Your search keyword '"Legua, P."' showing total 59 results

1. Effects of marine sediment as agricultural substrate on soil microbial diversity: an amplicon sequencing study

Author

Núñez-Gómez, Dámaris, Melgarejo, Pablo, Martínez-Nicolás, Juan José, Hernández, Francisca, Martínez-Font, Rafael, Lidón, Vicente, and Legua, Pilar

Published

2023

2. Effects of marine sediment as agricultural substrate on soil microbial diversity: an amplicon sequencing study

Author

Dámaris Núñez-Gómez, Pablo Melgarejo, Juan José Martínez-Nicolás, Francisca Hernández, Rafael Martínez-Font, Vicente Lidón, and Pilar Legua

Subjects

Microbiome, 16S rRNA, Marine sediment, Agricultural substrate, Waste reuse, Functional inferences, Environmental sciences, GE1-350, Microbiology, QR1-502

Abstract

Abstract Background The soil microbiota has a direct impact on plant development and other metabolic systems, such as the degradation of organic matter and the availability of microelements and metabolites. In the context of agricultural soils, microbial activity is crucial for maintaining soil health and productivity. Thus, the present study aimed to identify, characterize, and quantify the microbial communities of four types of substrates with varying proportions of marine port sediment used for cultivating lemons. By investigating microbial diversity and relative abundance, the work aimed to highlight the importance of soil microbial communities in agriculture when alternative culture media was used. Results The composition and structure of the sampled microbial communities were assessed through the amplification and sequencing of the V3-V4 variable regions of the 16 S rRNA gene The results revealed a diverse microbial community composition in all substrate samples, with a total of 41 phyla, 113 classes, 266 orders, 405 families, 715 genera, and 1513 species identified. Among these, Proteobacteria, Bacteroidota, Planctomycetota, Patescibacteria, Chloroflexi, Actinobacteriota, Acidobacteriota, Verrucomicrobiota, and Gemmatimonadota accounted for over 90% of the bacterial reads, indicating their dominance in the substrates. Conclusions The impact of the substrate origin on the diversity and relative abundace of the microbiota was confirmed. The higher content of beneficial bacterial communities for plant development identified in peat could explain why is considered an ideal agricultural substrate. Development of “beneficial for plants” bacterial communities in alternative agricultural substrates, regardless of the edaphic characteristics, opens the possibility of studying the forced and specific inoculation of these culture media aiming to be agriculturally ideals.

Published

2023

3. Comparative Analysis of Primary and Secondary Metabolites in the Peel of Eight Blood Orange Varieties

Author

Pablo Melgarejo, Manuel Ballesta-de los Santos, Juan José Martínez-Nicolás, Amparo Melián-Navarro, Antonio Ruíz-Canales, María Ángeles Forner-Giner, and Pilar Legua

Subjects

anthocyanins, blood orange, orange peel, co-products, flavones, flavanones, Agriculture (General), S1-972, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The global cultivation of blood oranges is experiencing an increase due to their remarkable nutritional properties. Blood orange by-products, especially the peel, have a high concentration of bioactive compounds with exceptional antioxidant potential, making them an ideal choice for incorporation into various food products. This study aimed to determine the morphological parameters and primary and secondary metabolite content of peel of eight blood orange varieties using 1H NMR and HPLC-ESI-DAD-MSn. “Tarocco Meli” had the highest weight (367.83 g), caliber (94.13 mm and 88.87 mm), peel thickness (6.73 mm), and peel weight (155.0 g). “Tarocco Rosso”, “Sanguinelli”, and “Tarocco Gallo” had the highest levels of total amino acids (25.57 g kg−1 DW), total organic acids (29.99 g kg−1 DW), and total sugars (68.56 g 100 g−1 DW), respectively. The peel of “Moro” had significantly higher concentrations of total anthocyanins, hydroxycinnamic acids, and flavones (650.67, 263.33, and 449.85 mg kg−1, respectively) compared to the other varieties. In conclusion, “Tarocco Meli” had the most interesting values for morphological parameters, “Tarocco Rosso”, “Sanguinelli”, and “Tarocco Gallo” for primary metabolites, and “Moro” for secondary metabolites. With the increasing interest in utilizing co-products, these findings could be useful in developing functional food products that meet consumer demands for healthier and more sustainable food choices.

Published

2023

4. Combining PDMS Composite and Plasmonic Solid Chemosensors: Dual Determination of Ammonium and Hydrogen Sulfide as Biomarkers in a Saliva Single Test

Author

Belen Monforte-Gómez, Sergio Mallorca-Cebriá, Carmen Molins-Legua, and Pilar Campíns-Falcó

Subjects

colorimetric chemosensors, saliva, ammonium, hydrogen sulfide, diffuse reflectance, RGB coordinates, Biochemistry, QD415-436

Abstract

In recent years, in the field of bioanalysis, the use of saliva as a biological fluid for the determination of biomarkers has been proposed. Saliva analysis stands out for its simplicity and non-invasive sampling. This paper proposes a method for the dual determination of ammonium and hydrogen sulfur in saliva using two colorimetric chemosensors. The ammonia reacts with 1,2-Naftoquinone 4 sulphonic acid (NQS) entrapped in polydimethylsiloxane (PDMS) and the hydrogen sulfide with AgNPs retained in a nylon membrane. The color changed from orange to brown in the case of ammonia chemosensors and from yellow to brown in the H2S. The experimental conditions to be tested have been established. Both analytes have been determined from their gaseous form; these are ammonia from ammonium and hydrogen sulfur from hydrogen sulfur. Good figures of merit have been obtained by using both measuring strategies (reflectance diffuse and digitalized images). The acquired results show that both sensors can be used and provide good selectivity and sensitivity for the determination of these biomarkers in saliva. Both measurement strategies have provided satisfactory results for the real saliva samples (n = 15). Recoveries on spiked samples were between 70% and 100%. This methodology can lead to possible in situ diagnosis and monitoring of certain diseases and pathologies related with NH4+ and/or H2S, in a fast, simple, cheap and non-invasive way.

Published

2024

5. Comparative Evaluation of Boron Sorption Dynamics on Zeolites in Irrigation Waters: An Isothermal Modeling Approach

Author

Dámaris Núñez-Gómez, Juan José Martínez-Nicolás, Pilar Legua, Carlos Giménez-Valero, Alejandro Andy Maciá-Vázquez, and Pablo Melgarejo

Subjects

boron sorption, zeolites, isothermal models, irrigation water, pollutant removal, Organic chemistry, QD241-441

Abstract

Efficient boron removal from irrigation waters is crucial for sustainable agriculture, as elevated levels of boron can be toxic to many plants, limiting growth and crop productivity. In this context, the present study investigated the sorption equilibrium of boron using zeolites in two types of aqueous matrices: a synthetic solution containing only boron and natural irrigation waters. Through the application of various isothermal sorption models (Langmuir, Freundlich, Sips, Toth, Jovanovic, Temkin, Dubinin–Radushkevich, and Redlich–Peterson), the efficacy of zeolite for boron removal under controlled and real conditions was evaluated. The results indicated a notable difference in sorption behavior between the two matrices, reflecting the complexity and heterogeneity of interactions in the boron–zeolite system. In the synthetic solution, the Freundlich model provided the best fit (R2 = 0.9917), suggesting heterogeneous and multilayer sorption, while the Sips model showed high efficacy in describing the sorption in both matrices, evidencing its capability to capture the complex nature of the interaction between boron and zeolite under different environmental conditions. However, in natural irrigation waters, the Jovanovic model demonstrated the most accurate fit (R2 = 0.999), highlighting the importance of physical interactions in boron sorption. These findings underscore the significant influence of the water matrix on the efficacy of zeolite as a boron removal agent, emphasizing the need to consider the specific composition of irrigation water in the design of removal treatments. Additionally, the results stress the importance of selecting the appropriate isothermal model to predict boron sorption behavior, which is crucial for developing effective and sustainable treatment strategies. This study provides a basis for optimizing boron removal in various agricultural and industrial applications, contributing to the design of more efficient and specific water treatment processes.

Published

2024

6. Mandarin Variety Significantly Affects the Metabolites Present in the Leaves

Author

Alejandro Andy Maciá-Vázquez, Dámaris Núñez-Gómez, Juan José Martínez-Nicolás, Pilar Legua, and Pablo Melgarejo

Subjects

1H NMR, mandarins, late season, metabolomic footprint, leaves, Plant culture, SB1-1110

Abstract

Late-season varieties of mandarin (Citrus reticulata Blanco) have a high economic value, so their study, characterization, and comparison among different commercial varieties is of great interest for agriculture. Detailed metabolomic analysis of mandarin leaves can provide valuable information on agronomic characteristics, vegetative development, and tree response to abiotic and biotic stresses. In this study, an analysis of the main metabolites presents in the leaves of three late-season mandarin orange varieties (‘Afourer’, ‘Orri’ and ‘Tango’), cultivated under homogeneous conditions, was carried out using nuclear magnetic resonance (1H NMR) and multivariate statistical analysis techniques. The results show that organic acids and sugars are the metabolites with the highest presence in mandarin leaves, especially malate and sucrose. Ten amino acids and other metabolites such as choline and trigonelline were also detected. Metabolites such as asparagine and isoleucine were widely implicated in the metabolic pathways of the detected compounds. The ‘Orri’ variety showed significantly more differences in metabolite concentrations compared to the other two varieties studied. Malate and sucrose were shown to be the metabolites with the greatest significant differences between the varieties compared. From an agronomic point of view, the ‘Orri’ variety differs from the other two varieties because it has concentrations of metabolites that provide good resistance to abiotic and biotic stresses and fruits of higher quality and sweetness.

