02683naa a2200337 a 450000100080000000500110000800800410001902400520006010000240011224501600013626000090029652015530030565000230185865000180188165000350189965000140193465000290194865000160197765000100199365300400200365300360204370000250207970000180210470000280212270000310215070000200218170000230220170000280222470000280225277300650228021234052020-06-22       2020    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.1007/s10705-020-10051-32DOI1 aBARROS, B. G. de F.  aBiological nitrogen fixation in field-grown sorghum under different edaphoclimatic conditions is confirmed by N isotopic signatures.h[electronic resource]  c2020  aThe association between sorghum and N2-fixing bacteria has been assessed only under limited conditions. We investigated biological nitrogen fixation (BNF) in situ in fifteen sorghum genotypes with dry or succulent culm types under five edaphoclimatic conditions. One randomized block experiment was established in each of five locations, from the humid to the semiarid regions of Pernambuco state, Brazil. BNF was estimated using the 15N natural abundance method by comparing the average d15N value of each sorghum genotype with those of the reference species. High levels of productivity, up to 22 Mg shoot biomass ha-1 in the 3-month cycle, were obtained where rainfall was high, and up to 5 Mg ha-1 was obtained under low rainfall. The nitrogen contents showed a similar pattern as biomass production, and the genotypes with the highest productivity accumulated from 200 to 300 kg N ha-1. BNF ranged from 55 to 78% of plant N in one location and from 36 to 56% in another location, but BNF did not occur in the other three locations. Although the factors that blocked effective symbiosis were not determined, symbiosis was not influenced by P or K availability. The proportion of N2 fixation was similar in the grainproducing, dry culm genotypes and in the sugar-rich, succulent culm genotypes. The sorghum genotypes fixed N2, reaching up to 218 kg ha-1 N, without inoculation with diazotrophs. Therefore, sorghum has a high potential to fix atmospheric N2, but the factors that block N2 fixation must be identified for crop management planning.  aBiological control  aGrain sorghum  aSorghum bicolor subsp. bicolor  aBactéria  aFixação de Nitrogênio  aNitrogênio  aSorgo  aFixação biológica de nitrogênio  aTécnica de abundância natural1 aFREITAS, A. D. S. de1 aTABOSA, J. N.1 aLYRA, M. do C. C. P. de1 aMERGULHÃO, A. C. do E. S.1 aSILVA, A. F. da1 aOLIVEIRA, W. da S.1 aFERNANDES JUNIOR, P. I.1 aSAMPAIO, E. V. de S. B.  tNutrient Cycling in Agroecosystemsgv. 117, p. 93-101, 2020.