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Modeling method for vascular bundle model of maize leaves

A modeling method and technology of vascular bundles, which are applied in the direction of testing moving plates and preparation of test samples, etc., can solve problems such as dehydration deformation, low image signal-to-noise ratio and contrast, and image smearing

Inactive Publication Date: 2018-04-06
BEIJING RES CENT FOR INFORMATION TECH & AGRI
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Problems solved by technology

[0005] However, the use of micro-CT to scan corn leaves puts forward higher requirements for early sample preparation
Fresh corn leaves have a high moisture content, and are prone to dehydration and deformation during scanning, which eventually causes serious smearing in the image, and the internal structure cannot be distinguished
At the same time, corn leaves are mainly composed of low atomic weight elements, which have a low absorption rate for X-rays and are not much different from the background. The signal-to-noise ratio and contrast of the image are very low
In addition, the flaky structure of corn leaves takes up a lot of space, and to achieve overall scanning, it is necessary to sacrifice resolution
These all limit the application of micro-CT in the three-dimensional extraction of leaf vascular bundles

Method used

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  • Modeling method for vascular bundle model of maize leaves
  • Modeling method for vascular bundle model of maize leaves
  • Modeling method for vascular bundle model of maize leaves

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Embodiment Construction

[0037] The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

[0038] figure 1 It is a schematic flow chart of the modeling method of the corn leaf vascular bundle model in the embodiment of the present invention, as figure 1 As shown, a modeling method of a corn leaf vascular bundle model, including:

[0039] S100, dehydrating corn leaves or corn leaf sections multiple times by using ethanol solutions with increasing concentrations in sequence;

[0040] The corn leaf described in the embodiment of the present invention is preferably a fully expanded leaf of corn at the 4-leaf stage or a leaf segment of corn at the silking-mature stage with a length less than 8 cm. The time of each dehydration can be determined according to the siz...

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Abstract

In one embodiment, the invention provides a modeling method for vascular bundle model of maize leaves, wherein the method includes steps of: 1) with ethanol solutions in increasing concentrations, performing multi-dehydration to a maize leaf or a maize leaf section; 2) soaking the dehydrated maize leaf or maize leaf section in an iodine contrast agent to dye the raw materials, wherein the iodine contrast agent is an I2-KI ethanol solution; 3) with CO2 critical point drying method, drying the dyed maize leaf or a maize leaf section, and based on CT technology, acquiring the vascular bundle model of maize leaves. According to the embodiment, the maize leaves are subjected to multi-dehydration with the ethanol solutions in increasing concentrations, so that complete dehydration is ensured; bymeans of dyeing with the iodine contrast agent, recognition degree on vascular bundles is increased; with the CO2 critical point drying method for drying the sample, a problem of drying deformation of the maize leaves is solved; and after drying, high-quality vascular bundle model of the maize leaves can be obtained through CT scanning.

Description

technical field [0001] The embodiments of the present invention relate to the fields of agricultural technology and graphics, and more specifically, relate to a modeling method for a vascular bundle model of a corn leaf. Background technique [0002] my country is a country with a large population, and the level of self-sufficiency in food is related to the livelihood of the people, and even the security and stability of the country. In 2012, my country's corn planting area was 34.949 million hm2, and the total corn output was 208 million tons, surpassing rice for the first time to become the food crop with the largest planting area and total output in China. Maize is also one of the dryland crops that require a lot of water and are sensitive to water stress. my country is one of the major arid countries in the world. The area of ​​arid and semi-arid land accounts for about 47% of the total area of ​​the country, and the area of ​​arid and semi-arid cultivated land accounts...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N1/30G01N1/34G01N21/86
CPCG01N1/30G01N1/34G01N21/86
Inventor 马黎明张颖郭新宇潘晓迪邵萌
Owner BEIJING RES CENT FOR INFORMATION TECH & AGRI
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