ABSTRACT When implementing path analysis between technological and nutritional traits in common bean without considering the degree of multicollinearity, it is important to assess whether there will be errors in indirect selection. This study proposed: to assess path analysis under different degrees of multicollinearity for technological and nutritional traits in common bean; and to recognize the degree of multicollinearity that allows an accurate interpretation of direct and indirect effects of these traits for the indirect selection of fast-cooking. Then, 10 technological traits and seven nutritional traits were measured in 25 common bean cultivars obtained across four experiments. Path analysis was carried out using different degrees of multicollinearity: severe (including all traits), moderate to strong (excluding three traits), and weak (excluding four traits). The magnitude and algebraic sign of direct and indirect effects between technological and nutritional traits varied when path analysis was performed using different degrees of multicollinearity. With severe multicollinearity (condition number = 6,798.28), regression coefficient values were excessively high and in an unfavorable direction for selection. Under weak multicollinearity (condition number = 66.21), the value and sign of the generated correlation coefficients were more in line with the biological phenomenon studied, allowing for an accurate interpretation of the direct and indirect effects of technological and nutritional traits on cooking time. Indirect selection based on the lowest values of mass of 100 grains and calcium concentration is recommended in this study for the selection of fast-cooking common bean cultivars. proposed fastcooking. fastcooking fast cooking. Then 1 2 experiments including traits, , traits) excluding traits. . condition 6,798.28, 679828 6,798.28 6 798 28 6,798.28) 66.21, 6621 66.21 66 21 66.21) studied time 67982 6,798.2 79 662 66.2 6798 6,798. 7 66. 679 6,798 67 6,79 6,7 6,

ABSTRACT The mobilization of reserves determines the formation of seedlings during germination, being influenced by seed vigor and adverse stress conditions. Seeds with higher vigor have greater potential for mobilization of reserves, and it can favor performance under conditions of salt stress. The objective of this study was to identify how the mobilization of reserves stored in common bean seeds contributes to the overcoming of salt stress, seeking to identify the difference in hydrolysis and mobilization of reserves among seeds with superior vigor. Seeds from two genotypes contrasting in vigor (BAF44 and BAF55) were used. Salt stress was simulated using sodium chloride, and evaluations were performed at one, three, five and seven days of germination. The variables analyzed in seedling was length, dry mass, and metabolic expenditure, while biochemical analyses of total starch, total protein, total soluble sugars, total soluble proteins, and alpha-amylase activity were evaluated in the embryonic axis and/or cotyledons. The salt stress condition negatively affected the performance of the seedlings, resulting in a decrease in length, mass accumulation, and reduced use of seed reserves, associated with a lower hydrolysis of starch and proteins. Seeds with higher vigor showed higher dry mass and seedling length even when subjected to salt stress conditions, because of greater hydrolysis capacity and use of soluble proteins and soluble sugars, which result in seedlings with better performance under control and salt stress conditions. germination BAF44 BAF (BAF4 BAF55 used chloride one three expenditure protein sugars alphaamylase alpha amylase andor or cotyledons accumulation BAF4 (BAF BAF5

ABSTRACT Mapping resistant populations makes it possible to identify the evolution and dispersal of resistance cases, providing important information for control-related decision making. This study aimed to identify and map herbicide-resistant sourgrass (Digitaria insularis) populations in Brazilian regions. The results showed no glufosinate resistance, with 485 samples (96.6%) classified as putative resistant to glyphosate, while nine (1.8%) and five (1%) were considered putative resistant to haloxyfop and clethodim, respectively. Two samples were deemed putative resistant to three herbicides (glyphosate, haloxyfop, and clethodim). One of the samples characterized as a control failure for all three herbicides was used on the dose-response curve. This biotype was identified as glyphosate-resistant, with low-level resistance to clethodim and haloxyfop. Based on C50, resistance factors of 10.96, 3.26, and 3.15 were identified for glyphosate, clethodim, and haloxyfop, respectively. Mapping sourgrass resistance is vital to understand and ensure the early identification and quantification of the frequency of these plants. cases controlrelated related making herbicideresistant herbicide Digitaria insularis regions 48 96.6% 966 96 6 (96.6% glyphosate 1.8% 18 1 8 (1.8% 1% (1% respectively (glyphosate clethodim. . clethodim) doseresponse dose response curve glyphosateresistant, glyphosateresistant resistant, glyphosate-resistant lowlevel low level C50 C 1096 10 10.96 326 3 26 3.26 315 15 3.1 plants 4 96.6 9 (96.6 1.8 (1.8 (1 C5 109 10.9 32 2 3.2 31 3. 96. (96. 1. (1. ( 10. (96 (9

