02815naa a2200265 a 450000100080000000500110000800800410001902200140006002400500007410000190012424501570014326000090030052020270030965000120233665000150234865000170236365000250238070000190240570000210242470000190244570000210246470000170248570000140250277300330251621457592022-08-25       2021    bl uuuu     u00u1 u    #d  a2073-43957 ahttps://doi.org/10.3390/agronomy111225692DOI1 aGIRARDI, E. A.  aThe perfect matchbadjusting high tree density to rootstock vigor for improving cropping and land use efficiency of sweet orange.h[electronic resource]  c2021  aThe rise in the productivity of sweet orange in Brazil has been related to the use of superior rootstocks and higher tree density, among other factors. In order to investigate whether the cropping system and the land use efficiency would benefit from more intensive cultivation, the performance of Valencia sweet orange was evaluated over nine years on four rootstocks, which induced contrasting vigor, at 513, 696 and 1000 trees·ha?1. Agronomic Institute of Campinas (IAC) 1697 and IAC 1710 citrandarins, and diploid and allotetraploid (4×) Swingle citrumelos were classified as semi-dwarfing, super-standard, standard, and dwarfing rootstocks, respectively. The fruit yield per tree was decreased at higher tree densities, notably for more vigorous rootstocks. Conversely, the cumulative productivity was increased over the evaluation period by 27% at 1000 trees·ha?1, irrespective of the rootstock, and the most vigorous rootstock resulted in 2.5 times higher production than the dwarfing one on average. Most fruit quality parameters were seldom influenced by the tree density, while the rootstock was a decisive factor in improving the quality and the soluble solids content. Dwarfing rootstocks allowed for harvesting 17% more fruit per minute by manual pickers. Because the tree row volume per area is lower with such rootstocks, even at higher tree density, spray volume can be reduced, although appropriate equipment should be developed for better spray coverage on smaller trees. Nine years after planting under strict vector control, the cumulative incidence of huanglongbing-symptomatic trees on IAC 1710 was double that on Swingle 4×. Taken together, the results suggested that the land use efficiency in the citrus industry can be further improved by planting vigorous rootstocks at moderate to high tree densities. Nevertheless, obtaining highly productive semi-dwarfing and dwarfing rootstocks is the sine qua non for making high-density pedestrian sweet orange orchards more profitable. View Full-Text  aOranges  aRootstocks  aLaranja Doce  aPlanta Porta-Enxerto1 aSOLA, J. G. P.1 aSCAPIN, M. da S.1 aMOREIRA, A. S.1 aBASSANEZI, R. B.1 aAYRES, A. J.1 aPEÑA, L.  tAgronomygv. 11, 2569, 2021.