Published

2024

7. Conversion of lignocellulose biomass to bioenergy through nanobiotechnology

Author

Mohammad Ahmed Al Zubi, Franklin Ore Areche, Manuel Nicolás Morales Alberto, Guillermo Gomer Cotrina Cabello, Angel Sobrado Gomez, Jose Antonio Legua Cardenas, Manuel Llanos Zevallos, Yaseth Yohely Lijarza Llanos, Kareem Morsy, Jhon Adolfo Quincho Astete, Elvira Teófila Castañeda Chirre, Tania Jakeline Choque Rivera, Salomón Vivanco Aguilar, Víctor Guillermo Sánchez Araujo, and Daniel Quispe-Vidalon

Subjects

lignocellulose, treatments, nanotechnology, nanoparticles, biorefineries, Technology, Economic growth, development, planning, HD72-88

Abstract

The growing global demand for energy, particularly petroleum-based fuels, has stimulated a long-term quest for an optimal source of sustainable energy. This barrier is removed by lignocellulosic biomass, which is an economical, easily accessible, and renewable fuel source that fits sustainability standards. However, large-scale use of most of the techniques results in significant handling costs and decontamination of the inhibitors released. Taken together, these limits increase the efficacy of present solutions and create a need for the development of a novel, environmentally sustainable, productive, and cost-effective technology for lignocellulose biomass conversion. In this context, the use of nanotechnology in the treatment of lignocellulose biomass to bioenergy exchange has gained significant attention and has been extensively researched in recent years. This review discussed how nanotechnology can be used to turn biomass into energy. It gives new ideas and tools for developing new industries, which will help the economy, grow in the long run. This careful examination will also shed light on some of the minor details surrounding the different ways of biomass conversion previously explored by other experts.

Published

2023

8. Comparative study of the doses of cytokinin in the quality of caigua (Cyclanthera pedata L.) in Peru

Author

D. D. Cruz Nieto, E. T. Castañeda Chirre, H. J. Castro Bartolomé, J. A. Legua Cárdenas, J. V. Nunja García, Y. J. Vélez Chang, O. M. Luque Vilca, R. R. Ito Díaz, F. G. Calizaya Llatasi, R. Leon Gomez, and R. A. Maldonado Mamani

Subjects

biostimulants, dosages, nutrient’s availability, quality production, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Bioavailability of nutrients, the scarcity of synthetic fertilisers, and the rising cost of fuel have all contributed to an increase in production costs, which has in turn reduced crop productivity and led scientists to seek out new methods to ensure high-quality output. In this context, various cytokinins dosages were tested in Peru to see whether they affected the quality of caigua, in an effort to address these issues. To mitigate these problems, a pot experiment was carried out to check the effects of various doses of cytokinin in the quality of caigua in Peru. The experiment consisted of 5 treatments including (0, 50, 100, 150 and 200 mL of cytokinin) by using (Anthesis Plus per 200 L of water) as a source, each with three replicates and placed following a randomized complete block design (RCBD). Treatment with 100 mL of cytokinins foliar analysis resulted in a caigua length of 18.9 cm, an increase in diameter of 5.65 cm, and an improvement in pulp thickness of 7.60 millimeters. Physiological parameters of caigua plants taken after 45 days of sowing were considerably improved with the same treatment. Similarly, N, K and Zn concentration in leaf was higher in case of 100 mL of cytokinins foliar analysis. Therefore, policymakers must advise using the recommended quantity of cytokinins to bring about regime transition, and formers can gain by injecting 100 mL of cytokinins to boost production and the economy. It was concluded that the adequate dose of cytokinins is in treatment T3, which raised value of potassium concentration in leaves, this influenced optimal development, strengthening against environmental stress and therefore quality. For this reason, research was carried out on the comparative study of cytokinin doses in the quality of caigua in Peru; the objective was to determine the appropriate dose to obtain higher quality fruit. Likewise, it was underlined that the objective was to employ an ecological alternative of plant origin such as the usage of phytohormone that stimulates the growth of the plant and consequently the quality of the fruit. The obtained the results were served as a recommendation for farmers in the area.

Published

2023

9. Evaluation of Agricultural Soil-Improving Zeolite for Improving Irrigation Water Quality

Author

Dámaris Núñez-Gómez, Pilar Legua, Vicente Lidón, Agustín Conesa, Juan José Martínez-Nicolás, and Pablo Melgarejo

Subjects

sorption, sorption kinetics, irrigation water, central composite factorial design, cation removal, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

With a progressively decreasing availability of water for irrigation, the utilization of lower agronomic quality water sources is becoming more prevalent. Compounds such as sodium and boron, due to their impact on crop development and production, are gaining significance in these water sources. Finding novel methods to immobilize these compounds in irrigation water is a top priority in the global agricultural sector. This study focused on exploring the potential of natural zeolite, commonly used as a soil improver and as a sorbent for sodium and boron in natural agricultural waters. The zeolite exhibited favorable properties, including a surface area of 40 m2/g and a cation-exchange capacity of 1.8 mg/g. Using a central composite factorial design, the zeolite’s capacity to remove sodium and boron from irrigation water was investigated. The results demonstrated significant efficiency in boron removal, while sodium removal was limited, with occasional desorption episodes. Response surface analysis revealed optimal conditions for the removal of each cation. Additionally, adsorption kinetics and pH effects were explored, emphasizing the influence on sodium sorption. Kinetic models were applied, and the pseudo-first-order model proved suitable for describing the sorption kinetics. These findings enhance our understanding of zeolite efficacy in irrigation water purification, emphasizing the complexity of cation interactions in “complex” solutions.

Published

2024

10. Accurate Botanical Nomenclature: Pomegranate and the ‘Aril’ Misconception

Author

Pablo Melgarejo, Juan José Martínez-Nicolás, Dámaris Núñez-Gómez, María Soledad Almansa, and Pilar Legua

Subjects

Punica granatum L., exariled, botanical definitions, external testa, pomegranate seed, pomegranate aril, Chemical technology, TP1-1185

Abstract

The pomegranate (Punica granatum L.) attracts attention in studies for its nutritional and medicinal properties. However, a recurring issue in the literature arises due to the multidisciplinary nature of these studies, leading to a mistaken repetition of basic botanical terms. The problem stems from the misapplication of the term “aril” to the pomegranate seed, despite the fruit being exariled, signifying the absence of an aril. This confusion may be attributed to the sarcotesta’s appearance, resembling a complete aril, coupled with a lack of awareness in fields such as medicine, pharmacy, and cosmetics. This study specifically examines the Kingdom-variety pomegranate, due its economic importance in the fruit market. The fruits were evaluated at different developmental stages—initial, intermediate, and commercial. Magnification photography techniques were used to study the development state of the pomegranate fruits. The physiological studies confirm that the pomegranate seed constitutes the complete grain, with the juicy, sweet part surrounding it identified as the testa, not an aril. The findings underscore a persistent error in the existing literature, emphasizing the necessity for dissemination and education in future studies. A thorough grasp of pomegranate anatomy and precise use of terminology are indispensable for ensuring accuracy and rigor in scientific communication.

Published

2024

11. Relationships between chemical composition, antioxidant activity and genetic analysis with ISSR markers in flower buds of caper plants (Capparis spinosa L.) of two subspecies spinosa and rupestris of Spanish cultivars

Author

Grimalt, Mar, García-Martínez, Santiago, Carbonell, Pedro, Hernández, Francisca, Legua, Pilar, Almansa, María S., and Amorós, Asunción

Published

2022

12. Meningoencephalitis Due to Free-Living Amoebas in the Tropics

Author

Seas, Carlos and Legua, Pedro

Published

2022

13. Morphological and Biochemical Characterization of Late-Season Varieties of Mandarin Growing in Spain under Homogeneous Growing Conditions

Author

Alejandro Andy Maciá-Vázquez, Dámaris Núñez-Gómez, Juan José Martínez-Nicolás, Pilar Legua, and Pablo Melgarejo

Subjects

mandarin, late-season, Citrus rootstock, morphology, HPLC, metabolomics, Agriculture

Abstract

Mandarins are one of the most important citrus fruits in the world in terms of tons produced. The late-season varieties of mandarin have a great economic value due to their high production in a season with few mandarin varieties. The objective is to carry out a preliminary study of characterization and comparison of the morphological and biochemical properties of the late varieties ‘Afourer’, ‘Tango’, and ‘Orri’. The characterization consisted of physicochemical parameters related to the quality of the fruits, highlighting the total antioxidant activity using ABTS and DPPH, the organic acids and sugars using HPLC and the metabolomics of the juice by 1H-NMR. Afourer’ mandarins were heavier and larger (120.75 g, 67.60 mm) than the other two varieties studied. Mandarins of the ‘Orri’ variety showed a different organic acid profile compared to the other varieties studied, and a higher amount of sugars (13.49 g/100 mL). ‘Tango’ variety mandarins grown on the Forner-Alcaide rootstock stood out for having a larger weight (113.52 g), a more intense color, and a greater amount of phenolic compounds (966.85 mg AGE/L Forner) than the fruits grown on Citrus macrophylla. The metabolomics analysis showed that these mandarin varieties had mainly non-essential amino acids.

Published

2023

14. Passive Solid Chemosensor as Saliva Point of Need Analysis for Ammonium Determination by Using a Smartphone

Author

Belén Monforte-Gómez, Lusine Hakobyan, Carmen Molins-Legua, and Pilar Campíns-Falcó

Subjects

ammonium, passive optical sensor, bag samples, point of need analysis, miniaturized fiber optic spectrometer, smartphone image analysis, Biochemistry, QD415-436

Abstract

Point-of-need analysis is of great interest nowadays. It refers to the timely analysis or detection of a specific parameter or substance at the location or moment it is needed, often with the aim of providing rapid and on-site results for informed decision-making or immediate interventions. This approach has gained interest in various fields but has not been extensively explored in bioanalytical chemistry. In order to contribute in this way, the analysis of ammonium in saliva as a biological fluid is proposed here. For that purpose, a passive solid sensor of 1,2-naphthoquinone-4-sulfonic acid sodium salt (NQS) embedded in polydimethylsiloxane (PDMS) doped with silica nanoparticles and an ionic liquid was proposed. The assay was developed by delivering ammonia from saliva in a confined atmosphere containing the sensor for 20 to 45 min. Measurements were carried out by absorbance from a benchtop diffuse reflectance spectrophotometer and a fiber optic miniaturized portable spectrometer coupled to a smartphone for point-of-need analysis. Another option for this kind of analysis was the use of the color intensity from digitalized images obtained by a smartphone by isolating the intensity in the color planes R (red), G (green), and B (blue). Good figures of merit were obtained for all three types of instruments, bearing in mind the ammonium content in saliva. Results for 30 samples of male and female volunteers (n = 30) demonstrated the usefulness of the assay, values of mg NH4+/mL saliva between 0.02 and 0.27 were found, and no matrix effect was present. Recoveries for spiked samples were around 100% for all methodologies. Selectivity was demonstrated from spectra obtained from benchtop instruments and the fiber optic mini spectrometer. Two applications were applied for directly determining the ammonium concentration in saliva.