ABSTRACT The bacterial canker, caused by Xanthomonas citri pv. viticola, is the most important bacterial disease of grapevines cultivated in tropical areas. The objectives of this study were to select grape hybrids resistant to bacterial canker based on genotypic values and to evaluate the response of seedless grape hybrids to artificial infection with bacterial canker. Two experiments were conducted. The field experiment (Experiment I) was conducted with 569 hybrids, evaluated for symptoms of bacterial canker, in the absence of an experimental design, using a single individual of each genotype. Experiment II was conducted in a greenhouse, where ten seedless grape hybrids were evaluated in terms of incubation period, incidence, severity, and area under the progress curve of bacterial canker disease incidence, in a completely randomized design. The use of the residual maximum likelihood/best unbiased linear prediction methodology allowed the selection of 40 grape hybrids with lower genotypic values for resistance to bacterial canker. The CPATSA 49.25 and CPATSA 49.86 hybrids showed greater resistance to bacterial canker in all epidemiological parameters evaluated under greenhouse conditions. pv viticola areas I 56 design genotype period incidence severity likelihoodbest likelihood best 4 4925 49 25 49.2 4986 86 49.8 conditions 5 492 2 49. 498 8

ABSTRACT The search for bioherbicides has been encouraged, and plants used in food or with bioactivity have been studied. Therefore, this article aimed to investigate the bioherbicidal potential of essential oils from Psidium cauliflorum and P. acidum through a plant toxicity bioassay using Lactuca sativa and Sorghum bicolor. The seeds were treated with essential oils of both species, along with control groups treated with distilled water, dichloromethane, and glyphosate. Germination percentage (GP), germination speed index (GSI), root growth (RG), shoot length (SL), mitotic index (MI), chromosomal alterations (CA), and nuclear alterations (NA) were evaluated. The major compound of the essential oil of P. cauliflorum was α-pinene, and of P. acidum were trans-caryophyllene, β-elemene, germacrene A, and α-copaene. The essential oils from both species exhibited phytotoxic effects. P. acidum oil inhibited sorghum RG and lettuce SL, while P. cauliflorum oil reduced GP, GSI, RG, and SL in both plants, indicating higher phytotoxicity than P. acidum and non-selective behavior. Cytotoxic investigations showed that both oils inhibited the MI. CA analysis revealed that P. cauliflorum oil exhibited aneugenic and clastogenic action mechanisms. The results demonstrate the bioherbicidal potential of P. cauliflorum essential oil, in addition to being non-selective and displaying a similar inhibition rate to glyphosate. encouraged studied Therefore P bicolor water dichloromethane glyphosate GP , (GP) GSI (GSI) (RG) (SL) MI, MI (MI) CA, (CA) NA (NA evaluated αpinene, Îpinene α pinene, Î pinene α-pinene transcaryophyllene, transcaryophyllene trans caryophyllene, caryophyllene trans-caryophyllene βelemene, βelemene Îelemene β elemene, elemene β-elemene A αcopaene. Îcopaene copaene. copaene α-copaene effects nonselective non selective behavior mechanisms (GP (GSI (RG (SL (MI (CA αpinene αcopaene

ABSTRACT This study aimed to model nutrient losses in an Oxisol under varied soil properties and vegetation cover. The experimental area was located at the Paraná Rural Development Institute, in Santa Tereza do Oeste, Paraná, Brazil. The treatments consisted of six cover crops in summer, six cover crops in winter, and management systems no-tillage (NT) traditional (control), NT with gypsum, and NT with scarification. Nutrient data were collected at each natural rainfall through sample collection from collection troughs. The design was completely randomized, and the data were adjusted using an exponential function of two variables, as a function of soil density, macroporosity, straw dry mass, green cover, and rainfall. Greater losses of Mg and Ca was related to higher soil density and lower macroporosity. Lower losses of Mg, Ca, K, and P were associated with lower straw dry mass and higher green cover. K and P losses were stable for all soil density values, but they decreased with an increase in macroporosity. Institute Oeste Brazil summer winter notillage no tillage (NT control, control , (control) gypsum scarification troughs randomized variables macroporosity values (control

