02441naa a2200325 a 450000100080000000500110000800800410001902400430006010000180010324501260012126000090024752014210025665000210167765000230169865300210172165300220174265300270176465300230179165300180181465300290183265300210186170000200188270000190190270000180192170000140193970000190195370000170197270000240198977301020201321237282020-07-08       2020    bl uuuu     u00u1 u    #d7 a10.30486/ijrowa.2020.1891396.10302DOI1 aSÁ, F. P. de  aPeach palm residue compost as substrate for Bactris gasipaes self-sustaining seedlings production.h[electronic resource]  c2020  aPurpose To comply with purposes of circular economy and sustainability, as well as promoting an appropriate destination for waste from gasipaes agro-industry and adding value to this product, we evaluated the compost of the plant residue as substrate for seedlings production. Methods Waste was collected, composted, dried and ground. Compost samples were characterized chemically and physically. The treatments consisted of different proportions of compost and soil (medium commonly used in B. gasipaes seedling nurseries), to make five growth media (v:v composted peach palm:soil): T1 - 100: 0; T2 - 75:25; T3 - 50:50; T4 - 25:75 and T5- 0: 100. After 120 days of planting the peach palm seedlings, morphological parameters were evaluated. Results For the majority of physicochemical properties, T1 showed superior characteristics, i.e. higher water retention capacity (74.19 v/v), higher total porosity (74.78%) as well as higher concentrations of N, P, K (with 2.90 %, 3412.00 g dm-3 and 7120.00 g dm-3, respectively) when compared to T5. Likewise, for seedling morphological parameters, the material grown in T1 presented higher height and shoot fresh and dry weight. Conclusion B. gasipaes residue compost shows adequate amounts of macro and micronutrients and physical properties that enable satisfactory development of seedlings from the species, thus promoting a self-sustainable seedling production system.  aBactris Gasipaes  aResíduo Orgânico  aCircular economy  aEconomia circular  aFertilizante orgânico  aOrganic fertilizer  aOrganic waste  aRecycling in agriculture  aSoil conditioner1 aBELNIAKI, A. C.1 aPANOBIANCO, M.1 aGABIRA, M. M.1 aKRATZ, D.1 aLIMA, E. A. de1 aWENDLING, I.1 aMAGALHAES, W. L. E.  tInternational Journal of Recycling of Organic Waste in Agriculturegv. 9, n. 2, p. 183-192, 2020.