Published

2023

15. Stomatal Density and its Relationship with Yield of Radish (Raphanus Sativus L.) Fertilized with Biol Produced from Sugar Cane Residues

Author

Dante D. Cruz Nieto, Ronald F. Rodriguez Espinoza, Jose A. Legua Cardenas, Juan M. Ipanaque Rona, Ronald L. Ramos Pacheco, Joaquin J. Abarca Rodriguez, Delicias E. Natividad Huasupoma, Fredesvindo Fernandez Herrera, and Helen A. Zapata del Solar

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

The impact of agro-industrial waste can be reduced by using it in crop fertilization. The aim of this study was to evaluate the stomatal density and yield of radish (Raphanus Sativus L.) fertilized with biol at different concentrations, produced from sugar cane residues. A completely randomized blocks design statistical model was used, which consisted of 5 tests with 3 repetitions for each one, being T1 the control trial, and T2, T3, T4 and T5 the treatments using 2, 3, 4 and 5 L of biol in 200 L of water respectively. In terms of crop physical characteristics, the T5 treatment excelled in plant length, equatorial diameter, plant weight, as well as yield with 12.71 t/ha. Likewise, in the chemical analysis of the radish leaves, the T5 treatment showed an increase in K, Ca, Zn and MN, while the T2 did it in N, P and Cu, the T3 in Fe and the T4 in Mg. In terms of stomatal density, T5 stood out with 122 stomatal/mm2. Based on this, it is concluded that the increase in the dose of biol influences the increase in nutrient and stomatal density and hence the yield of the radish crop.

Published

2022

16. Analysis of the Yield of Radish (raphanus Sativus L.) Fertilized with Compost Based on Organic Waste from Markets and Its Relationship with Its Stomatal Density

Author

Dante D. Cruz Nieto, Ronald F. Rodriguez Espinoza, Jose A. Legua Cardenas, Delicias E. Natividad Huasupoma, Juan M. Ipanaque Rona, Joaquin J. Abarca Rodriguez, and Ronald L. Ramos Pacheco

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

For higher yields in vegetable cultivation, the availability of soil nutrients must be improved. Therefore, the aim of this research was to establish the relationship between stomatal density and the yield of the radish crop fertilized with compost made from organic market waste. A completely randomized block design was used, which consisted of 3 blocks and 5 treatments, which were T1, T2, T3, T4 and T5 with 00, 10, 15, 15, 20 and 25 g compost/plant respectively. The physical characteristics of the plants were evaluated from sowing to harvest and the data obtained were processed by analysis of variance and Duncan's test. Chemical analysis of the compost and soil was carried out, as well as a foliar analysis to determine the nutrient concentration by treatment. The results determined that the treatment (T4) stood out in plant length with 28.96 cm, plant weight with 43.33 g, yield of 10.82 t/ha and bulb diameter of 3.92 cm; likewise, in the concentration of nutrients in the leaves, the treatment (T5) highlighted in N with 5.94%, Ca 4.84%, Mg 1.29%, Zn 64.58 ppm and a stomatal density of 642 stomas/mm2. It is concluded that, at an adequate dose of compost, the concentration of nutrients increases, as well as the stomatal density, resulting in higher yields.

Published

2022

17. Influence of fruit bagging technique on the morphometric and biochemical characteristics of two pomegranate varieties (Punica granatum L.)

Author

Pilar Legua, Juan José Martínez-Nicolás, Pedro Guirao, Francisca Hernández, Dámaris Núñez-Gómez, and Pablo Melgarejo

Subjects

Pomegranate variety, Weight fruit, Fruit bagging technique, Phenolic compounds, Organic acids, Sugars, Nutrition. Foods and food supply, TX341-641

Abstract

The pomegranate tree is cultivated and its fruits consumed since ancient times. This tree is typical of the Mediterranean climate, with high thermal demands to mature properly. The main objective of this work was to study the influence of the fruit bagging technique on the morphometric and biochemical characteristics of the pomegranate fruits of two new varieties that are currently cultivated in the Southeast of Spain. The results indicated that the fruit bagging presented a significant effect on the weight, equatorial diameter, height and shape of the fruit, however, it did not show any influence on the peel thickness. No significant differences have been observed in the number of healthy fruits with and without bagging, however, the number of cracked fruits with Cryptoblabes gnidiella damage was higher for the non-bagged fruits. The fruit bagging presented a significant effect on the total soluble solids, maturity index, glucose, α-punicalagin, α + β-punicalagin and ellagic acid, but it did not show influence on pH, acidity, ABTS, DPPH, FRAP, total phenols, fructose, citric, malic, and quinic acid, β-punicalagin and anthocyanins. The internal fruit color was not affected by the bagging, although it did affect the external color of the fruit, and unevenly depending on the variety. Based on the results, it can be said that bagging can improve the quality of the fruit by reducing damage from pests and pathophysiology, and this benefit compensates or even exceeds the negative effects of bagging on peel color.

Published

2022

18. Influence of Different Rootstocks on Fruit Quality and Primary and Secondary Metabolites Content of Blood Oranges Cultivars

Author

María Ángeles Forner-Giner, Manuel Ballesta-de los Santos, Pablo Melgarejo, Juan José Martínez-Nicolás, Dámaris Núñez-Gómez, Alberto Continella, and Pilar Legua

Subjects

anthocyanins, blood orange, bioactive compounds, flavones, flavanones, hydroxycinnamic acids, Organic chemistry, QD241-441

Abstract

Blood oranges have high concentrations of bioactive compounds that are beneficial to health. In Europe, the cultivation of blood oranges is increasing due to their excellent nutritional properties. In Citrus crops, rootstocks play an important role in juice and can increase the content of bioactive compounds. The morphological, qualitative and nutritional parameters were analyzed in cultivars ‘Tarocco Ippolito’, ‘Tarocco Lempso’, ‘Tarocco Tapi’ and ‘Tarocco Fondaconuovo’ grafted onto Citrus macrophylla and Citrus reshni. ‘Tarocco Lempso’ grafted onto Citrus macrophylla obtained the highest values of weight (275.78 g), caliber (81.37 mm and 76.79 mm) and juice content (162.11 g). ‘Tarocco Tapi’ grafted onto Citrus reshni obtained the most interesting qualitative parameters (15.40 °Brix; 12.0 MI). ‘Tarocco Lempso’ grafted onto Citrus reshni obtained the most intense red juice (a* = 9.61). Overall, the highest concentrations of primary metabolites were in proline, aspartate, citric acid, and sucrose. The results showed that ‘Tarocco Ippolito’ juice grafted onto Citrus reshni had the highest levels of total hydroxycinnamic acids (263.33 mg L−1), total flavones (449.74 mg L−1) and total anthocyanins (650.42 mg L−1). To conclude, ‘Tarocco Lempso’ grafted onto Citrus macrophylla obtained the best values of agronomic parameters, and the cultivars grafted onto Citrus reshni obtained significantly higher concentrations in primary and secondary metabolites.

Published

2023

19. Effect of Rootstock on the Volatile Profile of Mandarins

Author

María Ángeles Forner-Giner, Paola Sánchez-Bravo, Francisca Hernández, Amparo Primo-Capella, Marina Cano-Lamadrid, and Pilar Legua

Subjects

citrus fruits, clemenules, Gas Chromatography/Mass Spectrometry (GC-MS), hybrid, juice, volatile compounds, Chemical technology, TP1-1185

Abstract

Mandarin production has increased in recent years, especially for fresh consumption, due to its ease of peeling, its aroma, and its content of bioactive compounds. In this sense, aromas play a fundamental role in the sensory quality of this fruit. The selection of the appropriate rootstock is crucial for the success of the crop and its quality. Therefore, the objective of this study was to identify the influence of 9 rootstocks (“Carrizo citrange”, “Swingle citrumelo CPB 4475”, “Macrophylla”, “Volkameriana”, “Forner-Alcaide 5”, “Forner-Alcaide V17”, “C-35”, “Forner-Alcaide 418”, and “Forner-Alcaide 517”) on the volatile composition of “Clemenules” mandarin. For this, the volatile compounds of mandarin juice were measured using headspace solid-phase micro-extraction in a gas chromatograph coupled to a mass spectrometer (GC-MS). Seventy-one volatile compounds were identified in the analyzed samples, with limonene being the main compound. The results obtained showed that the rootstock used in the cultivation of mandarins affects the volatile content of the juice, with “Carrizo citrange”, “Forner-Alcaide 5”, “Forner-Alcaide 418”, and “Forner-Alcaide 517” being those that presented the highest concentration.

Published

2023

20. Lemon Peel and Juice: Metabolomic Differentiation

Author

Pablo Melgarejo, Dámaris Núñez-Gómez, Francisca Hernández, Rafael Martínez-Font, Vicente Lidón Noguera, Juan José Martínez-Nicolás, and Pilar Legua

Subjects

Citrus limon (L.) Burm. F, rootstock, culture media, ‘Verna’ cultivar, 1H-MNR, multivariate analysis, Plant culture, SB1-1110

Abstract

Lemon is one of the most significant crops globally, with annual production exceeding 20.8 million tons in 2021. Spain leads the production in Europe with over 62% of lemon production (1.17 million tons in 2021). This study evaluated the real impact of cultivation conditions (rootstock and culture medium) on the compositional characteristics of ‘Verna’ lemons (peel and juice) using 1H-MNR metabolomic identification techniques and multivariate analyses. Twenty metabolites were identified in both the peel and juice samples. Arginine, phenylalanine, ethanol, and trigonelline were absent in the peel samples but present in all the juice. On the other hand, the metabolites asparagine, glutamate, formate, and malate were present in the peel samples but absent in the juice. The analysis of the results indicates that the rootstock had a significant impact on the metabolites related to the energy metabolism of the plant, which directly affects the development of fruits and the influence of the culture conditions (rootstock and culture medium) on the plant’s adaptive response and modification of metabolic pathways.