ABSTRACT Tomato is an important economic crop due to its consumption and production worldwide. However, like other crops, it is susceptible to pathogens, being necessary agrochemicals to prevent diseases and improve the production of fruits. Among the sustainable alternatives to crop production, microbial inoculants are used as biofungicide and biostimulants for plant development. Thus, this work aimed to evaluate the biocontrol potential of seven Trichoderma spp. isolates (T1, T2, T3, T4, T15, T17, and T19) against tomato pathogens in vitro experiments, and their potential to improve tomato growth. The Trichoderma spp. antagonism was investigated against Alternaria sp. 003/09, Botrytis sp. 006/13, Fusarium sp. 007/09, and Stemphylium sp. A73. Dual culture, volatile, and diffusible compounds activity tests showed that all new Trichoderma spp. tested could reduce the mycelial growth of all tested pathogens, highlighting T15 and T17 isolates. Seed and soil inoculation revealed very contrasting results: Trichoderma sp. T17 showed a beneficial effect when inoculated in soil, reducing the percentage of yellowish leaves, and increasing dry weight and stem diameter. Inoculation of Trichoderma sp. T17 in the seed increases hypocotyl and radicle lengths, and the seed vigor index. Finally, the strains studied present the potential to be used to develop biocontrol products. worldwide However crops fruits development Thus spp T1, T1 T (T1 T2 T3 T4 T19 experiments sp 00309 003 09 003/09 00613 006 13 006/13 00709 007 007/09 A73 A culture volatile results leaves diameter lengths index Finally products (T 0030 00 0 003/0 0061 1 006/1 0070 007/0 A7 003/ 006/ 007/

ABSTRACT Resistant genotypes are a valuable tool in integrated pest management programs of insect pests of stored grains. Here, we screened 90 Brazilian common bean genotypes to select promising sources of resistance to Acanthoscelides obtectus. Thus, bean samples were infested with newly emerged insects, and the number of eggs, emerged insects, developmental time, and larval viability were assessed in a no-choice test. Genotypes IPR Garça, CHIR 13, IAC Harmonia, CHIR 20, IAC Boreal, and CHIP 312 showed low oviposition. Genotypes IPR Quero-Quero, BRS Notável, CHIC 61 - Cariocão, BRS Ametista, IPR Uirapuru, IAC Imperador, Avaluna, CHP 04-241A-212 - Guapo B. × Uirapuru, CHIB 06, SCS 206 - Potência, CHC 01-175-1 - Campeiro × IAC Tibatã, CHP 01-182-48 - Uirapuru × Campeiro, UEM 266, CHC 04-233-2 - Siriri × Horizonte, CHV 17-64, SCS 205 - Riqueza, CHP 01-238-80 - MN 13337, SM 1510 - preto, BRS Radiante, CHIB 18, CHIR 14, CAV 17 EFM 008, CHIR 04, IPR Campos Gerais, CHV 05-268-02, LP 13-624 - preto, Linhagem 110 - IAC, CHP 01-182-12 - Uirapuru × Campeiro, LP 13-84 - carioca, BRS Esteio, CHV 17-635, CHB 15-518, Arcelina 1, IPR Tuiuiu, SCS 204 - Predileto, TB - 17-02, BRS Estilo, SM 0511 - cavalo preto, Pérola, IPR Tangará, and CNFRj - 15411 reduced oviposition, the number of emerged adults, and larval viability, suggesting antixenosis and/or antibiosis. Thus, these genotypes are promising sources of resistance factors and can be used in breeding programs to obtain lines of common beans resistant to A. obtectus. grains Here 9 obtectus Thus insects eggs time nochoice no choice test Garça 13 Harmonia 20 Boreal 31 oviposition QueroQuero, QueroQuero Quero Quero, Quero-Quero Notável 6 Cariocão Ametista Imperador Avaluna 04241A212 A 04 241A 212 04-241A-21 B 06 Potência 011751 01 175 1 01-175- Tibatã 0118248 182 48 01-182-4 266 042332 233 2 04-233- Horizonte 1764, 1764 64, 64 17-64 Riqueza 0123880 238 80 01-238-8 13337 151 preto Radiante 18 14 008 Gerais 0526802, 0526802 05 268 02, 02 05-268-02 13624 624 13-62 11 0118212 12 01-182-1 1384 84 13-8 carioca Esteio 17635, 17635 635, 635 17-635 15518, 15518 15 518, 518 15-518 Tuiuiu Predileto 1702, 1702 17-02 Estilo 051 Pérola Tangará 1541 adults andor or antibiosis 3 04241A21 0 21 04-241A-2 01175 01-175 011824 4 01-182- 26 04233 23 04-233 176 17-6 012388 8 01-238- 1333 00 052680 05-268-0 1362 62 13-6 011821 138 13- 1763 63 17-63 1551 51 15-51 170 17-0 154 04241A2 04-241A- 0117 01-17 01182 01-182 0423 04-23 17- 01238 01-238 133 05268 05-268- 136 155 5 15-5 04241A 04-241A 011 01-1 0118 01-18 042 04-2 0123 01-23 0526 05-268 15- 01- 04- 012 01-2 052 05-26 05-2 05-

