Interphase nuclei, karyotypes and nuclear DNA amounts in five species of Oenocarpus (Arecaceae).

The genus Oenocarpus Martius, 1823 (Arecaceae) includes five species commonly used in Amazonia, especially for their fruits. Little is known about the cytogenetic characteristics and DNA amounts of these species, except for O.bataua (Martius, 1823). This study characterized and compared the types of interphase nuclei, the chromosome sets, and estimated the nuclear DNA amounts of Oenocarpusbacaba (Martius, 1823), O.bataua, O.distichus (Martius, 1823), O.mapora (H. Karsten, 1857) and O.minor (Martius, 1823). Standard cytogenetic analyses and estimates of the nuclear DNA amount by flow cytometry were carried out. These are the first reports of chromosome numbers and DNA amounts, except for O.bataua, as is the description of the chromatin distribution in interphase nuclei and karyotype for all species. All species presented 2n = 36, confirming the previous report for O.bataua. Differences between karyotype formulas and the positioning of secondary constrictions were observed. There were no significant differences for the nuclear DNA amounts among species. The constancy in chromosome number and variations in karyotype formulas suggest the occurrence of chromosome rearrangement as an important mechanism in Oenocarpus speciation.

Agrometeorological models to forecast açaí (Euterpe oleracea Mart.) yield in the Eastern Amazon.

BACKGROUND: The increasing demand in Brazil and the world for products derived from the açaí palm (Euterpe oleracea Mart) has generated changes in its production process, principally due to the necessity of maintaining yield in situations of seasonality and climate fluctuation. The objective of this study was to estimate açaí fruit yield in irrigated system (IRRS) and rainfed system or unirrigated (RAINF) using agrometeorological models in response to climate conditions in the eastern Amazon. Modeling was done using multiple linear regression using the 'stepwise forward' method of variable selection. Monthly air temperature (T) values, solar radiation (SR), vapor pressure deficit (VPD), precipitation + irrigation (P + I), and potential evapotranspiration (PET) in six phenological phases were correlated with yield. The thermal necessity value was calculated through the sum of accumulated degree days (ADD) up to the formation of fruit bunch, as well as the time necessary for initial leaf development, using a base temperature of 10 °C. RESULTS: The most important meteorological variables were T, SR, and VPD for IRRS, and for RAINF water stress had the greatest effect. The accuracy of the agrometeorological models, using maximum values for mean absolute percent error (MAPE), was 0.01 in the IRRS and 1.12 in the RAINF. CONCLUSION: Using these models yield was predicted approximately 6 to 9 months before the harvest, in April, May, November, and December in the IRRS, and January, May, June, August, September, and November for the RAINF. © 2019 Society of Chemical Industry.

Genetic fingerprinting of the Brazilian medicinal plant Chrysobalanus icaco L. (Chrysobalanaceae)

Chrysobalanus icaco L. (Chrysobalanaceae) is a medicinal species widely used in Brazil mainly to treat diabetes. Despite the medicinal importance of C. icaco, genetic information of this genus remains limited. Thus, our aim was to evaluate the influence of the genetic basis of C. icaco by determining its chemotypes. 25 C. icaco genotypes were collected from 15 sites in Belém, Marajó and Northeastern mesoregions of Pará state, Brazil. The genotypes were selected by evaluating the plant morphological characteristics such as fruit color and plant habit. The DNA fingerprinting profile was performed using PCR based RAPD technique and appropriate statistical methods were used. RAPD markers were used for evaluation of genetic diversity and molecular characterization of the C. icaco, using a total of 18 decamer primers. These primers produced 85 amplification products, with an average of 4.7 bands per primer and 99.2% polymorphism. The genotypes are genetically distinct, forming variable clusters in number and constitution by different methods. By the morphological characteristics considered, there is a tendency of clustering based on the color of the ripe fruit. We found the secondary metabolite content depends not on environmental condition, but rather on C. icaco genome. Therefore, it may have implications for ethnopharmacological use of the chemotypes.

Chemical composition and antioxidant capacity of açaí (Euterpe oleracea) genotypes and commercial pulps.

BACKGROUND: Açaí has been reported to contain many bioactive compounds, including phenolic compounds such as anthocyanins. This study aimed to determine the chemical composition and antioxidant potential of pulps of three different açaí genotypes from the Active Germplasm Bank of Embrapa Eastern Amazon and three commercial açaí pulps from Belém, state of Pará, Brazil. RESULTS: Anthocyanin 3-rutinoside was the major anthocyanin present in freeze-dried açaí pulp samples. The commercial sample C showed the greatest amounts of cyanidin 3-glucoside and cyanidin 3-rutinoside (18 942 and 34 397 µg g-1 respectively). The content of phenolic compounds varied significantly among the commercial and genotype samples, and vanillic acid was found in the highest concentration in the samples studied. All açaí samples showed high DPPH, ORAC and TEAC values, confirming the exceptionally high radical-scavenging capacity of açaí pulp previously reported by other researchers. CONCLUSION: The commercial samples showed higher antioxidant capacity and higher levels of anthocyanins and non-anthocyanic compounds than those of the genotype samples. Among the genotypes studied, L4P16 stood out for its higher contents of fibre and bioactive compounds and higher antioxidant capacity, indicating that this genotype has great potential for use in plant breeding programs that should be further explored. © 2016 Society of Chemical Industry.