Coffee Science_v.16, 2021
URI permanente para esta coleçãohttps://thoth.dti.ufv.br/handle/123456789/12727
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Item Young coffee leaves biotransformed by aspergillus oryzae in enriched source of caffeic acid(Editora UFLA, 2021) Hernández-Aguirre, Carlos; Mencía-Guevara, Alejandra; Rojas-Rojas, KatherineThis research focused on the study of young coffee leaves as a potential source of caffeic acid from the biotransformation of abundant chlorogenic acid. Aspergillus oryzae was isolated from koji rice and used for the solid-state fermentation of coffee leaves. The bioconversion of chlorogenic acid into caffeic acid was measured by HPLC-DAD. The water infusions of fermented coffee leaves were analyzed by sensory evaluation in comparison with unfermented coffee leaves as well as roasted coffee beans. The biotransformation of young coffee leaves yielded over 3.5-fold change increase of caffeic acid natural content in 87 hours, and equivalently, decreasing concentrations were observed for chlorogenic acids. Other bioactive compounds, such as mangiferin, rutin and caffeine, showed relatively minor changes. Sensory evaluation pointed out the effect of increasing caffeic acid-concentration on bitterness and astringency, which would have to be considered in the development and optimization of functional foods. As bitterness was increased by the enhanced caffeic acid concentrations, desirable flavor descriptors were also associated with fermented leaves, with the inclusion of notes traditionally associated with koji. This bioprocess proved to be highly efficient and could be implemented with relatively simple technology in-farm production systems.Item Alternative treatments diminish oviposition and viability of Leucoptera coffeella (Lepidoptera: Lyonetiidae) eggs and larvae on coffee plants(Editora UFLA, 2021) Androcioli, Humberto Godoy; Hoshino, Adriano Thibes; Meneghin, Ana Maria; Ventura, Mauricio Ursi; Guide, Bruna Aparecida; Hata, Fernando Teruhiko; Menezes Junior, Ayres de OliveiraThe effects of alternative treatments on the oviposition and viability of Leucoptera coffeella eggs and larvae were evaluated. Under controlled conditions, coffee sprouts cv. IAPAR-59, eight months old, were sprayed with brown propolis extract (1%), pyroligneous extract with pepper and garlic (PEPG) (2%), silicate clay (2%), kaolin (5%), lime sulfur (2%), neem oil (1%) and kaolin + neem oil (5% + 1%), distilled water and no treatment. In a first no-choice bioassay, coffee sprouts were sprayed before oviposition and kept in cages, where adult insects within three days after emergence were released. Adults remained in the cages for 24 hours. Eggs were then counted. 10 eggs per sprout were preserved to verify larval mortality. The number of eggs when treated with propolis extract, neem oil, kaolin + neem oil and PEPG decreased in the evaluations. Treatments with neem oil caused greater larval hindrance. Eggs laid on leaves were also sprayed with the treatments. Egg viability was reduced by treatments containing neem oil and lime sulfur. Neem oil treatments resulted in slim adult emergence; intermediate viability with lime sulfur and slight hindrance with silicate clay. Finally, treatments were also sprayed on leaves, hosting first or third instar larvae. Neem treatment caused high mortality for 1st and 3rd instar larvae, however, this effect was reduced when mixed with kaolin. Nonetheless, these negative effects disappeared when considering the adult survival ratio. Results indicated that propolis extract, PEPG and neem oil treatments are suitable for reducing egg deposition, neem oil considerably diminished larvae survival and adult emergence.Item Effectiveness and selectivity of herbicides applied under pre-emergence conditions in weed management for coffee crop(Editora UFLA, 2021) Gonçalves Netto, Acácio; Presoto, Jéssica Cursino; Resende, Laís Sousa; Malardo, Marcelo Rafael; Andrade, Jeisiane de Fátima; Nicolai, Marcelo; Carvalho, Saul Jorge Pinto de; Rodrigues, Matheus Rossi; Marçal, Marcela Borges TomásThe coffee plant is sensitive to weed competition, which negatively affects its growth and development. Thus, the proper and safe use of herbicides is extremely important for weed management to allow the crop to develop its maximum productive potential. The objective of this study was to