ABSTRACT The economic exploration of pear in the subtropical areas is possible when using hybrid cultivars obtained by crossing European (Pyrus communis) and Asian cultivars (Pyrus pyrifolia). Genetic improvement programs in Brazil have launched some cultivars in recent decades. Pear requires cross-pollination to improve fruit set in commercial plantations. In the case of these hybrid pear trees, the combinations of pollen receptor and donor cultivars that are best for cultivation in subtropical regions are not known. The objective of this study was to select cultivars with the potential to be pollinators of pear trees in subtropical regions. Four cultivars that received pollen grains (mother plants) (‘Packham’s Triumph’, ‘Tenra’, ‘Triunfo’, and ‘Seleta’) and three donors (‘Cascatense’, ‘Primorosa’, and ‘Shinseiki’) were used. Stigmatic receptivity was observed in all cultivars during all stages of reproductive development. All cultivars had highly viable pollen grains. The cultivar ‘Seleta’ was the best recipient cultivar. The ‘Seleta’ × ‘Shinseiki’ cross showed the highest percentages of fruiting. The highest percentages of pistils with pollen tubes reaching the ovary were observed in the crosses ‘Triunfo’ × ‘Shinseiki’ and ‘Seleta’ × ‘Shinseiki’. The ‘Shinseiki’ pear is an option as a pollinator of crops in subtropical regions. Pyrus communis pyrifolia. pyrifolia . pyrifolia) decades crosspollination pollination plantations known mother plants ‘Packhams Packhams ‘Packham s Packham Triumph, Triumph , Triumph’ ‘Tenra, Tenra ‘Tenra ‘Tenra’ ‘Triunfo, Triunfo ‘Triunfo ‘Seleta Seleta ‘Cascatense, Cascatense ‘Cascatense (‘Cascatense’ ‘Primorosa, Primorosa ‘Primorosa ‘Primorosa’ ‘Shinseiki Shinseiki used development fruiting ‘Shinseiki. (‘Cascatense

