02885naa a2200505 a 450000100080000000500110000800800410001902200460006002400440010610000200015024501360017026000090030652014520031565000250176765000170179265000160180965000130182565000260183865000250186465000190188965000110190865000100191965000210192965000310195065000140198165000250199565000090202065000180202965000150204765000120206265000110207465300270208565300160211265300200212865300170214865300170216565300230218265300150220570000150222070000190223570000200225470000180227470000210229277300660231321308482021-06-14       2021    bl uuuu     u00u1 u    #d  a0002-1962 (printed) / 1435-0645 (online).7 ahttps://doi.org/10.1002/agj2.206172DOI1 aPARTELLI, F. L.  aProportion of ripe fruit weight and volume to green coffeebdifferences in 43 genotypes of Coffea canephora.h[electronic resource]  c2021  aThe processing yield or performance, which includes drying and depulping of coffee fruits, can be calculated as the relationship between the volume of ripe coffee fruits and green coffee weight and is a relevant characteristic for the development of new cultivars. The purpose of this study was to evaluate the processing performance of 42 genotypes and one population of Coffea canephora. The treatments consisted of 42 C. canephora genotypes propagated by cuttings and one seed-derived population arranged in a randomized block design with three replications. The genotypes were harvested when 80% of the fruits were in the ripe stage (red berries). We evaluated the relationship of the volume to weight of ripe fruit (ripe fruit volume [RFV]/ripe fruit weight [RFW]), the percentage of seed per fruit (% of seeds), the yield (in liters of ripe coffee) required to produce a 60-kg bag of green coffee, and the relationship between RFW and dry green bean weight (RFW/dry seed weight [DSW]). The results were subjected to ANOVA, and the means were grouped by the Scott-Knott test (p &lt .05). The mean yield of the evaluated genotypes was 347.57 L bag-1 of green coffee (between 294.01 and 439.72 L bag-1). A lower seed per fruit percentage identifies genotypes with a lower yield and higher RFW/DSW ratio. The genotypes Z21, 700, AD1, LB1, Emcapa 143, and AP required less than 315 L of ripe coffee to produce one 60-kg bag of green coffee beans.  aAnalysis of variance  aCoffee beans  aFruit yield  aGenotype  aProcessing technology  aStatistical analysis  aVariety trials  aWeight  aCafé  aCoffea Canephora  aComportamento de Variedade  aGenótipo  aMétodo Estatístico  aPeso  aProcessamento  aRendimento  aSemente  aVolume  aAnálise de variância  aCafé verde  aEspírito Santo  aFruto maduro  aGreen coffee  aNova Venécia (ES)  aRipe fruit1 aOLIOSI, G.1 aDALAZEN, J. R.1 aSILVA, C. A. da1 aVIEIRA, H. D.1 aESPINDULA, M. C.  tAgronomy Journalgv. 113, n. 2, p. 1050-1057, Mar./Apr. 2021.