A non-destructive coconut fruit and seed traits extraction method based on Micro-CT and deeplabV3+ model

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Abstract

With the completion of the coconut gene map and the gradual improvement of related molecular biology tools, molecular marker-assisted breeding of coconut has become the next focus of coconut breeding, and accurate coconut phenotypic traits measurement will provide technical support for screening and identifying the correspondence between genotype and phenotype. A Micro-CT system was developed to measure coconut fruits and seeds automatically and nondestructively to acquire the 3D model and phenotyping traits. A deeplabv3+ model with an Xception backbone was used to segment the sectional image of coconut fruits and seeds automatically. Compared with the structural-light system measurement, the mean absolute percentage error of the fruit volume and surface area measurements by the Micro-CT system was 1.87% and 2.24%, respectively, and the squares of the correlation coefficients were 0.977 and 0.964, respectively. In addition, compared with the manual measurements, the mean absolute percentage error of the automatic copra weight and total biomass measurements was 8.85% and 25.19%, respectively, and the adjusted squares of the correlation coefficients were 0.922 and 0.721, respectively. The Micro-CT system can nondestructively obtain up to 21 agronomic traits and 57 digital traits precisely.

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We present a class of efficient models called MobileNets for mobile and embedded vision applications. MobileNets are based on a streamlined architecture that uses depth-wise separable convolutions to build light weight deep neural networks. We introduce two simple global hyper-parameters that efficiently trade off between latency and accuracy. These hyper-parameters allow the model builder to choose the right sized model for their application based on the constraints of the problem. We present extensive experiments on resource and accuracy tradeoffs and show strong performance compared to other popular models on ImageNet classification. We then demonstrate the effectiveness of MobileNets across a wide range of applications and use cases including object detection, finegrain classification, face attributes and large scale geo-localization.

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Future scenarios for plant phenotyping.

Fabio Fiorani, Ulrich Schurr (2013)

With increasing demand to support and accelerate progress in breeding for novel traits, the plant research community faces the need to accurately measure increasingly large numbers of plants and plant parameters. The goal is to provide quantitative analyses of plant structure and function relevant for traits that help plants better adapt to low-input agriculture and resource-limited environments. We provide an overview of the inherently multidisciplinary research in plant phenotyping, focusing on traits that will assist in selecting genotypes with increased resource use efficiency. We highlight opportunities and challenges for integrating noninvasive or minimally invasive technologies into screening protocols to characterize plant responses to environmental challenges for both controlled and field experimentation. Although technology evolves rapidly, parallel efforts are still required because large-scale phenotyping demands accurate reporting of at least a minimum set of information concerning experimental protocols, data management schemas, and integration with modeling. The journey toward systematic plant phenotyping has only just begun.

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Phenomics--technologies to relieve the phenotyping bottleneck.

Robert Furbank, Mark Tester (2011)

Global agriculture is facing major challenges to ensure global food security, such as the need to breed high-yielding crops adapted to future climates and the identification of dedicated feedstock crops for biofuel production (biofuel feedstocks). Plant phenomics offers a suite of new technologies to accelerate progress in understanding gene function and environmental responses. This will enable breeders to develop new agricultural germplasm to support future agricultural production. In this review we present plant physiology in an 'omics' perspective, review some of the new high-throughput and high-resolution phenotyping tools and discuss their application to plant biology, functional genomics and crop breeding. Crown Copyright © 2011. Published by Elsevier Ltd. All rights reserved.

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Author and article information

Contributors

Lejun Yu: URI : https://loop.frontiersin.org/people/1512653

Wanneng Yang: URI : https://loop.frontiersin.org/people/395903

Qian Liu: URI : https://loop.frontiersin.org/people/1047779

Journal

Journal ID (nlm-ta): Front Plant Sci

Journal ID (iso-abbrev): Front Plant Sci

Journal ID (publisher-id): Front. Plant Sci.

Title: Frontiers in Plant Science

Publisher: Frontiers Media S.A.

ISSN (Electronic): 1664-462X

Publication date (Electronic): 06 December 2022

Publication date Collection: 2022

Volume: 13

Electronic Location Identifier: 1069849

Affiliations

[1] ¹ School of Biomedical Engineering, Hainan University , Haikou, China

[2] ² Wuhan National Laboratory for Optoelectronics, Britton Chance Center for Biomedical Photonics, Key Laboratory of Ministry of Education for Biomedical Photonics, Department of Biomedical Engineering, Huazhong University of Science and Technology , Wuhan, China

[3] ³ National Key Laboratory of Crop Genetic Improvement, National Center of Plant Gene Research, Huazhong Agricultural University , Wuhan, China

Author notes

Edited by: Shangpeng Sun, McGill University, Canada

Reviewed by: Jianjun Du, Beijing Research Center for Information Technology in Agriculture, China; Lirong Xiang, North Carolina State University, United States

*Correspondence: Qian Liu, qliu@ 123456hainanu.edu.cn

This article was submitted to Technical Advances in Plant Science, a section of the journal Frontiers in Plant Science

Article

DOI: 10.3389/fpls.2022.1069849

PMC ID: 9763456

PubMed ID: 36561444

SO-VID: aa409ea4-5b9c-46d5-9d6a-95d0684a45df

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This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 14 October 2022

Date accepted : 21 November 2022

Page count

Figures: 9, Tables: 2, Equations: 1, References: 31, Pages: 11, Words: 5705

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A non-destructive coconut fruit and seed traits extraction method based on Micro-CT and deeplabV3+ model

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Plant MYBs

Most cited references 30

MobileNets: Efficient Convolutional Neural Networks for Mobile Vision Applications

Future scenarios for plant phenotyping.

Phenomics--technologies to relieve the phenotyping bottleneck.

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