KR101666034B1 - Pots for plant phenotyping - Google Patents

Abstract

The present invention relates to a plant growth vessel for measuring plant root phenotype, and more particularly, to a plant growth vessel for inhibiting the entry of light during the growth of a plant and allowing the inside of the plant to be easily observed at the time of obtaining the analysis data, The present invention relates to a plant growth vessel capable of acquiring data for analysis of roots without adversely affecting or stressing, and also capable of obtaining data for root analysis accurately and stably by forming oblique windows.
The plant growth vessel for measuring plant root phenotype according to the present invention comprises a growth vessel body in which a planting space in which plants are planted is formed, wherein the growth vessel body is made of a transparent material At least one observation window formed; And a door installed to close and open the observation window.
According to the plant growth vessel for measuring the root expression of plants according to the present invention, an observation window of a transparent material and a door that is opened or closed to selectively expose the observation window are provided in the inside of the growth vessel body of the opaque material for blocking the transmission of light, It is possible to easily and quickly acquire plant root analysis data by blocking entrance of light at the time of growing of the plant and opening the door only when necessary and inspecting the inside to obtain analysis data. Since there is no need to move the plant to be analyzed as in the prior art, the stress of the plant can be remarkably reduced without adversely affecting the growth of the plant. Therefore, it is possible to prevent an adverse reaction due to stress and degradation of growth due to stress, thereby improving the reliability of the growth phenotype and improving the accuracy of plant analysis.

Description

{POTS FOR PLANT PHENOTYPING}

The present invention relates to a plant growth vessel for measuring plant root phenotype, and more particularly, to a plant growth vessel for inhibiting the entry of light during the growth of a plant and allowing the interior of the plant to be easily observed at the time of obtaining data for analysis, The present invention relates to a plant growth vessel capable of acquiring data for analysis of roots without adversely affecting or stressing, and also capable of obtaining data for root analysis accurately and stably by forming oblique windows.

In general, plant breeding is a set of comprehensive technologies that produce better or more distinctive varieties than those cultivated or cultivated in the past.

Plant breeding is a process that involves cultivating a large number of plants and analyzing the characteristics of each individual within a variety of plant genetic resources, selecting superior individuals within a population for plant breeding, and identifying specific genes within a plant genetic modification or anthropogenic mutant population And a series of processes of analyzing and selecting mutants of interest.

The analysis of the expression bodies of the plants requires that not only the phenotype of the stem or leaf such as the height of the plant, the quantity of the leaves, the color and the shape but also the phenotype of the root such as the quantity, color, Plants are planted in easy growing plants.

For example, a plant growth vessel for plant roots phenotypes is made of a transparent material so that imaging of roots can be performed. Such a transparent flower pot is a plant which is exposed to light continuously at the root portion during the growth of the plant to be analyzed, There was a problem that this was impossible and severe stress.

In order to solve this problem, a double-complex circular flowerpot in which an opaque flowerpot is put on the outside of a transparent flowerpot has been proposed. However, in order to vertically extract the opaque flowerpath when acquiring data for root analysis, It is difficult to perform the operation such as moving it, and the imaging time is excessively long, so that the airflow is increased and the efficiency is decreased. In addition, there is a problem that the plant to be analyzed is still exposed to repetitive movements, resulting in stress.

In order to solve the above-mentioned problem, US Pat. No. 8,341,880 proposes a technique for acquiring an image of a root at the bottom of an elongated transparent container (root evaluation).

However, U.S. Patent No. 8,341,880 is a structure that acquires an image of roots only at the bottom of a transparent container, so that it is not possible to accurately acquire the quantity, color, shape, and degree of activity of roots, so that the accuracy and efficiency of analysis are low .

US8,341,880 B2 US 2013-0070081 A1

Disclosure of the Invention The present invention has been proposed in view of the above-mentioned contents, and it is intended to provide a method for preventing the introduction of light during the growth of plants and allowing the inside of the plant to be easily observed at the time of obtaining the data for analysis, The present invention provides a plant growth vessel for measuring plant root phenotype so as to be able to acquire plant-root data.