evaluate the control efficacy of different herbicides under pre-emergence conditions and assess their selectivity for coffee crops. Two experiments were carried out in the field, in randomized block designs, with four replicates and eight treatments, totaling 32 experimental plots. The treatments were: unweeded control; weeded control; sulfentrazone + diuron 1.4 L ha-1; sulfentrazone + diuron 1.7 L ha-1; sulfentrazone + diuron 2.0 L ha-1; sulfentrazone + diuron with indaziflam 1.4 + 0.15 L ha-1; respectively, indaziflam 0.15 L ha-1; and oxyfluorfen + chlorimuron 3.0 L ha-1 + 0.08 kg ha-1, respectively. The treatments were applied prior to the emergence of weeds in a directed spray between the crop rows. Evaluations of weed control in the area, phytotoxicity to the crop, branch length, and internode distance of coffee were conducted at 30, 60, 90, and 120 days after treatment application (DAA). In general, all treatments guaranteed greater than 80% efficacy up to 60 DAA. After this, some treatments suffered reductions in efficacy, and did not guarantee satisfactory con trol up to 120 DAA. For Digitaria nuda, the most effective treatments were those that contained indaziflam alone or in combination with sulfentrazone + diuron, and oxyfluorfen + chlorimuron for 60 DAA. In both experiments and the two species analyzed, the indaziflam treatments guaranteed efficacy percentages above 80%, even at 120 DAA. All treatments were equally selective for the coffee plants under the conditions evaluated.Item Efficiency of Metarhizium anisopliae in the control of Meloidogyne incognita in banana and coffee crops(Editora UFLA, 2021) Oliveira, Claudio Marcelo Gonçalves de; Rosa, Juliana Magrinelli Osório; Pillat, Rhayane Resende; Almeida, José Eduardo Marcondes deBanana and coffee are crops damaged by the root-knot nematode (Meloidogyne incognita). Thus, the objective of this research was to study the efficiency of biological products in the control of M. incognita in both crops. Four experiments were carried out in a greenhouse, in a completely randomized design, inoculating banana and coffee plants with 2000 eggs and second-stage juveniles of M. incognita. In experiment 1, each plot was constituted of a banana seedling cv. Prata Anã. The treatments, applied around each seedling, contained the fungi Metarhizium anisopliae, from the collection kept in the Biological Control/CAPSA, IB, and Pochonia chlamydosporia (the commercial product Rizotec). In experiment 2, coffee seedlings cv. Arara were treated in a single dose with M. anisopliae and P. chlamydosporia. In experiments 3 and 4, coffee seedlings cv. Mundo Novo were treated alone or mixed with M. anisopliaeand Purpureocillium lilacinum. Based on the results obtained after 150 days of inoculation, it was concluded that M. anisopliae and P. chlamydosporia have usage potential for biological control of M. incognita in bananas and coffee. In the coffee crop, P. chlamydosporia showed 81% efficiency in reducing the population of M. incognita, whereas for M. anisopliae, the efficiency was up to 76.9%. However, there was no difference between treatments with biological control agents in relation to fresh root weight and dry weight of the aerial part of the coffee plants.Item Best time and doses to associate chemical and biological control of the coffee berry borer in highland region, Brazil(Editora UFLA, 2021) Krohling, Cesar Abel; Fornazier, Maurício José; Mendonça, Pedro Luís Paulino de; Guarçoni, Rogério Carvalho; Martins, David dos Santos; Alixandre, Fabiano Tristão; Dias, Rodrigo da Silva; Rodrigues, Fernanda Latanze MendesThe coffee berry borer (CBB) Hypothenemus hampei (Ferrari) (Coleoptera: Curculionidae) causes significant damage to yield and quality of coffee beans. Cultural measures are important however, chemical and biological control must be adopted within an integrated CBB management system in order to prevent its damage mainly in larger areas. This study aimed to evaluate different doses and times of spray of the chemical insecticide metaflumizone and its association to the entomopathogenic fungus Beauveria bassiana as a tool to the management of CBB in Arabica coffee. The study was carried out in a high dense crop of Arabica coffee cultivar Catuaí Vermelho at 700 m altitude in the highlands of Espírito Santo state, Brazil. The experimental design used was randomized