RESUMO O déficit hídrico ou alagamento podem ocasionar danos nas plantas, como Eugenia myrcianthes Nied. Assim, o conhecimento de tecnologias que possam mitigar os danos causados pelo estresse é necessário para o cultivo ex situ dessas espécies. Objetivou-se avaliar o potencial do hidrogel (H) em mitigar o estresse hídrico e de auxiliar na recuperação de mudas de Eugenia myrcianthes Nied. sob flutuações hídricas. As mudas foram separadas em três regimes hídricos: R1) irrigação contínua (controle), R2) Estresse intermitente: caracterizado por dois ciclos de estresse, sendo o primeiro a restrição hídrica, e o segundo alagamento (Estresse hídrico) e R3) Estresse intermitente + Hidrogel - Forth® gel (Estresse + H). As avaliações foram realizadas em seis épocas: tempo zero, 1ª fotossíntese zero (F0), 1ª recuperação (REC), 2ª F0, 2ª REC e FINAL. Foram avaliadas características fotoquímicas, morfológicas e antioxidantes. As mudas de E. myrcianthes responderam às flutuações hídricas, havendo redução das trocas gasosas. As plantas sob estresse, independente do H, aumentaram a atividade das enzimas superóxido dismutase, peroxidase e do conteúdo do aminoácido prolina. Conclui-se que mudas de E. myrcianthes apresentaram mudanças fisiológicas quanto ao déficit hídrico e alagamento, mas o H não contribuiu em aliviar o déficit hídrico sobre as trocas gasosas e não prejudicou no alagamento. As mudas apresentaram sobrevivência, retomada do metabolismo após as condições estressantes demonstrando capacidade de resiliência por plasticidade fisiológica, independente do uso do hidrogel. Nied Assim espécies Objetivouse Objetivou se (H hídricas hídricos R1 R controle, controle , (controle) R2 hídrica R3 Forth H. . H) épocas ª F0 F (F0) REC, (REC) FINAL fotoquímicas antioxidantes E dismutase prolina Concluise Conclui sobrevivência fisiológica (controle (F0 (REC (F

ABSTRACT Water deficit or flooding can damage the photosynthetic and enzymatic metabolism in plants such as Eugenia myrcianthes Nied. Thus, knowledge of technologies that can mitigate stress damage is necessary for the ex-situ cultivation of these species. This study evaluates the potential of hydrogel (H) to mitigate water stress and assist in the recovery of E. myrcianthes seedlings under different water conditions. The seedlings were separated into three water regimes: R1 - continuous irrigation (control); R2 - intermittent stress, characterized by two stress cycles: water restriction followed by flooding (stress); and R3 - intermittent stress + hydrogel - Forth® gel (stress + H). Evaluations occurred in six periods: zero time (T0), 1st zero photosynthesis (P0), 1st recovery (REC), 2nd P0, 2nd REC, and END. E. myrcianthes seedlings responded to water conditions with reduced CO2 assimilation rate, transpiration, and stomatal conductance during stressful conditions. We observed decrease in the growth parameters of this species under stress, including leaf area and biomass. Under stress, independent of H, plants increased the activity of the enzymes superoxide dismutase, peroxidase, and the content of the amino acid proline. We observed recovery potential in most of the evaluated traits. E. myrcianthes seedlings showed morphophysiological changes due to water deficit and flooding. Still, hydrogel did not contribute to alleviating the effects of water deficit on gas exchange and did not affect flooding. Seedlings showed survival and resumption of metabolism and growth after stressful conditions. This demonstrates their resilience due to physiological plasticity, regardless of the use of hydrogel. Nied Thus exsitu ex situ H (H E regimes R control (control) cycles (stress) Forth H. . H) periods T0, T0 T , (T0) st P0 P (P0) REC (REC) nd END CO rate transpiration biomass dismutase peroxidase proline traits Still plasticity (control (T0 (P0 (REC (T (P

The aim of the present study was to evaluate the effect of roasting and cocoa mass content on the composition of chocolates. Chocolate formulations were developed (40, 50, 60 and 70% cocoa solids) using unroasted and roasted cocoa beans, and analyses were performed: physicochemical, chemical composition, antioxidant capacity, procyanidin content, total phenolic compounds, quantification of theobromine, caffeine, catechin and epicatechin by high performance liquid chromatography (HPLC) and spectroscopic profile by mid-infrared spectroscopy (MIR). The results revealed that higher values of total phenolics, epicatechin and procyanidins, were obtained in chocolates produced with unroasted cocoa beans, with a significant difference in relation to those with roasted cocoa beans. It was observed that increasing the percentage of cocoa in the formulations caused an increase in the content of bioactive compounds. The use of MIR in the differentiation of chocolate samples produced with roasted and unroasted cocoa beans obtained a positive result. This technique associated with principal component analysis (PCA) enabled the separation of chocolates according to the type of cocoa bean (roasted and unroasted) used in production, confirming its importance for a quick evaluation of the parameters. 40, 40 (40 50 6 70 solids performed physicochemical capacity compounds theobromine caffeine HPLC (HPLC midinfrared mid infrared MIR. . (MIR) phenolics procyanidins result PCA (PCA production parameters 4 (4 5 7 (MIR (