ABSTRACT Soil pH and base saturation are important parameters for evaluating the effects of acidity on plant growth. However, the relationship between soil pH and base saturation (V%) has been poorly studied in Brazil. The aim of this study was to evaluate the influence on the cation exchange capacity (CEC) on this relationship for soils of Mato Grosso do Sul, Brazil, using a database consisting of 30,244 analyses of soils collected from 0–0.2- and 0.2–0.4-m depths. The CEC at pH 7 of analyzed soils varied from 3.4 to 40.5 cmolc·dm-3 and were grouped into four classes (< 6, 6–10, 10–20, and > 20 cmolc·dm-3) for each soil layer. The V% versus pH relationship was CEC dependent for both soil layers. For 0–0.2 m, V% was directly related to CEC (< 6, 6–10, 10–20, and > 20 cmolc·dm-3) and reached 50, 55, 60, and 74% at pH 5 and 66, 73, 81, and 88% at pH 6, respectively. Predicting V% in relation to pH was also affected by CEC, with a decrease in the correlation of p = 0.82 for CEC < 6 cmolc·dm-3 to p = 0.64 for CEC > 20 cmolc·dm-3. The decrease in this correlation was related to low clay content (17%) of soils with CEC < 6 cmolc·dm-3, which provided low buffering capacity. For soils with CEC > 20 cmolc·dm-3 and higher clay content (45%), greater buffering capacity was observed associated with kaolinite. Findings suggest that CEC should be considered to understand the relationship between V% and pH CaCl2. growth However V (V% Brazil (CEC Sul 30244 30 244 30,24 002 0 2 0.2–0.4m 0204m m 0.2–0.4 4 depths 34 3 3. 405 40 40. cmolc·dm3 cmolcdm3 cmolcdm cmolc·dm cmolc dm cmolc·dm- ( 610 10 6–10 1020 10–20 layer layers 0–0. 50 55 60 74 66 73 81 88 respectively 082 82 0.8 064 64 0.6 cmolc·dm3. 17% 17 (17% cmolc·dm3, 3, 45%, 45 45% , (45%) kaolinite CaCl2 CaCl (V 3024 24 30,2 00 4m 0204 0.2–0. dm3 61 1 6–1 102 10–2 0–0 8 08 0. 06 (17 (45% 302 30, 020 0.2–0 6– 10– 0– (1 (45 02 0.2– (4 0.2

ABSTRACT This study characterized 33 pearl millet accessions for drought tolerance and expression patterns of drought-related genes (P5CS and DREB1A) at the pre-fruiting stage. The accessions were evaluated for variability and screened for drought tolerance. Five weeks after sowing, we screened the pearl millet accessions for morpho-agronomic variability and to determine their tolerance to water stress over 14 days. From these screenings, we identified the most and least tolerant accessions (NGB00886 and NGB00885, respectively) for gene expression studies. To determine the expression pattern of the DREB1A and P5CS genes, RNA was extracted from leaf samples and converted to cDNA for analysis via quantitative real-time polymerase chain reaction. The study found significant variation (p > 0.05) in morphological traits among the pearl millet accessions. The principal component analysis showed three components accounted for over 90% of the variance. Additionally, there were significant (p < 0.01, p > 0.05) correlations among the plant growth attributes of the accessions. At genetic index 15, the accessions were grouped into five distinct clusters corresponding to their genetic similarities. Gene expression studies showed differences in the Ct values of the reference gene (ACT1) against the target genes. The expression pattern showed that DREB1A was up-regulated in the most tolerant and down-regulated in the least tolerant, while P5CS was up-regulated in both accessions. The study concluded that there are morphological variations among the accessions in response to water stress at the pre-fruiting stage, and the up- and down-regulation of DREB1A and P5CS genes are involved in the mechanism of regulation of water stress modulations in pearl millet. 3 droughtrelated related PCS P CS DREBA DREB A prefruiting pre fruiting stage sowing morphoagronomic morpho agronomic 1 days screenings NGB00886 NGB (NGB0088 NGB00885 respectively realtime real time reaction 0.05 005 0 05 90 variance Additionally 001 01 0.01 15 similarities ACT1 ACT (ACT1 upregulated up regulated downregulated down downregulation NGB0088 (NGB008 0.0 00 9 (ACT NGB008 (NGB00 0. NGB00 (NGB0 NGB0 (NGB

ABSTRACT Seven strawberry genotypes were analyzed in order to differentiate fruit production and quality. The discarded leaves (by-product) were also used to characterize their phytochemical profile with a view to potential use in the pharmaceutical and agricultural industries. The multivariate analysis gave rise to heterogeneous groups among the seven genotypes. ‘Fronteras’ and ‘Monterey’ were the most productive. ‘Camino Real’ produced fruits with the highest polyphenols concentrations. ‘Fronteras’ produced leaves with the best phytochemical profile and, together with ‘Camino Real’, the highest antioxidant activity. The genotypes differ in terms of the yield and fruit, and leaf phytochemical profiles. ‘Camino Real’ can be used to optimize and market all the organs produced (fruits and leaves) and ‘Fronteras’ to increase the fruit yield and the use of leaves as a cultivation by-product. quality byproduct by product (by-product industries ‘Fronteras Fronteras ‘Monterey Monterey productive Camino Real concentrations Real, , activity profiles byproduct. product. by-product

