Your search keyword '"M.D. Fariñas"' showing total 10 results

1. Evaluation of ultrasonic parameters as a non-invasive, rapid and in-field indicator of water stress in Citrus plants

Author

Juan Manzano-Juárez, María Amparo Martínez-Gimeno, M.D. Fariñas, E. Badal, Juan G. Pérez-Pérez, Luis Bonet, and María Tasa

Subjects

Atmospheric Science, Global and Planetary Change, Irrigation, Citrus, N01 Agricultural engineering, Plant sensor, Non invasive, Water stress, Irrigation scheduling, Greenhouse, Forestry, Plant water stress indicator, Crop irrigation, Citrus clementina, F06 Irrigation, U40 Surveying methods, Horticulture, Leaf turgor pressure, Soil water, P10 Water resources and management, Ultrasonic sensor, Air-coupled ultrasound, F40 Plant ecology, Agronomy and Crop Science, Mathematics

Abstract

Non-Contact Resonant Ultrasound Spectroscopy (NC-RUS) has emerged as a powerful tool to determine plant water status in a non-destructive, non-invasive and rapid way. In this study, ultrasonic parameters directly obtained from experimental measurements in the field using NC-RUS - such as resonant frequency (fres), velocity (v) and Q-factor - were evaluated as potential water stress indicators in Citrus plants. The experiments were carried out in two-year-old mandarin trees (Citrus clementina Hort. ex Tan. ‘Clemenules’) grown in pots in an open greenhouse where two different groups of plants were tested: a Control group (full irrigation) and a Drought Stress group (DS) whose irrigation was withdrawn during 7 days, followed by a 16 days recovery period. Soil water content, leaf water potential (Ψleaf) and the considered ultrasonic parameters were measured in the same leaves. fres detected changes between control and DS at day 7 without irrigation. Conversely, v showed differences after day 3, which were statistically significant at day 7, enabling discrimination between C and DS groups. Hence, Q-factor was the ultrasonic parameter that showed statistically significant differences between C and DS groups at days 3 and 7. Consequently, Signal Intensity in Q during the drought treatment showed a similar evolution to Ψleaf, although with slightly lower performance. However, Q-factor sensitivity excels Ψleaf at each day studied. Finally, a linear correlation (R2=0.57) between Ψleaf and Q-factor of all experimental data measured in DS group plants along the drought treatment was found. In conclusion, the ultrasonic parameters obtained using NC-RUS and in particular the Q-factor, demonstrated to be potential new water stress indicators in Citrus trees, with the novelty of being non-destructive, non-invasive and rapid. Future work should explore its suitability for its use in irrigation scheduling for Citrus trees.

Published

2021

2. Fast and non-destructive ultrasonic test for face masks

Author

Tomas Gomez Alvarez-Arenas, Alba Martin Ginel, M.D. Fariñas, Ministerio de Ciencia, Innovación y Universidades (España), and Agencia Estatal de Investigación (España)

Subjects

Materials science, Acoustics and Ultrasonics, Acoustics, law.invention, law, Nondestructive testing, Materials Testing, Dispersion (optics), Humans, Ultrasonics, Face masks, Filtration, Non-destructive test, SARS-CoV-2, business.industry, Textiles, Attenuation, Ultrasonic testing, Masks, COVID-19, Equipment Design, Filter (signal processing), Face (geometry), Ultrasonic sensor, Air-coupled ultrasound, business

Abstract

As a consequence of the large demand of face masks due to the COVID19 pandemic, cheap, fast and non-destructive tests that can verify in-line the variability of the filtration capacities, prove the potential disinfection and/or evaluate the performance of new filtering materials are needed. Using two different approaches based on air-coupled ultrasounds (0.15–1.6 MHz) with equivalent results, this work shows that each face mask presents a distinctive ultrasonic signature that enables the classification and the evaluation of their performance. Moreover, it is shown that the ultrasonic propagation through the face masks and the main filter layers takes place through the pore space and that low frequency response of the attenuation and the velocity is highly dispersive and is dominated by the interaction between the air in the pores and the fibers in the filters. Hence, the parameters that describe ultrasonic velocity, attenuation and dispersion can be related with their filtration efficiency and breathability. These techniques are fully contactless, non-invasive and fast., This work was supported by: Spanish Agency of Science Technology and Research grant RTC-2017-6314-2 (TGAA, AG). Spanish Ministry of Science grant FJCI-2017-34759 (MDF).