blocks with eleven treatments, four replications and plots of ten plants. Seven evaluations were carried out by sampling the berries in the upper, middle and two sides of the coffee trees. Metaflumizone at a total dose of 3.5 L ha-1 showed high performance for the control of CBB under field conditions in regions of high altitude. The association of metaflumizone with B. bassiana reduced a mean of 88.5% the infestation level of CBB in the post-harvested coffee beans and it can be used as one of the tools for the Integrated Management of CBB under field conditions. Beauveria bassiana can be associated with metaflumizone to control CBB as a complementary spray in March and at a dose of 2.0 kg ha-1 and should be also used in the Integrated Management of CBB. The monitoring of CBB population must be carried out and the first spraying with chemical or biological insecticide must be started at the recommended control level and in the transit season of CBB when flying adults are exposed.Item Resistance and effect of insecticide-treated coffee berries of different varieties to the penetration of Hypothenemus hampei (Coleoptera: Curculionidae: Scolytinae)(Editora UFLA, 2021) Davi Júnior, Salmo de Melo; Soares, Walyson Silva; Celoto, Fernando Juari; Fernandes, Flávio Lemes; Oliveira, Mariana Martins Fernandes; Botrel, Gabriel Buso BorgesThe control of Hypothenemus hampei, coffee berry borer (CBB) is difficult as the insects infest inside coffee berries and are thus protected from agrochem icals. Coffee varieties with an increased penetration time by H. hampei can help control this pest tends to be exposed insecticide action for long time. Therefore, this study aimed to determine the time taken by H. hampei to entirely penetrate berries of different coffee varieties and whether insecticides have any influence on the penetration time. Thus, twenty five berries of 27 coffee varieties in the green phenological stage were introduced in rubber caps, with the berry crown exposed.. From this experiment, seven varieties were selected for another bioassay, with insecticides being sprayed on the berries. Copulated female H. hampei were released on the berry, and the penetration time was assessed. Finally, a free-choice test to verify H. hampei food preference was performed, using the same seven coffee varieties. The insects took longer to penetrate the Arara, Catuaí Vermelho IAC 144, and Guará coffee-variety berries. Moreover, all coffee varieties treated with the insecticide cyantraniliprole inhibited penetration by H. hampei. Most coffee varieties treated with insecticides showed a prolonged penetration time by H. hampei compared to the same untreated ones, except for the chlorpyrifos insecticide in the Catuaí IAC 144 and IAC 62 varieties. Additionally, H. hampei showed no feeding preference among the different tested coffee varieties.Item Comparision of different application methods to biological control Hypothenemus hampei(Editora UFLA, 2021) Pereira, Raquel Moraes Costa; Almeida, José Eduardo Marcondes de; Batista Filho, AntonioThere are several studies that deal with the problem of infestation by Hypothenemus hampei in Coffeea arabica. However, the ways of applying products based on entomopathogenic fungi are the same as those used for chemicals. The objective of the research was to comparison different methods of application of Beauveria bassiana against H. hampei. The experiments were developed in laboratory, with blastospores and B. bassiana airborne conidia powders were carried out. Application methods based on immersion, Potter Spray Tower and walking on treated surface. Were three experiments were carried out for each method. Bioassays’design comprised seven treatments (including the control), with five repetitions (each) and 25 beetles per repetition. Suspensions were standardized at 2.4×109, 1×109, 5×108, 1×108, 5×107 and 1×107conidia.mL-1. Conidia powder presented initial concentration of 1.14×1010and it was standardized at 1.14×109; 5.7×109; 1.14×108; 5.7×107; 1.14×107 and 5.7×106 conidia.g-1. A simultaneous test was also carried out based to the three application methods; treatment comprised conidia powder concentration of 1x108 and the control. Data were subjected to analysis of variance, which was followed by Tukey test (P<0.05) and, CL50, in the SPSS 12.1 software. The mortality better rates of H. hampei exposed