Published

2023

21. Fruit Quality and Primary and Secondary Metabolites Content in Eight Varieties of Blood Oranges

Author

María Ángeles Forner-Giner, Manuel Ballesta-de los Santos, Pablo Melgarejo, Juan José Martínez-Nicolás, Amparo Melián-Navarro, Antonio Ruíz-Canales, Alberto Continella, and Pilar Legua

Subjects

amino acid, anthocyanins, blood orange, morphological parameters, organic acid, phenolic compounds, Agriculture

Abstract

In Europe, the cultivation of blood oranges for fresh consumption is increasing due to their excellent organoleptic and nutraceutical properties, which give this fruit the status of functional food. Blood orange has a higher content of bioactive compounds, which confer additional benefits for human health. The main morphological and qualitative parameters were studied together with the content of primary metabolites by 1H NMR and secondary metabolites by HPLC-ESI-DAD-MSn from eight varieties of blood orange grafted on Citrus macrophylla. Tarocco Dalmuso was the variety with the highest values of weight (350.6 g), caliber (86.4 mm and 88.6 mm) and juice content (214.2 g). Tarocco Gallo obtained the most interesting qualitative parameters (13.95 °Brix; 22.75 MI). The most intense red juice was in Sanguinelli (a* = 9.45) and, in crust, it was in Tarocco Scirè (a* = 40.13). The most abundant primary metabolites were proline, aspartate and asparagine, citric acid and sucrose. The results showed that the juice of the Moro had the highest levels of total flavones and flavanones (90.07 and 592.88 mg L−1, respectively), and Sanguinelli in total anthocyanins (101.06 mg L−1). To conclude, Tarocco Dalmuso obtained the best values of agronomic parameters, and Moro and Sanguinelli in the content of phenolic compounds.

Published

2023

22. Picturing the Growth Order of Solutions in Complex Linear Differential–Difference Equations with Coefficients of φ-Order

Author

Luis M. Sánchez-Ruiz, Sanjib Kumar Datta, Nityagopal Biswas, and Matilde Legua

Subjects

Nevanlinna, complex solution, growth order, complex linear ODE, Mathematics, QA1-939

Abstract

Given an unbounded non-decreasing positive function φ, we studied what the relations are between the growth order of any solution of a complex linear differential–difference equation whose coefficients are entire or meromorphic functions of finite φ-order. Our findings extend some earlier well-known results.

Published

2023

23. On-Site Multisample Determination of Chlorogenic Acid in Green Coffee by Chemiluminiscent Imaging

Author

Sergi Mallorca-Cebria, Yolanda Moliner-Martinez, Carmen Molins-Legua, and Pilar Campins-Falcó

Subjects

antioxidants, chlorogenic acid, chemiluminiscence, CCD camera, green coffee, on-site, Biology (General), QH301-705.5

Abstract

The potential of antioxidants in preventing several diseases has attracted great attention in recent years. Indeed, these products are part of a multi-billion industry. However, there is a lack of scientific information about safety, quality, doses, and changes over time. In the present work, a simple multisample methodology based on chemiluminiscent imaging to determine chlorogenic acid (CHLA) in green coffee samples has been proposed. The multi-chemiluminiscent response was obtained after a luminol-persulfate reaction at pH 10.8 in a multiplate followed by image capture with a charge-coupled device (CCD) camera as a readout system. The chemiluminiscent image was used as an analytical response by measuring the luminescent intensity at 0 °C with the CCD camera. Under the optimal conditions, the detection limit was 20 µM and precision was also adequate with RSD < 12%. The accuracy of the proposed system was evaluated by studying the matrix effect, using a standard addition method. Recoveries of chlorogenic acid ranged from 93–94%. The use of the CCD camera demonstrated advantages such as analysis by image inspection, portability, and easy-handling which is of particular relevance in the application for quality control in industries. Furthermore, multisample analysis was allowed by one single image saving time, energy, and cost. The proposed methodology is a promising sustainable analytical tool for quality control to ensure green coffee safety through dosage control and proper labelling preventing potential frauds.

Published

2023

24. Metabolomic Approach to Study the ‘Purple Queen’ Pomegranate Cultivar Response to Alternative Culture Media and Phenological Stages

Author

Juan José Martínez-Nicolás, Francisca Hernández, Dámaris Núñez-Gómez, Francisco García-Sánchez, Rafael Martínez-Font, Pilar Legua, and Pablo Melgarejo

Subjects

Punica granatum, port sediment, metabolomic differentiation, multivariate analysis, 1H-NMR, Chemical technology, TP1-1185

Abstract

The increasingly evident threat of depletion of world peat bogs is encouraging the search for and study of alternative agricultural substrates that can fully or partially replace peat, guaranteeing food supply (quality and quantity). On the other hand, the identification of the potential for the reuse of waste from relevant economic activities has increased in recent years, mainly motivated by the change to a sustainable circular economy, as is the case of port sediments. Taking into account that significant volumes of dredged port sediments are generated annually so that ports can maintain their economic activity, it is necessary to find objective, sustainable and safe reuse alternatives. In this sense, the objective of this study was to study the response of the “Purple Queen” pomegranate when grown with dredged port sediment. For this, the fruit production (kg), number of fruits (fruits tree-1), fruit weight (g), and seed yield (%) aiming to verify the correct tree development were evaluated. In addition, a 1H-NMR foliar metabolomic study for the three most relevant phenological phases was performed (flowering, fruit development, and post-harvest) to identify metabolic changes in trees. In total, 29 metabolites were identified; among them, 11 were amino acids, 6 organic acids, 5 sugars, and 7 secondary metabolites. The good agronomical development of the trees and fruits indicated the potential for using the dredged sediment as an agricultural substrate. On the other hand, the results revealed that the greatest variability in the metabolomic study occurred between the phenological phases and a lower variability is explained by the substrates used.

Published

2023

25. Grand Challenges in global eye health: a global prioritisation process using Delphi method

Author

Jacqueline Ramke, PhD, Jennifer R Evans, PhD, Esmael Habtamu, PhD, Nyawira Mwangi, PhD, Juan Carlos Silva, MD, Bonnielin K Swenor, PhD, Nathan Congdon, ProfMD, Hannah B Faal, ProfFRCOphth, Allen Foster, ProfFRCOphth, David S Friedman, ProfPhD, Stephen Gichuhi, PhD, Jost B Jonas, ProfPhD, Peng T Khaw, ProfPhD, Fatima Kyari, PhD, Gudlavalleti V S Murthy, ProfMD, Ningli Wang, ProfPhD, Tien Y Wong, ProfMD, Richard Wormald, MSc, Mayinuer Yusufu, MTI, Hugh Taylor, FRANZCO, Serge Resnikoff, ProfPhD, Sheila K West, ProfPhD, Matthew J Burton, ProfPhD, Ada Aghaji, Adeyemi T Adewole, Adrienne Csutak, Ahmad Shah Salam, Ala Paduca, Alain M Bron, Alastair K Denniston, Alberto Lazo Legua, Aldiana Halim, Alemayehu Woldeyes Tefera, Alice Mwangi, Alicia J Jenkins, Amanda Davis, Amel Meddeb-Ouertani, Amina H Wali, Ana G Palis, Ana Bastos de Carvalho, Anagha Joshi, Andreas J Kreis, Andreas Mueller, Andrew Bastawrous, Andrew Cooper, Andrew F Smith, Andrzej Grzybowski, Anitha Arvind, Anne M Karanu, Anne O Orlina, Anthea Burnett, Aryati Yashadhana, Asela P Abeydeera, Aselia Abdurakhmanova, Ashik Mohamed, Ashish Bacchav, Ashlie Bernhisel, Aubrey Walton Webson, Augusto Azuara-Blanco, Ava Hossain, Bayazit Ilhan, Bella Assumpta Lucienne, Benoit Tousignant, Bindiganavale R Shamanna, Boateng Wiafe, Brigitte Mueller, Cagatay Caglar, Caleb Mpyet, Carl H Abraham, Carol Y Cheung, Cassandra L Thiel, Catherine L Jan, Chike Emedike, Chimgee Chuluunkhuu, Chinomso Chinyere, Christin Henein, Clare E Gilbert, Covadonga Bascaran, Cristina Elena Nitulescu, Daksha Patel, Damodar Bachani, Daniel Kiage, Daniel Etya'ale, David Dahdal, Dawn Woo Lawson, Denise Godin, Dennis G Nkanga, Dennis M Ondeyo, Donna O'Brien, Dorothy M Mutie, Ebtisam S K Alalawi, Eduardo Mayorga, Effendy Bin Hashim, Elham Ashrafi, Elizabeth Andrew Kishiki, Elizabeth Kurian, Fabrizio D'Esposito, Faith Masila, Fernando Yaacov Pena, Fortunat Büsch, Fotis Topouzis, Francesco Bandello, Funmilayo J Oyediji, Gabriele Thumann, Gamal Ezz Elarab, Gatera Fiston Kitema, Gerhard Schlenther, Gertrude Oforiwa Fefoame, Gillian M Cochrane, Guna Laganovska, Haroon R Awan, Harris M Ansari, Heiko Philippin, Helen Burn, Helen Dimaras, Helena P Filipe, Henrietta I Monye, Himal Kandel, Hoby Lalaina Randrianarisoa, Iain Jones, Ian E Murdoch, Ido Didi Fabian, Imran A Khan, Indra P Sharma, Islam Elbeih, Islay Mactaggart, J Carlos Pastor, Jan E E Keunen, Jane A Ohuma, Jason Pithuwa Nirwoth, Jaouad Hammou, Jayme R Vianna, Jean-eudes Biao, Jennifer M Burr, Jeremy D Keenan, Jess Blijkers, Joanna M Black, Joao Barbosa Breda, Joao M Furtado, John C Buchan, John G Lawrenson, John H Kempen, Joshua R Ehrlich, Judith Stern, Justine H Zhang, Kadircan H Keskinbora, Karin M Knoll, Karl Blanchet, Katrina L Schmid, Koichi Ono, Kolawole Ogundimu, Komi Balo, Kussome Paulin Somda, Kwame Yeboah, Kwesi N Amissah-Arthur, Leone Nasehi, Lene Øverland, Lingam Vijaya, Lisa Keay, Lisa M Hamm, Lizette Mowatt, Lloyd C M Harrison-Williams, Lucia Silva, Luigi Bilotto, Manfred Mörchen, Mansur Rabiu, Marcia Zondervan, Margarida Chagunda, Maria Teresa Sandinha, Mariano Yee Melgar, Marisela Salas Vargas, Mark D Daniell, Marzieh Katibeh, Matt Broom, Megan E Collins, Mehmet Numan Alp, Michael A Kwarteng, Michael Belkin, Michael Gichangi, Michelle Sylvanowicz, Min Wu, Miriam R Cano, Mohammad Shalaby, Mona Duggal, Moncef Khairallah, Muhammed Batur, Mukharram M Bikbov, Muralidhar Ramappa, Nagaraju Pamarathi, Naira Khachatryan, Nasiru Muhammad, Neil Kennedy, Neil Murray, Nicholas A V Beare, Nick Astbury, Nicole A Carnt, Nigel A St Rose, Nigel H Barker, Niranjan K Pehere, Nkechinyere J Uche, Noemi Lois, Oluwaseun O Awe, Oscar J Mujica, Oteri E Okolo, Padmaja Kumari Rani, Paisan Ruamviboonsuk, Papa Amadou Ndiaye, Parami Dhakhwa, Pavel Rozsival, Pearl K Mbulawa, Pearse A Keane, Pete R Jones, Peter Holland, Phanindra Babu Nukella, Philip I Burgess, Pinar Aydin O'Dwyer, Prabhath Piyasena, Pradeep Bastola, Priya Morjaria, Qais Nasimee, Raizza A T Rambacal, Rajdeep Das, Rajiv B Khandekar, Rajvardhan Azad, Ramona Bashshur, Raúl A R C Sousa, Rebecca Oenga, Reeta Gurung, Robert Geneau, Robert J Jacobs, Robert P Finger, Robyn H Guymer, Rodica Sevciuc, Rohit C Khanna, Ronnie George, Ronnie Graham, Ryo Kawasaki, S May Ho, Sailesh Kumar Mishra, Sandeep Buttan, Sandra S Block, Sandra Talero, Sangchul Yoon, Sanil Joseph, Sare Safi, Sarity Dodson, Sergio R Munoz, Seydou Bakayoko, Seyed Farzad Mohammadi, Shabir Ahmad Muez, Shahina Pardhan, Shelley Hopkins, Shwu-Jiuan Sheu, Sidi Mohamed Coulibaly, Silvana A Schellini, Simon Arunga, Simon R Bush, Sobha Sivaprasad, Solange R Salomao, Srinivas Marmamula, Stella N Onwubiko, Stuti L Misra, Subeesh Kuyyadiyil, Sucheta Kulkarni, Sudarshan khanal, Sumrana Yasmin, Suzana Nikolic Pavljasevic, Suzanne S Gilbert, Tasanee Braithwaite, Tatiana Ghidirimschi, Thulasiraj Ravilla, Timothy R Fricke, Tiziana Cogliati, Tsehaynesh Kassa, Tunde Peto, Ute Dibb, Van C Lansingh, Victor H Hu, Victoria M Sheffield, Wanjiku Mathenge, William H Dean, Winifred Nolan, Yoshimune Hiratsuka, Yousaf Jamal Mahsood, and Yuddha Sapkota

