that would benefit even small-holder and subsistence farmers.

DOI:
10.1016/j.isprsjprs.2018.05.024

ISSN:
0924-2716