Published

2021

3. Instantaneous and non-destructive relative water content estimation from deep learning applied to resonant ultrasonic spectra of plant leaves

Author

Tomas Gomez Alvarez-Arenas, Daniel Jimenez-Carretero, Domingo Sancho-Knapik, M.D. Fariñas, José Javier Peguero-Pina, Eustaquio Gil-Pelegrín, European Commission, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ministerio de Economía y Competitividad (España), Gobierno de Aragón, Generalitat de Catalunya, Ministerio de Ciencia, Innovación y Universidades (España), Unión Europea. Fondo Europeo de Desarrollo Regional (FEDER/ERDF), Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (España), and Gobierno de Aragón (España)

Subjects

0106 biological sciences, 02 engineering and technology, Plant Science, lcsh:Plant culture, 01 natural sciences, Convolutional neural network, RWC, Ultrasounds, Machine learning, NC-RUS, Genetics, Range (statistics), lcsh:SB1-1110, Transmission coefficient, Water content, lcsh:QH301-705.5, Irrigation, Mathematics, Resonant ultrasound spectroscopy, biology, Research, Relaciones planta agua, 021001 nanoscience & nanotechnology, biology.organism_classification, Random forest, lcsh:Biology (General), Hojas, Tratamiento con ultrasonido, Contenido de agua, Viburnum tinus, Ultrasonic sensor, 0210 nano-technology, Biological system, 010606 plant biology & botany, Biotechnology, Plant leaves

Abstract

[Background] Non-contact resonant ultrasound spectroscopy (NC-RUS) has been proven as a reliable technique for the dynamic determination of leaf water status. It has been already tested in more than 50 plant species. In parallel, relative water content (RWC) is highly used in the ecophysiological field to describe the degree of water saturation in plant leaves. Obtaining RWC implies a cumbersome and destructive process that can introduce artefacts and cannot be determined instantaneously., [Results] Here, we present a method for the estimation of RWC in plant leaves from non-contact resonant ultrasound spectroscopy (NC-RUS) data. This technique enables to collect transmission coefficient in a [0.15–1.6] MHz frequency range from plant leaves in a non-invasive, non-destructive and rapid way. Two different approaches for the proposed method are evaluated: convolutional neural networks (CNN) and random forest (RF). While CNN takes the entire ultrasonic spectra acquired from the leaves, RF only uses four relevant parameters resulted from the transmission coefficient data. Both methods were tested successfully in Viburnum tinus leaf samples with Pearson’s correlations between 0.92 and 0.84., [Conclusions] This study showed that the combination of NC-RUS technique with deep learning algorithms is a robust tool for the instantaneous, accurate and non-destructive determination of RWC in plant leaves., This research was supported by Grant (DPI2016-78876-R-AEI/FEDER, UE) from the Spanish State Research Agency (AEI) and the European Regional Development Fund (ERDF/FEDER). It was also partially funded by Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA) Grant number RTA2015-00054-C02-01 and by Gobierno de Aragón H09_17R research group (DOC INIA-CCAA (ESF)). Funding was provided by Conselleria d’Educació, Investigació, Cultura i Esport (APOSTD/2018/203 (ESF)).

Published

2019

4. Airborne ultrasonic testing of pork burger patties

Author

José V. García-Pérez, E. Ruiz, T. E. Gómez Álvarez-Arenas, Jose Benedito, M.D. Fariñas, and S. Diaz-Almanza

Subjects

Materials science, Meat packing industry, business.industry, Pork burger, Ultrasonic testing, food and beverages, Ultrasonic sensor, Food science, business

Abstract

An airborne ultrasonic technique was tested for the determination of textural properties rapidly and contactless on pork burger patties under different compositions both at 5 °C and 20 °C. A high correlation between resonance frequency and firmness at 5 °C was observed (R=0.95), concluding that this technique shows a high potential for its use on meat industry.

Published

2019

5. Monitoring Plant Response to Environmental Stimuli by Ultrasonic Sensing of the Leaves

Author

Eustaquio Gil Pelegrín, M.D. Fariñas, José Javier Peguero Pina, Tomas Gomez Alvarez-Arenas, and Domingo Sancho Knapik

Subjects

Materials science, Light, Acoustics and Ultrasonics, Radiological and Ultrasound Technology, Transducers, Temperature, Biophysics, Water, food and beverages, Soil science, Environment, Evergreen, Plant Leaves, Light intensity, Amplitude, Deciduous, Diurnal cycle, Image Interpretation, Computer-Assisted, Ultrasonics, Radiology, Nuclear Medicine and imaging, Spectral analysis, Ultrasonic sensor, Water content

