TY - JOUR AV - restricted A1 - Mel, V C A1 - Bado, V B A1 - Ndiaye, S A1 - Djaman, K A1 - Nati, D A B A1 - Manneh, B A1 - Futakuchi, K TI - Predicting Rice Yield Under Salinity Stress Using K/Na Ratio Variable in Plant Tissue UR - https://doi.org/10.1080/00103624.2019.1614605 JF - Communications in Soil Science and Plant Analysis (TSI) SN - 0010-3624 PB - Taylor & Francis N1 - We want to acknowledge Madieye Top a field observer at AfricaRice Saint-Louis, for his great contribution in field operations and data collection. Great thank to Djibril Sagna, Maguette Diouf and Anna Mbengue, the lab technicians at AfricaRice Saint-Louis, for their contribution in plant sampling and analyses in laboratory. N2 - Estimation of yield reduction in crop caused by the salinity stress is mostly based on variations of soil electrical conductivity and the severity of water stress. Crop response curves to salinity were developed without considering ion toxicity and nutritional imbalance in the plant. The objective of this study was to explore the possibility of using the ratio of the concentration of potassium by sodium in rice leaf (leaf-K/Na) to predict yield under the salinity stress. The rice (Oryza sativa L.) yield under fresh and saline condition and the leaf-K/Na related database was created. Data were collected from consecutive three seasons of a field experiment in the Africa Rice Center experimental farm in Senegal (16° 11? N, 16° 15?W). We studied the relationship between the relative yield (Yr), a ratio of yield under the salinity stress to the potential yield and the leaf-K/Na (x). Furthermore, we did regression analyses and F-test to determine the best fitting function. Results indicate that the exponential function [i.e. Yr = 100 exp (-b x)] was the best fitting model with the lowest root mean square error (9.683) and the highest R2 value (0.90). Example applications on independent data from published papers showed relatively good predictions, suggesting that the model can be used to predict rice yield in saline soils. KW - Model KW - nutritional imbalance KW - Oryza sativa KW - yield reduction KW - rice yield KW - salinity stress KW - plant tissue KW - soil Y1 - 2019/// SP - 1321 ID - icrisat11247 EP - 1329 VL - 50 IS - 11 ER -