It is another object of the present invention to provide a plant growth vessel for plant root phenotype measurement in which an observation window is inclined so that the root analysis data can be acquired accurately and stably.

In order to achieve the above object, a plant growth vessel for measuring plant root phenotype according to the present invention is a plant growth vessel having a growth vessel body formed with a planting space where plants are planted, At least one observation window formed of a transparent material so that observation can be performed; And a door installed to close and open the observation window.

It is important that the observation window is formed in a structure having an inclined surface so that the development state of the root can be easily observed.

The growth vessel main body may include a bottom plate having a drain hole formed therein, a side wall formed upwardly around the edge of the bottom plate, and an observation opening formed by omitting a part of the side wall.

Wherein the door comprises a door plate installed at the observation opening, a hinge member provided at one side for rotatably fixing the door plate to the side wall, and a locking member provided at the other side of the door plate and being locked and unlocked to the side wall As shown in FIG.

The observation window may be installed at an obtuse angle with respect to the bottom plate inside the door plate.

The locking member is provided with an operation lever that is exposed to the outside so as to apply operation force. When the opening force is released when the door is opened in accordance with the opening operation of the operation lever, the door is closed An elastic member for returning can be provided.

The observation window may be rotatable so that the inclination of the observation window may be adjusted according to a plant to be analyzed, and a stopper member may be provided to maintain the observation window in a tilted state.

According to the plant growth vessel for measuring the root expression of plants according to the present invention, an observation window of a transparent material and a door that is opened or closed to selectively expose the observation window are provided in the inside of the growth vessel body of the opaque material for blocking the transmission of light, It is possible to easily and quickly acquire plant root analysis data by blocking entrance of light at the time of growing of the plant and opening the door only when necessary and inspecting the inside to obtain analysis data.

According to the plant growth vessel for measuring the root expression of the plant according to the present invention, there is no need to move the plant to be analyzed as in the conventional method, so that the stress of the plant can be remarkably reduced without adversely affecting the growth of the plant. Therefore, it is possible to prevent an adverse reaction due to stress and degradation of growth due to stress, thereby improving the reliability of the growth phenotype and improving the accuracy of plant analysis.

In addition, the plant growth vessel for measuring the plant roots phenotype according to the present invention is formed by inclining the observation window, and since the roots of the planted plants are spread downward on the slopes during the growing process, they can be easily observed, Data can be obtained accurately and effectively.

1 is a perspective view illustrating a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention;
FIG. 2 is a perspective view illustrating an internal structure of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention; FIG.
3 is an exploded perspective view showing a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention;
FIG. 4 is a partially cutaway perspective view showing a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention; FIG.
5 is a view for explaining the action of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention;
6 is a sectional view for explaining a modified example of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention, and FIG. 2 is a perspective view showing the internal structure of a plant growth vessel for measuring plant root expression according to an embodiment of the present invention. And FIG. 3 is an exploded perspective view showing a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention. FIG. 4 is a partial incision showing a plant growth vessel for measuring plant root expression according to an embodiment of the present invention. As a perspective view, the AA line portion in Fig. 2 is shown by cutting.

1 to 4, a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention may acquire data for analysis of roots without adversely affecting or stressing the growth of the plant (p) to be analyzed (2) and a door (3) for observing the root portion of the plant to be analyzed, if necessary. The plant body (1) is provided with a planting space (b) Consists of.

The growth vessel main body 1 may have a cylindrical shape, an elliptical shape, and the like without any particular limitation. However, in this embodiment, the overall appearance of the growth vessel main body 1 is formed to have a substantially hexahedral shape. A plurality of side walls 12 formed upwardly around the edges of the side walls 12 and an observation opening 13 formed by omitting a part of the side walls 12. Here, the material forming the growth vessel main body 1 is formed of an opaque material such that artificial light such as sunlight or illumination light is blocked from entering the root portion of the plant planted in the planting space portion (b).