Subjects

Geriatrics, RC952-954.6, Medicine

Abstract

Summary: Background: We undertook a Grand Challenges in Global Eye Health prioritisation exercise to identify the key issues that must be addressed to improve eye health in the context of an ageing population, to eliminate persistent inequities in health-care access, and to mitigate widespread resource limitations. Methods: Drawing on methods used in previous Grand Challenges studies, we used a multi-step recruitment strategy to assemble a diverse panel of individuals from a range of disciplines relevant to global eye health from all regions globally to participate in a three-round, online, Delphi-like, prioritisation process to nominate and rank challenges in global eye health. Through this process, we developed both global and regional priority lists. Findings: Between Sept 1 and Dec 12, 2019, 470 individuals complete round 1 of the process, of whom 336 completed all three rounds (round 2 between Feb 26 and March 18, 2020, and round 3 between April 2 and April 25, 2020) 156 (46%) of 336 were women, 180 (54%) were men. The proportion of participants who worked in each region ranged from 104 (31%) in sub-Saharan Africa to 21 (6%) in central Europe, eastern Europe, and in central Asia. Of 85 unique challenges identified after round 1, 16 challenges were prioritised at the global level; six focused on detection and treatment of conditions (cataract, refractive error, glaucoma, diabetic retinopathy, services for children and screening for early detection), two focused on addressing shortages in human resource capacity, five on other health service and policy factors (including strengthening policies, integration, health information systems, and budget allocation), and three on improving access to care and promoting equity. Interpretation: This list of Grand Challenges serves as a starting point for immediate action by funders to guide investment in research and innovation in eye health. It challenges researchers, clinicians, and policy makers to build collaborations to address specific challenges. Funding: The Queen Elizabeth Diamond Jubilee Trust, Moorfields Eye Charity, National Institute for Health Research Moorfields Biomedical Research Centre, Wellcome Trust, Sightsavers, The Fred Hollows Foundation, The Seva Foundation, British Council for the Prevention of Blindness, and Christian Blind Mission. Translations: For the French, Spanish, Chinese, Portuguese, Arabic and Persian translations of the abstract see Supplementary Materials section.

Published

2022

26. Mean platelet volume and mean platelet volume to platelet count ratio as predictors of severity and mortality in sepsis.

Author

Jorge Luis Vélez-Páez, Pedro Legua, Pablo Vélez-Páez, Estefanía Irigoyen, Henry Andrade, Andrea Jara, Fernanda López, Jorge Pérez-Galarza, and Lucy Baldeón

Subjects

Medicine, Science

Abstract

IntroductionSepsis is a public health problem due to its high prevalence and mortality. Mean platelet volume (MPV), a biomarker reported in routine blood counts, has been investigated and shows promise for determining fatal outcomes in septic patients.ObjectiveEvaluate whether the mean platelet volume (MPV) and mean platelet volume-to-platelet count (MPV/P) ratio are predictors of clinical severity and mortality in patients with sepsis.MethodsA prospective population cohort of 163 patients aged 18-97 years was recruited at the Intensive Care Unit of Pablo Arturo Hospital, Quito, Ecuador from 2017-2019 and followed up for 28 days. Patients were diagnosed with sepsis based on SEPSIS-3 septic shock criteria; in which the MPV and the MPV/P ratio were measured on days 1, 2, and 3. Sequential organ failure assessment (SOFA) score and presence of septic shock assessed clinical severity. Mortality on day 28 was considered the fatal outcome.ResultsThe average age of the patients was 61,15 years (SD 20,94) and female sex was predominant. MPV cutoff points at days 1, 2 and 3 were >9,45fL, >8,95fL and >8, 85fL; and (MPV/P) ratio >8, 18, >4, 12 y >3, 95, respectively. MPV at days 2 (9,85fL) and 3 (8,55fL) and (MPV/P) ratio at days 1 (4,42), 2 (4,21), and 3 (8,55), were predictors of clinical severity assessed by septic shock, which reached significance in the ROC curves. MPV and (MPV/P) ratio were also predictors of clinical severity determined by SOFA at days 1, 2, and 3, where higher values were observed in non-survivors reaching significance in all categories. MPV and MPV/P ratio at days 1, 2 and 3 were independent predictor factors of mortality using Cox proportional hazards model (HR 2,31; 95% CI 1,36-3,94), (HR 2,11; 95% CI 1,17-3,82), (HR 2,13; 95% CI 1,07-4,21) and (HR 2,38; 95% CI 1,38-4,12), (HR 2,15; 95% CI 1,14-4,06), (HR 4,43; 95% CI, 1,72-11,37) respectively.ConclusionsMPV and the MPV/P ratio are predictors of clinical severity and mortality in sepsis. The MPV and its coefficient are indicators of the biological behavior of platelets in sepsis. They should be considered as a cost-effective and rapidly available tool that guides the treatment.

Published

2022

27. Pomegranate variety and pomegranate plant part, relevance from bioactive point of view: a review

Author

Melgarejo-Sánchez, Pablo, Núñez-Gómez, Dámaris, Martínez-Nicolás, Juan J., Hernández, Francisca, Legua, Pilar, and Melgarejo, Pablo

Published

2021

28. Fatty acids compositional variations between the edible and non-edible fruit part of seven pomegranate varieties

Author

Pablo Melgarejo, Dámaris Núñez-Gómez, Juan José Martínez-Nicolás, Edgardo Giordani, Francesca Tozzi, and Pilar Legua

Subjects

Fatty acids profile, Lipid content, Punica granatum L., Pomegranate fruit part, Pomegranate variety, Nutrition. Foods and food supply, TX341-641

Abstract

The biological importance of fatty acids in different metabolic routes and/or specific activities with medical, cosmetic, pharmaceutical interest makes it increasingly necessary to know in detail the lipid composition of foods. The objective of this work was to identify and characterize the fatty acids profile of seven pomegranate varieties with commercial interest, differentiating between its edible (seeds) and non-edible (peel plus carpellary membranes) parts, aiming to have a holistic and characteristic vision. The results confirmed the compositional fatty acids variations of the pomegranate, both between different varieties and the parts of the fruit. 29-101 variety presents a fatty acid profile with a higher potential for antifungal, antibacterial and antiviral properties. The content of punicic acid in the Kingdom variety makes it the most pomegranate varieties interesting for its nutraceutical, pharmaceutical, food and medical applications. The specific fatty acid content could define the best pomegranate variety depending on its potential use/application.