Abstract

Described here is the application of a technique based on the excitation, sensing and spectral analysis of thickness resonances of plant leaves using air-coupled and wide-band ultrasound pulses (150–900 kHz) to monitor variations in leaf properties caused by plant responses to different environmental stimuli, such as a sudden variation in light intensity (from 2000 to 150 μmol m −2 s −1 ), sudden watering after a drought period, and along the diurnal cycle (3–5 days, with continuous variation in light intensity from 150 to 2000 μmol m −2 s −1 and change in temperature of about 5°C). Four different widely available species, both monocots and dicots and evergreen and deciduous, with different leaf features (shape, size, thickness, flatness, vascular structure), were selected to test the technique. After a sudden decrease in light intensity, and depending on the species, there was a relative increase in the thickness resonant frequency from 8% to 12% over a 25- to 50-min period. After sudden watering, the relative increase in the resonant frequency varied from 5% to 30% and the period from 10 to 400 min. Finally, along the diurnal cycle, the measured relative variation is between 4% and 10%. The technique revealed differences in both the amplitude of the frequency oscillations and the kinetics of the leaf response for different species and also within the same species, but for specimens grown under different conditions that present different cell structures at the tissue level. The technique can be equally applied to the leaves of any species that present thickness resonances.

Published

2014

6. The Application of Leaf Ultrasonic Resonance to Vitis vinifera L. Suggests the Existence of a Diurnal Osmotic Adjustment Subjected to Photosynthesis

Author

Maurizio Mencuccini, M.D. Fariñas, José Javier Peguero-Pina, Domingo Sancho-Knapik, Tomas Gomez Alvarez-Arenas, Hipólito Medrano, Eustaquio Gil-Pelegrín, Ministerio de Economía y Competitividad (España), and Gobierno de Aragón

Subjects

0106 biological sciences, 0301 basic medicine, Water potential, Turgor pressure, Plant Science, gas exchange, drought, lcsh:Plant culture, Photosynthesis, 01 natural sciences, Sequía, 03 medical and health sciences, Ultrasonic spectroscopy, Espectrometría, Botany, Gas exchange, Osmotic pressure, lcsh:SB1-1110, water potential, Sugar, Vitis vinifera, Drought, Chemistry, Resonance, Leaf ultrasonic frequency, Relaciones planta agua, Vitis vinífera, Horticulture, 030104 developmental biology, leaf ultrasonic frequency, Diurnal osmotic adjustment, Ultrasonic sensor, Recursos forestales, 010606 plant biology & botany

Abstract

The main objective of this study was to apply the air-coupled broad-band ultrasonic spectroscopy in attached transpiring leaves of Vitis vinifera L. to monitor changes in leaf water potential (Ψ) through the measurements of the standardized value of the resonant frequency associated with the maximum transmitance (f/fo). With this purpose, the response of grapevine to a drought stress period was investigated in terms of leaf water status, ultrasounds, gas exchange and sugar accumulation. Two strong correlations were obtained between f/fo and Ψ measured at predawn (pd) and at midday (md) with different slopes. This fact implied the existence of two values of Ψ for a given value of f/fo, which was taken as a sign that the ultrasonic technique was not directly related to the overall Ψ, but only to one of its components: the turgor pressure (P). The difference in Ψ at constant f/fo (δ) was found to be dependent on net CO2 assimilation (A) and might be used as a rough estimator of photosynthetic activity. It was then, the other main component of Ψ, osmotic potential (π), the one that may have lowered the values of md Ψ with respect to pd Ψ by the accumulation of sugars associated to net CO2 assimilation. This phenomenon suggests the existence of a diurnal osmotic adjustment in this species associated to sugars production in well-watered plants., This study was supported by the Spanish Ministry of Economy and Competitiveness (IPT-2012-1022-310000) and by Gobierno de Aragón (research group H38). Work of DS-K is supported by a DOC INIA contract co-funded by INIA and ESF.