The bottom plate 11 is formed with a drain hole 15 for drainage and ventilation in a body having a rectangular plate shape. Here, the drain hole 15 is not formed as a single large hole having a large inner diameter but is formed as a plurality of holes having a relatively small inner diameter. The reason why the drain hole 15 is formed with a plurality of holes having a small inner diameter is that the water flows evenly on the surface of the conveyor belt and can be easily dried even if the drainage operation is carried out while the plant growth vessel is transported on the belt conveyor. .

The observation window 2 is formed of a transparent material such as acrylic or polycarbonate so that roots of the plant can be observed, and is formed in a structure having an inclined surface 21 so that the development state of the root can be easily observed.

More specifically, as shown in Figs. 2 and 3, the observation window 2 is provided such that a member having a substantially rectangular plate shape is fitted in the direction of the observation opening 13 and fixed to the side plate 12 in an inclined manner. At this time, in the observation window 2, the plants are planted in the upper part of the soil put into the planting space, and the planting process is progressed so that the obtuse angle with respect to the base plate 11 In the counterclockwise direction from the upper surface to the observation window).

The door 3 includes a rectangular plate-shaped door plate 31 provided at the observation opening 13 as a constituent element that is configured to be openable and closable for sealing and opening the observation window 2, A hinge member 32 and a locking member 33 which are formed integrally with each other.

The hinge member 32 is a member provided for rotatably fixing the door plate 31 to the side wall 12 and is provided with a folding member generally called a hinge on the one side edge portion of the door plate 31 .

The locking member 33 is a binding member which is provided on the other side of the door plate 31 and is locked and unlocked to the side wall 12 and which is provided with an operation for projecting outward so as to apply an operation force for opening and closing the door plate 31 A lever 331 is constituted. The locking member 33 can be selectively applied to the door plate 31 and the side plate 12 without any particular limitation as long as the door plate 31 can be locked and unlocked. A permanent magnet 332 and a magnetic body 333 are provided.

Meanwhile, the plant growth vessel for measuring the root expression of the plant according to the present invention is such that when the opening force is released in a state where the door plate 31 is opened according to the opening operation of the operation lever 331, the closing operation of the door is automatically performed (Not shown) for restoring the elasticity of the elastic member.

For example, the elastic member for return (not shown) may be constituted by a torsion spring (not shown) wound in a coil shape. At this time, the torsion spring may be configured such that one end of the torsion spring is engaged with the hinge member 32 and the other end of the torsion spring is engaged with the door plate 31, so that an elastic force is applied to the door plate.

Hereinafter, the action of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention will be described.

FIG. 5 is a view for explaining the action of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention.

Referring to FIG. 5, a plurality of plant growth vessels constructed as described above are placed on a belt conveyor (c) after respective plants to be analyzed are planted, and planted plants are grown on a belt conveyor. In such a growing process, the growth vessel body 1 of the plant growth vessel is formed of an opaque material, so that sunlight or artificial light is prevented from entering into the root portion, so that the growth vessel can be stably grown.

When the belt conveyor (c) is operated to acquire data for analysis of plant roots and data for analysis of stem and leaves of plants in the above-mentioned growing process, thermal distribution of the roots, stems and leaves of the plant, and three-dimensional modeling are possible (Not shown) equipped with an infrared (IR) camera, a near-infrared (NIR) camera, a fluorescence light camera, a thermal camera, a 3D camera and an RGB camera. Thus, various analysis data such as size, shape, color, number and the like are obtained when a plant growth vessel enters into a plant analysis room, and using these data for analysis, Analyze a variety of plant varieties, select good individuals within a group for cultivating plant varieties, and analyze and select specific variants within a plant genetic modification or anthropogenic mutant population.

