Evaluation of 3D/2D Imaging and Image Processing Techniques for the Monitoring of Seed Imbibition

Belin, Étienne; Douarre, Clément; Gillard, Nicolas; Franconi, Florence; Rojas-Varela, Julio; Chapeau‐Blondeau, François; Demilly, Didier; Adrien, Jérôme; Maire, Éric; Rousseau, D.

doi:10.3390/jimaging4070083

Cited by 11 publications

(13 citation statements)

References 39 publications

(47 reference statements)

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“…Function References 3D and 2D Imaging platforms Noninvasive universally applicable to any seed providing significant contrast capable of qualitatively characterizing the seed imbibition 3D X-ray: high spatial resolution; no difference in contrast between dry and imbibed tissue; contrast agent viscosity and its concentration matters 3DMRI: characterize water dynamics in space and time; coarse spatial resolution; greater signal-to-noise ratio in finer resolution; low throughput 2D thermography: Detect and characterize imbibition associated with biophysical and biochemical changes; sensor sensitive to radiations 2D bio-speckle: Low-cost high throughput, measures micromovements at the surface of samples linked to water fluxes; sensitive to fluctuation in mechanical vibrations and sample size to be imaged Belin et al, 2018 Machine vision platform An electronic force transducer to measure imbibition of individual seeds with high resolution but low throughput; uses change in area (∆A) as a function of time and swelling coefficient (k) to measure seed imbibition Uses near-infrared spectrum and seed weight to estimate seed ACP that correlate highly with plant dry weight and 100-seed weight; suitable for rapid assessment of seed vigor in crops…”

Section: Assaymentioning

confidence: 99%

First the seed: Genomic advances in seed science for improved crop productivity and food security

Dwivedi¹,

Spillane

Lopez

et al. 2021

Crop Science

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Seeds are valuable sources of carbohydrates, lipids, proteins, fibers, minerals, and vitamins. They provide energy and nutrition to germinating seedlings, food to humans, feed to livestock and feedstocks to industry. High-throughput analyses of gene expression in crops has identified many candidate genes associated with seed dormancy, longevity, germination, and vigor. In this review, we cover the latest research focusing on such key seed traits. Transcriptome analyses of time-courses of seed filling have identified sets of genes expressed at different stages of this process. The potential role of epigenetics (including seed-endosperm imprinted genes) in regulating seed development and chemistry is highlighted herein. We also discuss how advances in genomics and seed biology are facilitating the unravelling of associations between seed traits with genebank accessions and gene sequences, including how functional research can accelerate the discovery of allelic variants. Such knowledge of functional effects relating to gene variants is necessary for more efficient and cost-effective management of genetic resources or for redesigning crops with specific seed characteristics. For instance, genebank curators may assess seed viability by monitoring changes in gene expression of biomarker genes in dry seed samples to decide germplasm regeneration and assess genetic integrity of collections by monitoring changes in This article is protected by copyright. All rights reserved. diversity and allele frequencies between samples of same accession stored in genebanks. We highlight that resistance to preharvest sprouting can be enhanced through genomicsassisted breeding in otherwise nondormant rice and wheat cultivars, while pimt, another valuable marker for seed longevity, may be deployed to enhance seed vigor in crops.

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Section: Assaymentioning

confidence: 99%

First the seed: Genomic advances in seed science for improved crop productivity and food security

Dwivedi¹,

Spillane

Lopez

et al. 2021

Crop Science

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“…Therefore, thermal imaging technique has been proposed as a good alternative instead of the conventional methods of seed viability evaluation. The resulting thermal images provide thermal profiles of the seeds with demonstrated changes in temperature distribution that are strongly correlated with seed viability (Belin et al, 2018;Kranner et al, 2010), and this enables the distinguish of viable seeds from the nonviable ones (Zhang et al, 2018).…”

Section: Seed Viability Estimationmentioning

confidence: 99%

“…Depending on the type of sensors, acquisition mode and the mathematical chemometrics models used in the analysis, spectral techniques relies on the analysis of light after being reflected, absorbed or transmitted from the examined seeds. Imaging techniques such as spectral imaging, X-ray imaging, thermal imaging, fluorescence imaging, and magnetic resonance imaging provide great capabilities of demonstrating the essential quality attributes (Belin et al, 2018). For instance, X-ray imaging and magnetic resonance imaging techniques are used when the internal anatomical details of the examined seeds are required to estimate seed maturity, internal structure, germination capacity, dormancy, viability, vigor, insect infestation and internal damages in embryo and endosperm (Dell'Aquila, 2004).…”