Published

2021

29. Advances in the Measurement of Polymeric Colorimetric Sensors Using Portable Instrumentation: Testing the Light Influence

Author

Adria Martínez-Aviño, Maria de Diego-Llorente-Luque, Carmen Molins-Legua, and Pilar Campíns-Falcó

Subjects

polymeric membranes, PDMS, cellulose, color measurement, RGB, smartphone, Organic chemistry, QD241-441

Abstract

Sustainable and green sensors based on polydimethyl siloxane (PDMS) or cellulose polymers, as a case of study of the use of portable instrumentation joined to a smartphone, have been tested. A smartphone camera was used to obtain images and was also coupled to a minispectrometer, without and with an optical fiber probe to register spectra. To study light influence on the analytical signal, light-emitting diode (LED), halogen light and daylight have been assayed. A corrective palette of 24 colors and a set with 45 colors from different color ranges were used as the validation set. The results indicated that halogen light was the best option to obtain the spectra. However, for digital image analysis, it was the LED light that gave a greater approximation of the RGB values of the real colors. Based on these results, the spectra and the RGB components of PDMS solid sensors doped with 1,2-naphtoquinone-4-sulfonate (NQS) for the determination of ammonium in water or urea in urine, PDMS doped with Griess reagent for developing the assay of nitrite in waters and cellulose sensors for the determination of hydrogen sulfide in the atmospheres have been obtained. The results achieved were good in terms of sensitivity and linearity and were comparable to those obtained using a laboratory benchtop instrument. Several rules for selecting the most suitable light source to obtain the spectra and/or images have been established and an image correction method has been introduced.

Published

2022

30. Life Cycle Assessment (LCA) of Substrate Mixes Containing Port Sediments for Sustainable ‘Verna’ Lemon Production

Author

Francisca Hernández, Juan José Martínez-Nicolás, Pablo Melgarejo, Dámaris Núñez-Gómez, Vicente Lidón, Rafael Martínez-Font, and Pilar Legua

Subjects

dredged port sediment, life cycle assessment, Citrus limon L. Burm, circular economy, waste revalorization, Chemical technology, TP1-1185

Abstract

The increase in maritime trade and its global economic importance have forced port management actors to carry out the periodic dredging of their sediments to maintain an adequate depth for the passage of large ships to maintain their operation and competitiveness. During the dredging process, large volumes of port sediment are generated. Dredged port sediment is currently considered a waste material and its disposal is regulated. Finding ways to safely reuse port sediments is necessary for sustainable development. In this study, a life cycle assessment (LCA) methodology was applied to identify the environmental impact of port sediments when used as a culture medium for lemon trees. A total of 90 lemon trees (Citrus limon L. Burm var ‘Verna’) were used in the trial. The trees were grown under controlled conditions using three substrates, with different portions of peat and port sediment (25%, 50%, and 75%) to identify the real impacts of the culture media on the growth process. The LCA was calculated and analyzed according to the ISO 14040:2006 standard, using the SimaPro v. 9.3 software (PRé Sustainability B.V, Amersfoort, The Netherlands). The functional unit defined for the three-culture media was 1 kg of lemons. The LCA results showed a significant increase in the environmental impact of lemon cultivation proportional to port sediment content (75%), due to the decrease in fruit production caused by the sediment. However, the least impact was identified for the culture medium at 50% peat and 50% port sediment. The greatest impacts were more related to crop management rather than the port sediment content. The results showed that the use of the port sediment, mixed with other substrates as an agricultural medium amendment, is a viable option for lemon growers.

Published

2022

31. Physico-Chemical Attributes of Lemon Fruits as Affected by Growing Substrate and Rootstock

Author

Juan José Martínez-Nicolas, Dámaris Núñez-Gómez, Vicente Lidón, Rafael Martínez-Font, Pablo Melgarejo, Francisca Hernández, and Pilar Legua

Subjects

lemon rootstock, dredged marine sediment, fruit quality, biocompounds, Chemical technology, TP1-1185

Abstract

Due to its high content of bioactive compounds, the lemon is considered one of the most relevant species around the world. Its great economic importance is motivated, in addition to its fresh consumption, by its applications in the medical, pharmaceutical, and food industries, etc. However, the chemical and nutritional composition of lemon is not constant and can be influenced by external factors such as variety, weather conditions, crop management, etc. Determining the compositional variations of the fruit, essential to defining its potential use, was the main objective of this study. The physicochemical characteristics of the ‘Verna’ lemon were studied as a function of two controlled variables, the growing substrate and the rootstock. For this, 90 lemon trees were cultivated in three rootstocks and three different culture media. Lemon trees cultivated with 50% sediment/peat mix substrate presented a higher total production (590 lemons and 90.53 kg) while this production was 80% lower on trees cultivated with 75% marine sediment. Citrus macrophylla and Citrus aurantium/Citrus sinensis rootstocks showed a significantly higher production than the Citrus aurantium. All the fruits presented a predominantly yellow color appropriate for the market (0 < CI < +5). Nutritional and chemical parameters were consistent with data reported for the ‘Verna’ clones. All the obtained lemons were suitable for marketing and consumption both in fresh and processed forms. The results indicated the limited influence that the studied variables have on the quality parameters of lemon fruits, but they also could confirm the potential of marine sediment as a culture substrate.

Published

2022

32. Metabolomic Profile of Citrus limon Leaves (‘Verna’ Variety) by 1H-NMR and Multivariate Analysis Technique

Author

Pablo Melgarejo, Dámaris Núñez-Gómez, Juan José Martínez-Nicolás, Francisca Hernández, Rafael Martínez-Font, Vicente Lidón, Francisco García-Sánchez, and Pilar Legua

Subjects

Citrus limon Burm., citrus rootstock, culture media, metabolomic differentiation, lemon leaves, Agriculture

Abstract

The elaboration and definition of “metabolic fingerprints” can subsidize both the identification and determination of plant varieties, as well as the increase in knowledge about the responses and adaptations of plants to external and/or internal factors. The lemon tree (Citrus limon Burm.) is one of the most important crops in the Spanish southeast and is often consumed around the world. Although the study and characterization of its fruits are common due to its economic interest, its leaves are limited to specific functionalized studies related to the objective of the work (extraction of essential oils, stabilizing agent, aromatic extracts, etc.). So, this study aimed to identify the primary and secondary metabolites of Citrus limon Burm. (‘Verna’ variety) leaf samples cultivated under different conditions (three rootstocks and three culture media). In total, 19 metabolites were identified for all samples, of which 9 were amino acids, 5 organic acids, 3 sugars and 2 intermediate metabolites. The results pointed to a limited influence, both of the substrate and of the crop rootstock, on the metabolomic differentiation of lemon leaves. Knowledge and foliar metabolomic differentiation can offer important information that supports the application of crop foliar treatments but also helps in the management of diseases and pests.

Published

2022

33. Phytochemical Profile of Opuntia ficus-indica (L.) Mill Fruits (cv. ‘Orito’) Stored at Different Conditions

Author

Francisca Hernández, Lucía Andreu-Coll, Andreia Bento-Silva, Ana Teresa Serra, Pedro Mena, Pilar Legua, and Maria Rosario Bronze

Subjects

prickly pear, HPLC-MS, betalains, phenolic acid, lignans, antioxidants, Chemical technology, TP1-1185

Abstract

This research analyzed the phytochemical profile of prickly pear fruits from ‘Orito’ cultivar stored under cold conditions (2 °C, 85–90% RH) and shelf-life conditions at room temperature (stored at 20 °C for three days after cold storage) for 28 days, mimicking the product life cycle. A total of 18 compounds were identified and quantitated through HPLC-DAD-MS/MS (High-Performance Liquid Chromatographic -Diode Array Detector- Mass Spectrometry) analyses. Phenolic acids such as eucomic acid and betalains such as indicaxanthin were the predominant chemical families, and piscidic acid was the most abundant compound. During cold storage, the content of eucomic acid isomer/derivative and syringaresinol increased, and citric acid decreased, which could be caused by the cold activation of the phenylalanine ammonia-lyase (PAL) and polyphenol oxidase (PPO) enzymes. However, no significant differences were found in the content of these compounds during shelf-life storage. These results showed that ‘Orito’ fruit marketability would be possible up to 28 days after harvesting, retaining its profile, which is rich in bioactive compounds.

Published

2022

34. Improving Sustainability of the Griess Reaction by Reagent Stabilization on PDMS Membranes and ZnNPs as Reductor of Nitrates: Application to Different Water Samples

Author

Lusine Hakobyan, Belén Monforte-Gómez, Yolanda Moliner-Martínez, Carmen Molins-Legua, and Pilar Campíns-Falcó

Subjects

PDMS membranes, embedded Griess reagent, ionic liquid, ZnNPs, nitrate and nitrite, smartphone, Organic chemistry, QD241-441

Abstract

A new approach based on the use of polydimethylsiloxane (PDMS) membranes doped with Griess reagents for in situ determination of NO2− and NO3−- in real samples is proposed. The influence of some doping compounds, on the properties of the PDMS membranes, such as tetraethyl orthosilicate (TEOS), or/and ionic liquids (OMIM PF6) has been studied. Membrane characterization was performed. To apply the procedure to NO3− determination, dispersed Zn nanoparticles (ZnNPs) were employed. The analytical responses were the absorbance or the RGB components from digital images. Good precision (RSD < 8%) and detection limit of 0.01 and 0.5 mgL−1 for NO2− and NO3−, respectively, were achieved. The approach was satisfactory when applied to the determination of NO2− and NO3− in drinking waters, irrigation and river waters, and waters from canned and fresh vegetables. The results obtained were statistically comparable with those by using nitrate ISE or UV measurement. This approach was transferred satisfactory to 96 wells for multianalysis. This study enables the improvement in the on-site determination of NO2− and NO3− in several matrices. It is a sustainable alternative over the reagent derivatizations in solution and presents several advantages such as being versatile, simplicity, low analysis time, cost, and energy efficiency. The response can be detected visually or by portable instruments such as smartphone.

Published

2022

35. Pomological and phenolic characterization of blood orange cultivars in a Mediterranean environment

Author

Continella, A., Modica, G., Porras, I., Conesa, A., and Legua, P.

