02020naa a2200265 a 450000100080000000500110000800800410001910000180006024501000007826000090017852012320018765300150141965300230143465300270145765300190148470000170150370000240152070000150154470000190155970000210157870000230159970000220162270000160164477300940166011301372020-11-10       2020    bl uuuu     u00u1 u    #d1 aGIROTO, A. S.  aTailoring Efficient Materials for NPK All-in-One Granular Fertilization.h[electronic resource]  c2020  aFood security is one of the biggest challenges for the next few decades, especially with the accelerated population growth rates. Therefore, achieving a better nutrient use efficiency is crucial to enhance crop yields and productivity, which depend directly on how macronutrients are supplied. It is notably complex because fertilizers are often applied as granules instead of more soluble powdered forms. Here, we propose a new model for an allin-one NPK fertilizer production, which allows quickly adjustable compositions in multi-nutrient granules. Thus, thermoplastic starch has been used as a biodegradable matrix binder mixed with the fertilizers in a continuous process by extrusion. Urea and KCl were considered as N and K sources, respectively. P sources with different solubilities (triple superphosphate (TSP) and Bayovar and Patos phosphate rocks) have been tested and compared. The greenhouse experiment revealed that the TSP composite promoted superior biomass production than the standard application, in addition to an overall better nutrient uptake. While Bayovar did not benefit from the all-in-one granule, Patos results were improved in this system, revealing a boost in its solubilization.  aComposites  aControlled-Release  agreenhouse experiments  aNPK fertilizer1 aVALLE, S. F.1 aGUIMARAES, G. G. F.1 aMOLINA, A.1 aREIS, H. P. G.1 aFERNANDES, D. M.1 aBERNARDI, A. C. C.1 aMATTOSO, L. H. C.1 aRIBEIRO, C.  tIndustrial & Engineering Chemistry Research, Washington, DCgv. 59, p. 18387-18395, 2020.