Ghaley, Bhim B.Wosten, HenkOlesen, Jorgen E.Schelde, KirstenBaby, SanmohanKarki, Yubaraj K.Borgesen, Christen D.Smith, PeteYeluripati, JagadeeshFerrise, RobertoBindi, MarcoKuikman, PeterLesschen, Jan-PeterPorter, John R.2018-08-242018-08-242018-08-08Ghaley, B B, Wosten, H, Olesen, J E, Schelde, K, Baby, S, Karki, Y K, Borgesen, C D, Smith, P, Yeluripati, J, Ferrise, R, Bindi, M, Kuikman, P, Lesschen, J-P & Porter, J R 2018, 'Simulation of Soil Organic Carbon Effects on Long-Term Winter Wheat (Triticum aestivum) Production Under Varying Fertilizer Inputs', Frontiers in plant science, vol. 9, 1158. https://doi.org/10.3389/fpls.2018.011581664-462XORCID: /0000-0002-3784-1124/work/162727846http://hdl.handle.net/2164/10968Acknowledgments We appreciate the financial support from EC SMARTSOIL project (Project number: 289694) for funding the collation of long-term experimental data from the project partners and Mr. Per Abrahamsen for helping with the DAISY model. The support from LANDMARK (Grant Agreement No: 635201), WaterFARMING (Grant Agreement No: 689271), and SustainFARM (Grant Agreement No: 652615) projects are acknowledged to carry out revisions and improvement of the scientific content for resubmission of the manuscript9598968engSDG 2 - Zero HungerSDG 13 - Climate ActionSDG 15 - Life on Landgrain yieldDAISY modelnitrogenplant available waterpedotransfer functionslong-term experimentcrop productivityQH301 BiologyEuropean CommissionSMARTSOIL289694QH301Journal article10.3389/fpls.2018.011589