Subjects

Horticulture

Published

2022

36. Breba Fruits Characterization from Four Varieties (Ficus carica L.) with Important Commercial Interest in Spain

Author

Dámaris Núñez-Gómez, Pilar Legua, Juan José Martínez-Nicolás, and Pablo Melgarejo

Subjects

Ficus carica L., breba fruit, fruit quality, variety diversity, nuclear magnetic resonance, Chemical technology, TP1-1185

Abstract

Although most of the published articles generalize with the fruit of the fig tree (Ficus carica L.), the differentiation between fig and breba is increasingly common in the bibliography. In this regard, keep in mind that the fig tree generally produces two crops a year, the parthenocarpic breba, also called as early fig, and the main non-parthenocarpic crop, the fig proper. In this study, four brebas varieties (‘Colar’, ‘SuperFig1’, ‘Cuello de Dama Negro’ and ‘San Antonio’) were selected in order to identify compositional, nutritional, and chemical diversity. These varieties were chosen for their commercial relevance in Spain. Color (internal and external), fruit and peel weight, size, pH, total soluble solids (TSS), titratable acidity (TA), maturity index (MI), sugar, and organic content were determined for all the breba fruits samples. In addition, polyphenolic profile, amino acids, and volatile aromatic compounds were also identified. The varieties ‘Colar’ and ‘SuperFig1’ showed the highest fruit weight and size, while ‘Cuello de Dama Negro’ presented the higher pulp yield. The higher organic acid and sugar contents were determined for ‘SuperFig1’ and ‘Cuello de Dama Negro’, respectively. Although in low concentrations, the phenolic compound quercetin 3-(6-O-acetyl-beta-glucoside) and the amino acid tyrosine were only detected in the ‘’Cuello de Dama Negra’ and ‘SuperFig1’ fruits, respectively. Of the eighty volatile aromatic compounds identified, only eight were common in four varieties. An important knowledge gap was identified in relation to the characterization of the two Ficus carica L. crops, that is, the differentiation and specification in the literature when working with brebas and/or figs.

Published

2021

37. Luminol Doped Silica-Polymer Sensor for Portable Organic Amino Nitrogen and Ammonium Determination in Water

Author

Sara Bocanegra-Rodríguez, Carmen Molins-Legua, and Pilar Campíns-Falcó

Subjects

portable sensor, water analysis, luminol, chemiluminescence, composite, portable luminometer, Physics, QC1-999, Chemistry, QD1-999

Abstract

We propose a portable sensor, obtained by embedding luminol into the tetraethylorthosilicate/trietoxymethylsilane (TEOS/MTEOS) composite, for the quantitative determination of organic amino nitrogen and ammonium in water with the goal of achieving low levels of concentration. The method is based on the reaction between amino nitrogen compounds and hypochlorite to produce chloramino derivatives. Then, the remaining hypochlorite reacts with luminol sensor by producing a luminescence signal, which was measured by using a portable luminometer, being inversely proportional to nitrogen concentration. The liberation of the luminol from sensor is higher than 90% and the sensor is stable for at least a week at room temperature. This portable method was successfully validated and applied to the analysis of several real waters: fountain, river transition, lagoon, and seawater with recovery values between 92% and 112%, which indicated that the matrix effect was absent. The achieved limit of detection was around 10 µg·L−1, expressed as N. This sensor allows in situ monitoring owing to its simplicity, rapidity, and portability.

Published

2021

38. Pomegranate definitions and research methodologies: importance of using correct and unified terminology

Author

Melgarejo, P., primary, Núñez-Gómez, D., additional, Melgarejo-Sánchez, P., additional, Martínez-Nicolás, J.J., additional, and Legua, P., additional

Published

2022

39. Meningoencephalitis Due to Free-Living Amoebas in the Tropics

Author

Seas Ramos, Carlos Rafael and Legua, P.

Subjects

Free-living amoebas, Acanthamoeba, Primary amebic meningoencephalitis, Naegleria fowleri, Granulomatous amebic encephalitis, Balamuthia mandrillaris

Abstract

Purpose of Review: To asses recent advances in our understanding of the epidemiology, clinical presentation, diagnosis, and treatment of infections caused by free-living amoebas Recent Findings: The burden of disease by free-living amoebas is underestimated; global warming could increase incidence in future years. Early recognition of clinical syndromes may allow for prompt initiation of therapy and better disease outcome. Molecular tests allow for rapid identification of the amoeba. Treatment is based on successful clinical outcomes reported using repurposed drugs. The optimal regimen for each of the clinical syndromes is unknown. Summary: As global warming increases, clinicians will be challenged to diagnose and treat infections by free-living amoebas. Therefore, awareness of clinical syndromes, diagnostic tools, and therapeutic interventions is crucial.

Published

2022

40. Mycetoma, chromoblastomycosis and other deep fungal infections: diagnostic and treatment approach

Author

Seas, Carlos and Legua, Pedro

Published

2022

41. Qualitative traits and peel essential oil profiles of 24 Italian and international lemon varieties.

Author

Modica, Giulia, Strano, Tonia, Napoli, Edoardo, Seminara, Sebastiano, Aguilar-Hernández, Marlene, Legua, Pilar, Gentile, Alessandra, Ruberto, Giuseppe, and Continella, Alberto

Subjects

ESSENTIAL oils, ORGANIC acids, VITAMIN C, BIOACTIVE compounds, BIOMARKERS, LEMON

Abstract

Lemon (Citrus limon L. Burm. f.) is used for fresh consumption because it is rich in several nutraceutical products especially vitamin C. The physicochemical properties and the bioactive compounds of the peel, such as the essential oil, are strictly depended on the genotype. In this context, peel and juice qualitative traits of 24 lemon cultivars were described: 20 varieties of the Italian germplasm, mostly belonging to Femminello (F.) lines, and 4 international varieties were studied. This study which may be considered one of the few examples carried out on a large number of varieties of a single Citrus species, was conducted over two years and the oils collected by hydro-distillation of the flavedo were analyzed by GC-FID and GC-MS. Differences were observed in the oil yields. For an easier comparison the essential oils' component were subdivided in five classes: monoterpene hydrocarbons, oxygenated monoterpenes, sesquiterpene hydrocarbons, oxygenated sesquiterpenes and others (not terpenoidic compounds). Among the monoterpene hydrocarbons, in all the cultivars the most abundant compounds were limonene, followed by β-pinene and γ-terpinene. In particular, Monachello showed the highest content of monoterpene hydrocarbons, while the lowest value was observed in F. Carrubaro, Fino and Akragas. Femminello lines are interesting cultivars for qualitative traits of the juice (organic acids and vitamin C) and for the highest content of volatile compounds in the peel, such as limonene, myrcene, β-pinene, α-pinene, γ-terpinene and sabinene. Significant differences in morphological and physicochemical traits were observed: fruits of Lemox, F. Adamo and F. Scandurra showed to be seedless, while high acidity content was observed in F. 2Kr, which also showed the highest vitamin C content. [Display omitted] • Lemox, F. Adamo, F. Scandurra and F. Cerza cultivars resulted seedless. • The juice of F. 2Kr showed the highest content of vitamin C. • PCA analysis indicated geranial, neral, neryl and geranyl acetate as main descriptors. • LDA analysis discriminated Femminello genotypes by identifying biological markers. [ABSTRACT FROM AUTHOR]

Published

2024

42. Implementing an Antimicrobial Stewardship Program in an Oncology Center in Lima, Peru: A Model for Low- and Middle-Income Countries.

Author

Seas C, Legua P, Delfin B, Villavicencio K, Palomino A, Montenegro P, Aguilar I, La Rosa Y, Robles M, and Young F

Abstract

Our center launched the first antimicrobial stewardship program in Peru. From 2016 to 2023, the proportion of antimicrobial prescriptions audited increased from 60% to 95%, and 65% to 95% of recommendations were accepted. Vancomycin and meropenem use dropped by 95% and 84%, respectively. The proportion of recommendations for surgical prophylaxis exceeded 90%., Competing Interests: Potential conflicts of interest. All authors: No reported conflicts., (© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2024

43. Comparative Evaluation of Boron Sorption Dynamics on Zeolites in Irrigation Waters: An Isothermal Modeling Approach.

Author

Núñez-Gómez D, Martínez-Nicolás JJ, Legua P, Giménez-Valero C, Maciá-Vázquez AA, and Melgarejo P

Abstract

Efficient boron removal from irrigation waters is crucial for sustainable agriculture, as elevated levels of boron can be toxic to many plants, limiting growth and crop productivity. In this context, the present study investigated the sorption equilibrium of boron using zeolites in two types of aqueous matrices: a synthetic solution containing only boron and natural irrigation waters. Through the application of various isothermal sorption models (Langmuir, Freundlich, Sips, Toth, Jovanovic, Temkin, Dubinin-Radushkevich, and Redlich-Peterson), the efficacy of zeolite for boron removal under controlled and real conditions was evaluated. The results indicated a notable difference in sorption behavior between the two matrices, reflecting the complexity and heterogeneity of interactions in the boron-zeolite system. In the synthetic solution, the Freundlich model provided the best fit (R 2 = 0.9917), suggesting heterogeneous and multilayer sorption, while the Sips model showed high efficacy in describing the sorption in both matrices, evidencing its capability to capture the complex nature of the interaction between boron and zeolite under different environmental conditions. However, in natural irrigation waters, the Jovanovic model demonstrated the most accurate fit (R 2 = 0.999), highlighting the importance of physical interactions in boron sorption. These findings underscore the significant influence of the water matrix on the efficacy of zeolite as a boron removal agent, emphasizing the need to consider the specific composition of irrigation water in the design of removal treatments. Additionally, the results stress the importance of selecting the appropriate isothermal model to predict boron sorption behavior, which is crucial for developing effective and sustainable treatment strategies. This study provides a basis for optimizing boron removal in various agricultural and industrial applications, contributing to the design of more efficient and specific water treatment processes.

Published

2024

44. Accurate Botanical Nomenclature: Pomegranate and the 'Aril' Misconception.

Author

Melgarejo P, Martínez-Nicolás JJ, Núñez-Gómez D, Almansa MS, and Legua P

Abstract

The pomegranate ( Punica granatum L.) attracts attention in studies for its nutritional and medicinal properties. However, a recurring issue in the literature arises due to the multidisciplinary nature of these studies, leading to a mistaken repetition of basic botanical terms. The problem stems from the misapplication of the term "aril" to the pomegranate seed, despite the fruit being exariled, signifying the absence of an aril. This confusion may be attributed to the sarcotesta's appearance, resembling a complete aril, coupled with a lack of awareness in fields such as medicine, pharmacy, and cosmetics. This study specifically examines the Kingdom-variety pomegranate, due its economic importance in the fruit market. The fruits were evaluated at different developmental stages-initial, intermediate, and commercial. Magnification photography techniques were used to study the development state of the pomegranate fruits. The physiological studies confirm that the pomegranate seed constitutes the complete grain, with the juicy, sweet part surrounding it identified as the testa, not an aril. The findings underscore a persistent error in the existing literature, emphasizing the necessity for dissemination and education in future studies. A thorough grasp of pomegranate anatomy and precise use of terminology are indispensable for ensuring accuracy and rigor in scientific communication.