to B. bassiana IBCB66 were1×108(immersion), 1×109 (Potter Spray Tower) and 1×108(walking), where as mean LC50were 6.1×108, 4.1×108, 2.4×108conidia.mL-1for each method, respectively. The highest mortality rate was recorded in the walking tests on the conidian powder at a concentration of 1×108 conidia.g-1 for the three repetitions of the method and also in the simultaneous test.Item Planococcus spp.: behavior and monitoring in conilon coffee crops(Editora UFLA, 2021) Borghi, Edinei José Armani; Fornaciari, Gabriel; Vieira, Mayara Leite; Aguiar, Ronilda Lana; Holtz, Anderson Mathias; Verdin Filho, Abraão Carlos; Comério, Marcone; Andrade Júnior, Saul de; Carvalho, José Romário deThe damage caused by the citrus mealybug attack, Planococcus spp., on Coffea canephora crops is becoming more and more frequent, and may cause losses close to 100%. Knowledge of aspects related to pest behavior and adoption of methods to monitor crop incidence are important tools for integrated pest management. Thus, the objective was to study the behavior of citrus mealybug along the phenological stages of C. canephora and to propose methods to monitor its occurrence in the crops. The study was carried out in an area consisting of adult C. canephora plants of the variety Diamante ES 8112. The study was carried out using four sampling methods: 1) soil and root sampling with a probe; 2) opening small trenches; 3) plagiotropic branches and 4) weed sampling. Evaluations were carried out monthly by checking and confirming the presence of citrus mealybug in the sampled regions. The information obtained was used to describe the behavior of citrus mealybug and to analyze the applicability of the monitoring methods studied. In the absence of the reproductive phase, citrus mealybug lodges in the root system of coffee and weeds, in the region close to the colon, moving to the aerial part of the plants (rosettes) at the beginning of the flowering of the crop. Probe sampling was not efficient, while opening small trenches is a difficult procedure and causes damage to the root system of the coffee tree. The sampling of plagiotropic branches and weeds allows the monitoring of citrus mealybug duringall the phenological phases of C. canephora.Item Biology and fertility of Hypothenemus hampei (Ferrari, 1867) (Coleoptera: Curculionidae) at 16 °C under laboratory conditions(Editora UFLA, 2021) Jaramillo, Marisol Giraldo; Machado, Pablo BenavidesThe coffee berry borer (CBB) Hypothenemus hampei (Ferrari, 1867) (Coleoptera: Curculionidae) is one of the main insect pests of coffee crops worldwide. The present research determined the biological parameters of CBB at 16 °C under laboratory conditions. Development time (egg to adult) was 119.3±1.02 days, with 41% survival, and 20.37 eggs.female-1 for a period of 120 days. The biological aptitude of CBB is negatively affected to 16 °C, when compared with temperatures between 18–28 °C.Item Control of Digitaria insularis resistant to glyphosate using a combination of herbicides in coffee farms(Editora UFLA, 2021) Onofre, Luís Carlos; Onofre, Thiago Borba; Rezende, Tiago TeruelCoffee has a significant economic, social, and cultural impact on Brazilian society, generating jobs for thousands of Brazilians. Good management practices such as weed control have direct and indirect benefits on coffee yield and quality. Currently, there is an increase in the infestation rate of Digitaria insularis in coffee plantations due to chemical resistance to glyphosate. In the literature, the study of the combination of glyphosate with different herbicides has been investigated, aiming at improving the efficiency of the control of D. insularis. The objective of this work was to evaluate the efficiency of control of the D. insularis in a coffee farm using a combination of glyphosate with clethodim and phenoxaprope-p-ethyl. Trials were conducted in a commercial coffee farm in southern Minas Gerais in a field with a two-year-old cultivar IAC Catuaí 144. The experiment was conducted under a completely randomized design with five treatments and four replications, totaling 20 experimental plots. Thirty and ninety days after application, the number of plant were counted. The results show that the use of glyphosate alone was not efficient to control of D. insularis. The results show that the herbicide mixtures were efficient in the control.