In particular, the plant growth vessel according to the present invention can accurately and effectively measure the phenotype of roots such as quantity, color, shape, degree of activity, etc. of roots in the plant analysis room.

More specifically, when the plant growth vessel enters an analysis room having a camera or the like for acquiring data for analysis of roots by the belt conveyor (c), a door opening actuator (not shown) or a robot An arm (not shown) applies an opening force to the operation lever 331 to open the door 3. [ When the door 3 is opened as described above, the observation window 2 arranged opposite to the observation window 2 is exposed, so that a camera or the like can effectively perform the imaging operation. Particularly, since the observation window 2 is inclined at an obtuse angle and the planted plant grows downward on the slope of the observation window during the growing process, the planting of the roots is facilitated, so that the analysis data can be acquired accurately and effectively.

6 is a sectional view for explaining a modified example of a plant growth vessel for measuring plant root phenotype according to an embodiment of the present invention.

Referring to FIG. 6, a plant growth vessel for measuring plant root expression according to a modified embodiment of the present invention comprises an observation window 2 formed of a transparent material in a growth vessel body 1, And a door 3 which is opened and closed to expose the observation window 2, wherein the observation window 2 is rotatable so that the inclination can be adjusted according to the plant to be analyzed.

The observation window 2 is provided with a stopper member 4 so that the adjusted inclination is fixed and fixed.

Here, the stopper member 4 is not particularly limited as long as the oblique viewing state of the observation window 2 can be firmly maintained. However, in the present embodiment, the arc-shaped angular adjustment slot 5 formed on the side plate 12, And a fixing bolt 41 which is inserted through the through hole and is fastened to a fastening hole (not shown) formed at a side edge portion of the observation window 2.

As described above, the plant growth vessel for measuring the plant roots phenotype according to the modified embodiment of the present invention can control the slope of the observation window 2 when the growth characteristics of the roots are different according to the kinds of plants, So that it can be fixed. Accordingly, it is possible to regulate the angle of the observation window appropriately according to the type, characteristics and growth period of the plant to be analyzed, so that the analysis data can be acquired more accurately and effectively.

The present invention is not limited to the above-described embodiment, but can be applied to a plant growth vessel for measuring plant root roots according to the present invention, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

The terms used in the above embodiments are used only to describe specific embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

1: Growth vessel body 11: Base plate
12: side plate 13: observation opening
15: Drain hole 2: Observation window
21: slope 3: door
31: door plate 32: hinge member
33: Locking member 331: Operation lever
332: permanent magnet 333: magnetic substance
4: stopper member 41: fixing bolt
5: Slot for angle adjustment b:
c: belt conveyor p: plant to be analyzed

Claims (5)

In a plant growth vessel,
And a growth vessel main body formed with a planting space part where plants are planted,
In the growth vessel body,
At least one observation window formed of a transparent material so that roots of the plant can be observed; And
And a door installed to close and open the observation window,
Wherein the observation window is configured to be rotatable so that the tilt can be adjusted according to the plant to be analyzed,
And a stopper member for maintaining the oblique state of the observation window.
The method according to claim 1,
Wherein the observation window is formed in a structure having a slope so as to easily observe the development state of the root.
3. The method of claim 2,
Wherein the growth vessel main body includes a bottom plate having a drain hole formed therein, a side wall formed upwardly around an edge of the bottom plate, and an observation opening formed by omitting a part of the side wall,
Wherein the door comprises a door plate provided at the observation opening, a hinge member provided at one side for rotatably fixing the door plate to the side wall, and a locking member provided at the other side of the door plate and being locked and unlocked to the side wall Lt; / RTI >
Wherein the observation window is installed inside the door plate at an obtuse angle with respect to the base plate.
The method of claim 3,
Wherein the locking member is provided with an operation lever which is exposed to the outside so as to be able to apply an operation force, and when the opening force is released when the door is opened in accordance with the opening operation of the operation lever, A plant growth vessel for measuring plant root phenotype characterized by having an elastic member.
delete

Images