Published

2016

7. Assessment of the ultrasonic properties of additive manufactured materials for passive components of piezoelectric transducers

Author

Gerard Cummins, Vipin Seetohul, Marc P.Y. Desmulliez, Sandy Cochran, M.D. Fariñas, and Tomas Gomez Alvarez-Arenas

Subjects

0209 industrial biotechnology, Fabrication, Materials science, Manufactured material, Acoustics, 02 engineering and technology, 01 natural sciences, Piezoelectricity, 020901 industrial engineering & automation, Transducer, visual_art, 0103 physical sciences, Electronic component, visual_art.visual_art_medium, Deposition (phase transition), Ultrasonic sensor, 010301 acoustics, Electrical impedance

Abstract

The potential of additive manufacturing (AM) to revolutionize aspects of industrial production is widely recognized. AM can create objects with non-uniform properties by varying the ratio between deposited materials or altering the internal structure of the object. Amongst many possibilities, such AM objects could benefit the design and fabrication of different passive components of ultrasonic transducers, e.g. backing material, lenses and matching layers. The acoustic properties of AM objects produced using the Polyjet and Fused Deposition Methods were characterized. Initial results suggest that these technologies can easily produce objects with a wide range of tuned acoustic properties by varying either the internal structure or the material composition.

Published

2016

8. Ultrasonic assessment of the elastic functional design of component tissues of Phormium tenax leaves

Author

Tomas Gomez Alvarez-Arenas and M.D. Fariñas

Subjects

Shear waves, Materials science, Biomedical Engineering, Fiber-reinforced composite, Phormium tenax, Plant life, Biomaterials, Cell Wall, Elastic Modulus, Spongy tissue, Materials Testing, Pressure, Ultrasonics, Composite material, Asparagaceae, biology, Attenuation, Models, Theoretical, biology.organism_classification, Elasticity, Biomechanical Phenomena, Coupling (electronics), Plant Leaves, Mechanics of Materials, Ultrasonic sensor, Stress, Mechanical, Shear Strength, Gels, Algorithms

Abstract

Different tissues in Phormium tenax leaves present different morphologies and mechanical properties according to the different roles or functions that they play during the plant life. This is an example of what is known as functional design, a concept which is used in different scientific fields. Four different ultrasonic techniques comprising air-coupling and gel coupling, longitudinal and shear waves, normal and oblique incidence and low (0.2 MHz) and high frequencies (2.25 MHz) have been employed to study these leaves. By changing these experimental conditions it is possible to propagate longitudinal and shear waves in the different tissues present in these leaves (spongy mesophyll, chlorenchyma and sclerenchyma fibres) and in different directions so it is possible to determine their ultrasonic properties (velocity and attenuation) and hence their main elastic mudulii. Additional analysis of microscopic images of the tissues permit to study the correlation between this elastic and ultrasonic tissues properties and main microscopic features like cell size and cell wall thickness, which are determined by the different function of these tissues.

Published

2014

9. Modification of the ultrasonic properties of elastomers loaded with magnetic particles by applying magnetic fields during curing

Author

Iker Agirre Olabide, María Jesús Elejabarrieta, M. Mounir Bou-Ali, M.D. Fariñas, and T. E. Gómez Álvarez-Arenas

Subjects

Magnetic anisotropy, Materials science, Composite number, Magnetic nanoparticles, Ultrasonic sensor, Composite material, Anisotropy, Elastomer, Curing (chemistry), Magnetic field

Abstract

Particle loaded polymers and elastomers have been largely used in different ultrasonic applications like backing materials and matching layers because composite properties (velocity, attenuation, density and impedance) can be easily engineered by changing the filler concentration. Recently, the use of magnetic particles has been theoretically proposed as a means to produce active matching layers whose response can be modified upon the application of magnetic fields. In this paper, we propose to introduce modifications of the composite properties by using magnetic particles and applying magnetic fields during curing to establish well defined patterns in the spatial distribution of the particles within the elastomer that induce material anisotropy that effectively modify ultrasonic properties.

Published

2013

10. Non-contact ultrasonic inspection of CFRP prepregs for aeronautical applications during lay-up fabrication

Author

T. E. Gómez Álvarez-Arenas, M.D. Fariñas, E. Cuevas Aguado, and M. Garcia Merino

Subjects

Carbon fiber reinforced polymer, Transducer, Fabrication, Materials science, Aerospace materials, Mold, Ultrasonic testing, Delamination, medicine, Ultrasonic sensor, Composite material, medicine.disease_cause

Abstract

The possibility to inspect laminates of prepreg carbon fiber reinforced polymer (CFRP) laminates during lay-up fabrication is studied. First ultrasonic properties of the uncured material are determined, this information is used to design an inspection system that is tested during the fabrication of laminates with up to 30 layers, following different compaction schemes and including some Teflon insertions to simulate the presence of delaminations. The paper shows that for the chosen selection of parameters (transducers sensitivity, centre frequency and mold configuration), the inspection is possible, opening a new field of application of air-coupled ultrasonic techniques.

Published

2013