Published

2024

45. Influence of Different Rootstocks on Fruit Quality and Primary and Secondary Metabolites Content of Blood Oranges Cultivars.

Author

Forner-Giner MÁ, Ballesta-de Los Santos M, Melgarejo P, Martínez-Nicolás JJ, Núñez-Gómez D, Continella A, and Legua P

Subjects

Anthocyanins, Fruit, Europe, Citrus sinensis, Citrus

Abstract

Blood oranges have high concentrations of bioactive compounds that are beneficial to health. In Europe, the cultivation of blood oranges is increasing due to their excellent nutritional properties. In Citrus crops, rootstocks play an important role in juice and can increase the content of bioactive compounds. The morphological, qualitative and nutritional parameters were analyzed in cultivars 'Tarocco Ippolito', 'Tarocco Lempso', 'Tarocco Tapi' and 'Tarocco Fondaconuovo' grafted onto Citrus macrophylla and Citrus reshni . 'Tarocco Lempso' grafted onto Citrus macrophylla obtained the highest values of weight (275.78 g), caliber (81.37 mm and 76.79 mm) and juice content (162.11 g). 'Tarocco Tapi' grafted onto Citrus reshni obtained the most interesting qualitative parameters (15.40 °Brix; 12.0 MI). 'Tarocco Lempso' grafted onto Citrus reshni obtained the most intense red juice ( a* = 9.61). Overall, the highest concentrations of primary metabolites were in proline, aspartate, citric acid, and sucrose. The results showed that 'Tarocco Ippolito' juice grafted onto Citrus reshni had the highest levels of total hydroxycinnamic acids (263.33 mg L -1 ), total flavones (449.74 mg L -1 ) and total anthocyanins (650.42 mg L -1 ). To conclude, 'Tarocco Lempso' grafted onto Citrus macrophylla obtained the best values of agronomic parameters, and the cultivars grafted onto Citrus reshni obtained significantly higher concentrations in primary and secondary metabolites.

Published

2023

46. Effect of Rootstock on the Volatile Profile of Mandarins.

Author

Forner-Giner MÁ, Sánchez-Bravo P, Hernández F, Primo-Capella A, Cano-Lamadrid M, and Legua P

Abstract

Mandarin production has increased in recent years, especially for fresh consumption, due to its ease of peeling, its aroma, and its content of bioactive compounds. In this sense, aromas play a fundamental role in the sensory quality of this fruit. The selection of the appropriate rootstock is crucial for the success of the crop and its quality. Therefore, the objective of this study was to identify the influence of 9 rootstocks ("Carrizo citrange", "Swingle citrumelo CPB 4475", "Macrophylla", "Volkameriana", "Forner-Alcaide 5", "Forner-Alcaide V17", "C-35", "Forner-Alcaide 418", and "Forner-Alcaide 517") on the volatile composition of "Clemenules" mandarin. For this, the volatile compounds of mandarin juice were measured using headspace solid-phase micro-extraction in a gas chromatograph coupled to a mass spectrometer (GC-MS). Seventy-one volatile compounds were identified in the analyzed samples, with limonene being the main compound. The results obtained showed that the rootstock used in the cultivation of mandarins affects the volatile content of the juice, with "Carrizo citrange", "Forner-Alcaide 5", "Forner-Alcaide 418", and "Forner-Alcaide 517" being those that presented the highest concentration.

Published

2023

47. Metabolomic Approach to Study the 'Purple Queen' Pomegranate Cultivar Response to Alternative Culture Media and Phenological Stages.

Author

Martínez-Nicolás JJ, Hernández F, Núñez-Gómez D, García-Sánchez F, Martínez-Font R, Legua P, and Melgarejo P

Abstract

The increasingly evident threat of depletion of world peat bogs is encouraging the search for and study of alternative agricultural substrates that can fully or partially replace peat, guaranteeing food supply (quality and quantity). On the other hand, the identification of the potential for the reuse of waste from relevant economic activities has increased in recent years, mainly motivated by the change to a sustainable circular economy, as is the case of port sediments. Taking into account that significant volumes of dredged port sediments are generated annually so that ports can maintain their economic activity, it is necessary to find objective, sustainable and safe reuse alternatives. In this sense, the objective of this study was to study the response of the "Purple Queen" pomegranate when grown with dredged port sediment. For this, the fruit production (kg), number of fruits (fruits tree-1), fruit weight (g), and seed yield (%) aiming to verify the correct tree development were evaluated. In addition, a 1H-NMR foliar metabolomic study for the three most relevant phenological phases was performed (flowering, fruit development, and post-harvest) to identify metabolic changes in trees. In total, 29 metabolites were identified; among them, 11 were amino acids, 6 organic acids, 5 sugars, and 7 secondary metabolites. The good agronomical development of the trees and fruits indicated the potential for using the dredged sediment as an agricultural substrate. On the other hand, the results revealed that the greatest variability in the metabolomic study occurred between the phenological phases and a lower variability is explained by the substrates used.

Published

2023

48. Life Cycle Assessment (LCA) of Substrate Mixes Containing Port Sediments for Sustainable 'Verna' Lemon Production.

Author

Hernández F, Martínez-Nicolás JJ, Melgarejo P, Núñez-Gómez D, Lidón V, Martínez-Font R, and Legua P

Abstract

The increase in maritime trade and its global economic importance have forced port management actors to carry out the periodic dredging of their sediments to maintain an adequate depth for the passage of large ships to maintain their operation and competitiveness. During the dredging process, large volumes of port sediment are generated. Dredged port sediment is currently considered a waste material and its disposal is regulated. Finding ways to safely reuse port sediments is necessary for sustainable development. In this study, a life cycle assessment (LCA) methodology was applied to identify the environmental impact of port sediments when used as a culture medium for lemon trees. A total of 90 lemon trees ( Citrus limon L. Burm var 'Verna') were used in the trial. The trees were grown under controlled conditions using three substrates, with different portions of peat and port sediment (25%, 50%, and 75%) to identify the real impacts of the culture media on the growth process. The LCA was calculated and analyzed according to the ISO 14040:2006 standard, using the SimaPro v. 9.3 software (PRé Sustainability B.V, Amersfoort, The Netherlands). The functional unit defined for the three-culture media was 1 kg of lemons. The LCA results showed a significant increase in the environmental impact of lemon cultivation proportional to port sediment content (75%), due to the decrease in fruit production caused by the sediment. However, the least impact was identified for the culture medium at 50% peat and 50% port sediment. The greatest impacts were more related to crop management rather than the port sediment content. The results showed that the use of the port sediment, mixed with other substrates as an agricultural medium amendment, is a viable option for lemon growers.

Published

2022

49. Physico-Chemical Attributes of Lemon Fruits as Affected by Growing Substrate and Rootstock.

Author

Martínez-Nicolas JJ, Núñez-Gómez D, Lidón V, Martínez-Font R, Melgarejo P, Hernández F, and Legua P

Abstract

Due to its high content of bioactive compounds, the lemon is considered one of the most relevant species around the world. Its great economic importance is motivated, in addition to its fresh consumption, by its applications in the medical, pharmaceutical, and food industries, etc. However, the chemical and nutritional composition of lemon is not constant and can be influenced by external factors such as variety, weather conditions, crop management, etc. Determining the compositional variations of the fruit, essential to defining its potential use, was the main objective of this study. The physicochemical characteristics of the ‘Verna’ lemon were studied as a function of two controlled variables, the growing substrate and the rootstock. For this, 90 lemon trees were cultivated in three rootstocks and three different culture media. Lemon trees cultivated with 50% sediment/peat mix substrate presented a higher total production (590 lemons and 90.53 kg) while this production was 80% lower on trees cultivated with 75% marine sediment. Citrus macrophylla and Citrus aurantium/Citrus sinensis rootstocks showed a significantly higher production than the Citrus aurantium. All the fruits presented a predominantly yellow color appropriate for the market (0 < CI < +5). Nutritional and chemical parameters were consistent with data reported for the ‘Verna’ clones. All the obtained lemons were suitable for marketing and consumption both in fresh and processed forms. The results indicated the limited influence that the studied variables have on the quality parameters of lemon fruits, but they also could confirm the potential of marine sediment as a culture substrate.

Published

2022

50. Influence of fruit bagging technique on the morphometric and biochemical characteristics of two pomegranate varieties ( Punica granatum L.).

Author

Legua P, José Martínez-Nicolás J, Guirao P, Hernández F, Núñez-Gómez D, and Melgarejo P

Abstract

The pomegranate tree is cultivated and its fruits consumed since ancient times. This tree is typical of the Mediterranean climate, with high thermal demands to mature properly. The main objective of this work was to study the influence of the fruit bagging technique on the morphometric and biochemical characteristics of the pomegranate fruits of two new varieties that are currently cultivated in the Southeast of Spain. The results indicated that the fruit bagging presented a significant effect on the weight, equatorial diameter, height and shape of the fruit, however, it did not show any influence on the peel thickness. No significant differences have been observed in the number of healthy fruits with and without bagging, however, the number of cracked fruits with Cryptoblabes gnidiella damage was higher for the non-bagged fruits. The fruit bagging presented a significant effect on the total soluble solids, maturity index, glucose, α-punicalagin, α + β-punicalagin and ellagic acid, but it did not show influence on pH, acidity, ABTS, DPPH, FRAP, total phenols, fructose, citric, malic, and quinic acid, β-punicalagin and anthocyanins. The internal fruit color was not affected by the bagging, although it did affect the external color of the fruit, and unevenly depending on the variety. Based on the results, it can be said that bagging can improve the quality of the fruit by reducing damage from pests and pathophysiology, and this benefit compensates or even exceeds the negative effects of bagging on peel color., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Author(s).)

Published

2022