CN110419402B - Method for making landscape variation chart by using crop growth period - Google Patents

Abstract

The invention provides a method for making landscape change maps by using the growth cycle of crops, and aims to solve the technical problems of single landscape and short ornamental timeliness caused by only adopting a certain production period in the existing field crop landscape. The method comprises the steps of selection of color crop combinations, drawing of variation images, positioning of crops, planting, management and the like, wherein through the matching of the growth cycles of color leaf crops, color spike/flower crops and background crops, the positioning and the planting in fields, patterns in the variation images are sequentially presented in target fields in the seedling stage → the heading stage/the flowering stage → the mature stage of the crops, so that the viewing time of the landscape of the crops is prolonged to the whole growth cycle of the crops; and the change of the ornamental landscape is beneficial to promoting the tourism again.

Description

Method for making landscape variation chart by using crop growth period

Technical Field

The invention relates to the technical field of crop planting, in particular to a method for making a landscape variation graph by utilizing a crop growth cycle.

Background

Agriculture is the source and the survival cost of human clothes and food, and is the most important and basic industrial department in national economy. Among them, field crop production is the main subject of agriculture because it provides the most basic survival data for human beings. With the development of science and technology and economy, people change the understanding of the beauty of agricultural work, field crop production gradually gets rid of the traditional single output mode, the field crop production is fused with third production, a crop landscape agricultural mode integrating ornamental performance and grain safety guarantee performance is developed, and the field crop landscape agricultural mode is suitable for the current leisure and sightseeing agricultural development of China.

The crop landscape is designed in foreign classical gardens, and both practicability and ornamental value are always kept in the long development history of the crop landscape. In China, the records of crop landscape gardens are the earliest to be seen in the prohibited aster in the north of Chang' an Gong in Tang dynasty; the eight diagrams field opened up in Song Dynasty is very similar to modern crop landscape. The crop landscape is used as a part of the plant landscape, and by researching and analyzing the crops, a large number of crops form gorgeous and colorful rural scenery so as to obtain reasonable configuration of the crop landscape in different seasons and achieve the best ecological benefit, landscape benefit and operational benefit. Such as rice and wheat in field crops, it can create multiple landscapes: the young stage is similar to the traditional lawn landscape, and along with the change of the external form in different growth stages, the high and low levels are formed, and the color also changes, so that the landscape, wheat wave/rice wave, which is not available in the traditional garden plants is formed, and people can feel in the landscape. In recent years, with the progress of breeding technology, an creative farmland landscape is developed, namely, a huge landscape picture is formed in a larger space by using color crops through design and matching, and the development of rural tourism is further promoted.

At present, when creative farmland landscapes are made by adopting field crops, the landscape is in a certain period of crop production, or in a seedling stage or a heading stage/flowering stage, so that the landscape is single and has short timeliness. The manufacture of the utility model consumes much time and labor cost, thus limiting the popularization and application.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a method for making landscape change maps by using the growth cycle of crops, and solves the technical problems of single landscape and short ornamental timeliness caused by only adopting a certain production period in the existing field crop landscape.

In order to achieve the purpose, the invention provides the following technical scheme:

a method for making landscape variation maps by using the growth cycles of crops comprises the following steps:

s1 selection of color crop combinations

Selecting two types of color crops, namely color leaves and color ears/flowers, to be combined, wherein the colors of the ears/flowers of the color leaves and the colors of the leaves of the color ears/flowers are similar to the colors of the same parts of the background crops;

s2 drawing of variation graph

Selecting two landscape patterns, and drawing a manuscript I and a manuscript II respectively by using the same coordinate origin and coordinate system;

s3 crop location

Distinguishing and positioning color crop frame lines marked by the two manuscripts in the target field block, filling a color crop block diagram of one manuscript with the color leaf crops or color ear/flower crops selected in the step S1, and planting background crops to fill the field block after the color crops are planted;

s4 planting of crops

Selecting the leaf age for permanent planting according to the color crop combination selected in the step S1 and the growth cycle of the background crop, so that the heading/flowering phases of the color leaf crop, the color spike/flowering crop and the background crop are synchronous;

s5 management of crops

And (5) performing conventional field management, and harvesting the color-ear crops independently after the crops are mature.

After the color leaf crops and the color ears/flower crops are combined in the step S1, the color ears/flower crops have similar leaf colors to the background crops in the seedling stage, and the patterns of the manuscript I can be presented by using the colors of the leaves of the color leaf crops, which are different from the color of the background leaves; in heading/flowering period, the color of the ears or flowers of the color leaf crops is similar to that of the ears or flowers of the background crops, and the patterns of the manuscript II can be presented by utilizing the color of the ears or flowers of the color leaves/flowers which is different from the background color.

Generally, in order to highlight the characteristic that the pattern changes with the growing period of the crop, the manuscript i and the manuscript ii in the step S2 should be overlapped, so the same coordinate origin and coordinate system are adopted for drawing, and the drawing ratio of the two patterns should be determined by referring to the complexity of the pattern and the number of color crop combinations required by the color blocks of the pattern to determine whether to need to be adjusted.

Step S3 may be performed using prior art schemes.