Section: Introductionmentioning

confidence: 99%

“…For instance, X-ray imaging and magnetic resonance imaging techniques are used when the internal anatomical details of the examined seeds are required to estimate seed maturity, internal structure, germination capacity, dormancy, viability, vigor, insect infestation and internal damages in embryo and endosperm (Dell'Aquila, 2004). Meanwhile, spectral imaging and fluorescence imaging techniques are used to know information about the major composition of the seeds (Belin et al, 2018). In seed industry, establishment of imaging techniques can solve many ill-posed issues related to quality assessment and authentication tasks.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Emerging thermal imaging techniques for seed quality evaluation: Principles and applications

ElMasry

ElGamal

Mandour

et al. 2020

Food Research International

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Due to the massive progress occurred in the past few decades in imaging, electronics and computer science, infrared thermal imaging technique has witnessed numerous technological advancement and smart applications in non-destructive testing and quality monitoring of different agro-food produces. Thermal imaging offers a potential non-contact imaging modality for the determination of various quality traits based on the infrared radiation emitted from target foods. The technique has been moved from just an exploration method in engineering and astronomy into an effective tool in many fields for forming unambiguous images called thermograms eventuated from the temperature and thermal properties of the target objects. It depends principally on converting the invisible infrared radiation emitted by the objects into visible two-dimensional temperature data without making a direct contact with the examined objects. This method has been widely used for different applications in agriculture and food science and technology with special applications in seed quality assessment. This article provides an overview of thermal imaging theory, briefly describes the fundamentals of the system and explores the recent advances and research works conducted in quality evaluation of different sorts of seeds. The article comprehensively reviewed research efforts of using thermal imaging systems in seed applications including estimation of seed viability, detection of fungal growth and insect infections, detection of seed damage and impurities, seed classification and variety identification.

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“…Therefore, the potential of using non-destructive methods such as imaging techniques, NIR spectroscopy or precise remote sensors to overcome the limitations of conventional methods is gaining increasing attention [ 18 ]. The imaging techniques such as spectral imaging, thermal imaging, fluorescence imaging X-ray imaging, and magnetic resonance imaging offer reliable alternatives to the traditional destructive methods [ 20 , 21 ]. The X-ray imaging and magnetic resonance imaging are able to provide anatomical details and the spectral imaging, thermal imaging and fluorescence imaging are usually utilized to deliver the functional and nutritional information about the seeds being examined [ 21 ].…”

Section: Introductionmentioning

confidence: 99%

Recent Applications of Multispectral Imaging in Seed Phenotyping and Quality Monitoring—An Overview

ElMasry

Mandour

Al-Rejaie

et al. 2019

Sensors

Self Cite

128

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As a synergistic integration between spectroscopy and imaging technologies, spectral imaging modalities have been emerged to tackle quality evaluation dilemmas by proposing different designs with effective and practical applications in food and agriculture. With the advantage of acquiring spatio-spectral data across a wide range of the electromagnetic spectrum, the state-of-the-art multispectral imaging in tandem with different multivariate chemometric analysis scenarios has been successfully implemented not only for food quality and safety control purposes, but also in dealing with critical research challenges in seed science and technology. This paper will shed some light on the fundamental configuration of the systems and give a birds-eye view of all recent approaches in the acquisition, processing and reproduction of multispectral images for various applications in seed quality assessment and seed phenotyping issues. This review article continues from where earlier review papers stopped but it only focused on fully-operated multispectral imaging systems for quality assessment of different sorts of seeds. Thence, the review comprehensively highlights research attempts devoted to real implementations of only fully-operated multispectral imaging systems and does not consider those ones that just utilized some key wavelengths extracted from hyperspectral data analyses without building independent multispectral imaging systems. This makes this article the first attempt in briefing all published papers in multispectral imaging applications in seed phenotyping and quality monitoring by providing some examples and research results in characterizing physicochemical quality traits, predicting physiological parameters, detection of defect, pest infestation and seed health.

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Evaluation of 3D/2D Imaging and Image Processing Techniques for the Monitoring of Seed Imbibition

Cited by 11 publications

References 39 publications

First the seed: Genomic advances in seed science for improved crop productivity and food security

First the seed: Genomic advances in seed science for improved crop productivity and food security

Emerging thermal imaging techniques for seed quality evaluation: Principles and applications

Recent Applications of Multispectral Imaging in Seed Phenotyping and Quality Monitoring—An Overview

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