ABSTRACT The standardized precipitation (SPI) and standardized precipitation-evapotranspiration (SPEI) indices are important tools for monitoring drought events, but the low density of weather station networks limits their use in many regions. To address this issue, we developed the PowerSDI R-package, which calculates these two indices using gridded-data from the NASA-POWER project (NASA-SPI and NASA-SPEI). Different from other packages, the PowerSDI package has two modes: the scientific, and the operational. In the scientific mode, the users may assess the quality of the indices estimates through their agreement with a reference/observed series and through the evaluation of how well these estimates meet the conceptual assumptions required for calculating both SPI and SPEI. This evaluation is based on measure of accuracy (e.g., Willmott index of agreement), goodness-of-fit tests (e.g., Anderson-Darling), and normality tests (e.g., Shapiro-Wilk’s test), which are calculated by the ScientSDI.R, Reference.R, and Accuracy.R functions. In the operational mode, users can calculate both indices routinely using the OperatSDI.R function. The package also uses a quasi-weekly time scale, allowing for index calculations four times a month. The OperatSDI.R enables users to download NASA-POWER data for all available period or only for the quasi-week they intend to monitor (reducing the function’s running time). In short, the PowerSDI facilitates the routine use of these two widely used drought indices and, unlike others existing software, it provides a solid scientific basis for using NASA-POWER data in drought monitoring systems, which can help improve drought preparedness and response efforts worldwide. The package is freely available at two repositories: Github (https://github.com/gabrielblain/PowerSDI), and CRAN (https://CRAN.R-project.org/package=PowerSDI). (SPI precipitationevapotranspiration evapotranspiration SPEI (SPEI events regions issue Rpackage, Rpackage R package, R-package griddeddata gridded NASAPOWER NASA POWER NASASPI NASASPEI. NASASPEI . NASA-SPEI) packages modes mode referenceobserved reference observed e.g., eg e g (e.g. agreement, , agreement) goodnessoffit goodness fit AndersonDarling, AndersonDarling Anderson Darling Anderson-Darling) ShapiroWilks Shapiro Wilk s test, test test) ScientSDIR ScientSDI ScientSDI.R ReferenceR Reference Reference.R AccuracyR Accuracy functions OperatSDIR OperatSDI function quasiweekly quasi weekly scale month quasiweek week reducing time. time) short software systems worldwide repositories https//github.com/gabrielblain/PowerSDI, httpsgithubcomgabrielblainPowerSDI https //github.com/gabrielblain/PowerSDI github com gabrielblain (https://github.com/gabrielblain/PowerSDI) https//CRAN.Rproject.org/package=PowerSDI. httpsCRANRprojectorgpackagePowerSDI //CRAN.R project.org/package=PowerSDI org (https://CRAN.R-project.org/package=PowerSDI) NASA-SPEI e.g. (e.g Anderson-Darling https//github.com/gabrielblain/PowerSDI githubcomgabrielblainPowerSDI (https://github.com/gabrielblain/PowerSDI Rproject https//CRAN.Rproject.org/package=PowerSDI CRANR projectorgpackagePowerSDI (https://CRAN.R-project.org/package=PowerSDI e.g

ABSTRACT The objective of this study was to evaluate the physiological quality of seeds from early and late maturing Coffea canephora clones, aiming to identify the ideal harvest time. The fruits were collected every two weeks from 188 days after anthesis (DAA) and characterized as green, cane green, cherry, raisin and dry. The seeds were evaluated for water content, germination percentage, normal and abnormal seedlings, nongerminated seeds and dead seeds, vigor index, hypocotyl lenght, and root length. Seed germination of the early maturing clone started at 202 DAA, while that of the late maturing clone started at 230 DAA, with both clones showing a water content of 63% and a dry mass of 37%. Although the optimum harvest point was identified at the cherry ripening stage, it was found that the late maturing clone showed a more pronounced variation in the maturation process, directly impacting the physiological quality of the seeds. Furthermore, a significant correlation was observed between the maturation stages and the physiological quality of the seeds. For the early maturing clone, the maximum physiological quality was recorded at 244 DAA, corresponding to 80% of fruits at the cherry stage, while for the late maturing clone this point was reached at 326 DAA, with 98% of the fruits ripe. time 18 DAA (DAA green percentage seedlings index lenght length 20 23 63 37 37% stage process Furthermore 24 80 32 98 ripe 1 2 6 3 8 9