Vegetable proteases have been studied as milk coagulants, and artichoke flower (Cynara cardunculus L. var scolymus) has potential coagulant action as a substitute for microbial chymosin. The objective was to perform chemical characterization of aspartic proteases from artichoke flower (Cynara cardunculus L. var scolymus) by mid-infrared spectroscopy (MIR) and analytical measurements. Artichoke flower extracts were obtained and crude thistle flower extract and microbial chymosin were used as a reference. Plant extracts and microbial chymosin were analyzed for protein concentration, proteolytic activity (PA), milk clotting activity (MCA), specificity ratio (SR), effects of pH, temperature, NaCl and CaCl2 concentration on MCA and PA and characterized by electrophoretic, spectroscopic, chromatographic and storage stability. The results indicated that the crude extract of artichoke flower showed high MCA (510.08 SU mL 1), low PA (10.50 µg mg-1), SR (48.57) and storage stability for up to 90 days under frozen. The electrophoretic profile of artichoke flower resulted in a protein band with an apparent molecular weight of 32 kDa, associated with cardosin A. Artichoke flower may be a new alternative for commercial plant proteases with active enzymes for milk coagulation. coagulants Cynara L scolymus midinfrared mid infrared MIR (MIR measurements reference PA, , (PA) MCA, (MCA) SR, (SR) pH temperature CaCl spectroscopic 510.08 51008 510 08 (510.0 1, 1 1) 10.50 1050 10 50 (10.5 mg1, mg1 mg mg-1) 48.57 4857 48 57 (48.57 9 frozen 3 kDa A coagulation (PA (MCA (SR 510.0 5100 51 0 (510. 10.5 105 5 (10. mg-1 48.5 485 4 (48.5 510. (510 10. (10 mg- 48. (48. (51 (1 (48 (5 ( (4

RESUMO O alagamento é um fator estressante e promove danos ao aparato fotossintético, afetando negativamente o crescimento de mudas de espécies frutíferas, dentre elas a jatobazeiro Estudos sobre o manejo fisiológico, tal como aplicação exógena de fitohormônio, para aliviar o estresse abiótico tem aumentado. Assim, objetivou-se com esse estudo avaliar o efeito da aplicação foliar de concentrações de ácido salicílico (AS) em mudas de H. courbaril submetidas ao alagamento. As mudas receberam aplicação via foliar de quatro concentrações de AS: 0, 100, 200 e 400 mg L-1, e submetidas a dois regimes hídricos: a) controle: - não alagadas e irrigadas diariamente e b) alagamento - acondicionamento das mudas em piscina com lâmina d’água (5.0 cm) acima do nível do substrato. Decorridos 35 dias avaliamos as trocas gasosas, crescimento inicial, qualidade e o potencial de resiliência ecológica das mudas. Observou-se que todas as mudas alagadas sobreviveram, mas tiveram redução da fotossíntese, eficiência instantânea de carboxilação da Rubisco e de uso da água e condutância estomática e quando receberam aplicação entre 100-300 mg L-1 de AS. As mudas que receberam aplicação das concentrações entre 100 e 300 mg L-1 de AS tiveram maiores características de crescimento, qualidade e plasticidade fenotípica. A aplicação foliar de ácido salicílico não mitigou o efeito do alagamento sobre as trocas gasosas, mas contribuiu no crescimento das mudas de H. courbaril. fotossintético frutíferas fisiológico fitohormônio aumentado Assim objetivouse objetivou se (AS H 0 20 40 L1, L1 L 1, 1 hídricos controle b dágua d 5.0 50 5 (5. cm substrato 3 gasosas inicial Observouse Observou sobreviveram fotossíntese 100300 100-30 L- 10 30 fenotípica 2 4 5. (5 10030 100-3 ( 1003 100-

ABSTRACT Flooding is a stressful condition that causes damage to the photosynthetic apparatus, negatively affecting the growth of seedlings of fruit species, including Hymenaea courbaril L. Studies on physiological management, such as exogenous application of phytohormones, to alleviate abiotic stress have increased. The objective of this study was to evaluate the effect of foliar application of salicylic acid (SA) on H. courbaril seedlings subjected to flooding. The seedlings received foliar application of four concentrations of SA (0, 100, 200, and 400 mg L-1) and were subjected to two water regimes: a) control - non-flooded and irrigated daily and b) flooded - seedlings were placed in a plastic pool, keeping the water depth at ± 5.0 cm above the substrate level. After 35 days, we evaluated the gas exchange, initial growth, quality, and potential ecological resilience of the seedlings. All flooded seedlings survived, but had reduced photosynthesis, carboxylation of Rubisco efficiency, and water-use and stomatal conductance when they received 100-300 mg L-1 SA. The seedlings that received between 100 and 300 mg L-1 SA had greater growth, quality, and phenotypic plasticity. Foliar application of SA did not mitigated the effect of flooding on gas exchange but contributed to the growth of H. courbaril seedlings. apparatus species L management phytohormones increased (SA H 0, 0 (0 200 40 L1 1 regimes nonflooded non b pool 50 5 5. level 3 days quality survived photosynthesis efficiency wateruse use 100300 100-30 L- 10 30 plasticity ( 20 4 10030 100-3 2 1003 100-