03349naa a2200313 a 450000100080000000500110000800800410001902200140006002400470007410000200012124501490014126000090029052024060029965000150270565000210272065000190274165000180276065300270277865300140280570000190281970000260283870000190286470000150288370000190289870000180291770000180293570000180295377300640297121274672020-12-02       2020    bl uuuu     u00u1 u    #d  a0926-66907 adoi.org/10.1016/j.indcrop.2020.1128122DOI1 aSILVA, M. T. da  aInnovative substrates for sugarcane seedling productionbSewage sludges and rice husk ash in a waste-to-product strategy.h[electronic resource]  c2020  aRecent advances in the sucroenergy production chain include a new way of planting sugarcane based on a method of seedling propagation which requires a significant amount of substrate. Since the sucroenergy sector has been noted as having cleaner energy production, it is imperative that sustainable substrates suitable for the production of sugarcane seedlings be developed. Therefore, the main objective of this study was to develop innovative substrates with solar-dried sewage sludges and rice husk ash to compose substrates for sugarcane seedling production. Batches of sewage sludges were collected in open drying beds from three different municipal wastewater treatment plants from the Rio Grande do Sul State, Brazil: from Passo Fundo city (treated by anaerobic digestion), from Rio Grande city (aerobic digestion) and from Santa Maria city (aerobic digestion). Rice husk ash was obtained from a rice processing industry in the Pelotas industrial region in southern Brazil. The content of trace elements and the pathogenicity of pure sewage sludge (SS) were analyzed. The nutrient content of SS and rice husk ash (RHA) was determined. Twelve substrates with differing ratios of SS, RHA, and vermiculite were formulated to evaluate the subsequent development of sugarcane seedlings. Chemical and physical attributes were determined in all substrates and compared to a commercial substrate. The experiment was conducted in a greenhouse using mini-setts of sugarcane of the RB867515 genotype. Fifteen days after planting the seedlings were evaluated for stalk diameter, shoot height, shoot dry weight and root, and the Dickson quality index was determined. Sewage sludge showed low levels of heavy metals and pathogenic organisms and high contents of nutrients, especially nitrogen, phosphorus and micronutrients such as Zn and Cu, showing promising suitability as a substrate component for seedling production. In general, substrates of all tested proportions of SS and RHA promoted greater shoot and root dry weight and a superior Dickson Quality Index than the commercial substrate used as reference, except for the formulation containing 87.5 % SS. The viability of combining sludges from municipal wastewater treatment plants and rice husk ash into one product was confirmed using a set of biometric attributes and nutrient tissue contents obtained from the production of sugarcane seedlings.  aBioenergia  aCana de Açúcar  aCasca de Arroz  aLodo Residual  aDesempenho agronômico  aSubstrato1 aMARTINAZZO, R.1 aSILVA, S. D. dos A. e1 aBAMBERG, A. L.1 aSTUMPF, L.1 aFERMINO, M. H.1 aKOHLER, T. W.1 aMATOSO, E. S.1 aVALGAS, R. A.  tIndustrial Crops and Productsgv. 157, 112812, 1 Dec. 2020.