After the color crop combination used in step S1 is determined, the varieties and background crops in the combination are investigated to determine the growth cycle. The growth period of each variety is regulated and controlled by the leaf age to ensure the synchronization of the heading period/flowering period of each variety crop, so that the transition of two patterns in the variation diagram is smooth, and the attractiveness and the ornamental property of the landscape in the variation process are maintained.

The color ear crop fruits have higher nutritive value than background crop fruits, and the color ear crop fruits have prominent appearance and are easy to identify, so that the color ear crop fruits are harvested independently, and the production benefit is improved.

Preferably, in the heading/flowering stage of the crop in step S1, the color ear/flower crop is higher than the color leaf crop and the background crop, and the color leaf crop and the background crop are close in height. When entering heading/flowering period, the color spike/flower crop protrudes above the background surface formed by the color leaf crop and the background crop due to the higher height, so that the appearance of the variable pattern is ensured, and the stereoscopic impression is achieved.

Further, step S2 includes the steps of:

t1 selection of variation diagram

Determining the number and distribution of color blocks in the manuscript I and the manuscript II according to the number of the color crop combinations determined in the step S1;

or

t1, determining a manuscript I and a manuscript II according to the theme to be expressed, and determining the number of the color crop combinations according to the pattern complexity;

t2 drawing of manuscript

Drawing the manuscript I and the manuscript II in a perspective way by adopting a transparent paperboard or a computer drawing tool;

t3 Annotation control Point

And marking out the superposed sites of the color crops in the manuscript I and the manuscript II in the coordinate system, namely the control points of the variation diagram.

When the pattern is selected, if the pattern has a certain expression theme or a pattern which needs to be used, the pattern can be determined firstly, and then the number of the color crops used in combination can be determined according to the complexity of the pattern. More complicated variable image patterns often have more superimposed dots, and if the color crops in all the superimposed dots are not in the same color crop combination, the complete presentation of the pattern after image variation cannot be guaranteed. If the target field can be freely created, the color type to be presented can be determined to determine the number of the color crop combinations, and then the pattern style can be determined according to the number of the color crop combinations. If the pattern is desired to be colorful, the pattern with simple composition or more white leaves is selected.

The pattern complexity can be evaluated by any one or combination of the number of color blocks, the distribution of the color blocks, the blank space and the curve.

And drawing the manuscript I and the manuscript II in a perspective mode, so that the proportion adjustment is convenient, the superposition condition of the variable diagram patterns can be visualized to determine control points and predict the variable diagram effect.

Preferably, when the determined color crop combination is 1, the number and distribution of color blocks in the manuscript I and the manuscript II are not limited. When only one color crop combination is adopted, the variable diagram can be realized no matter how many control points are. Is suitable for the variable drawing of complex patterns.

Furthermore, when only one color crop combination is adopted, the color colors of the color leaf crops and the color ear/flower crops in the color crop combination are similar and are strong contrast colors of the background crop colors. The color presented by the color crop combination is a strong contrast color of the background crop color, which is beneficial to the clear presentation of the variable image pattern; the color crop combinations have similar colors, which is beneficial to the connection of the variable images, so that the image changing process is relatively smooth and has aesthetic feeling.

Further, the color crops superimposed at the control points belong to the same color crop combination. Thus, the integrity of the pattern after the pattern is changed can be guaranteed.

Preferably, in step S3, the color crop combination at the control point is first located. The control points are often relatively complex areas in the pattern, and after the control points are accurately positioned, the two patterns are conveniently integrally manufactured.

Preferably, in step S4, at the control point, the row spacing of the planting holes is reduced by half, and the color crop combinations are planted in rows at intervals. The control point is the color development point of the color crop combination, so that the color crop combination plants need to be planted at the same time. The method of row spacing shortening and interval planting is adopted, and the complete and smooth presentation of each pattern can be ensured to the maximum extent. In order to improve the display effect of the patterns of the color-leaf crops at the seedling stage, the color spike/flower crops with shorter plant heights at the seedling stage and the combination thereof can be selected.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the claimed embodiments. Accordingly, the description is to be regarded as illustrative in nature and not as restrictive.

The following disclosure provides many different embodiments or examples for implementing different configurations of embodiments of the present application. In order to simplify the disclosure of the embodiments of the present application, the components and arrangements of the specific examples are described below. Of course, they are merely examples and are not intended to limit the claimed embodiments. Moreover, embodiments of the present application may repeat reference numerals and/or reference letters in the various examples, which have been repeated for purposes of brevity and clarity and do not in themselves dictate a relationship between the various embodiments and/or arrangements discussed. In addition, while examples of various specific materials are provided in the examples of the present application, one of ordinary skill in the art will recognize the use of other materials.

Example 1

The embodiment of the invention provides a method for making landscape variation maps by using the growth cycles of crops, which comprises the following steps:

s1, purple leaf rice and purple panicle rice are respectively selected to form a color crop combination, and the background rice is selected from local field conventional rice, but the leaf color of the background rice is similar to the leaf color of the purple panicle rice, the ear color of the background rice is similar to the color of the purple panicle rice after ear emergence, and the plant height of the background rice is lower than that of the purple panicle rice in the ear emergence period. The leaf color of the purple-leaf rice is purple from the seedling stage, and the plant height at the heading stage is lower than that of the purple-ear rice; the leaf color of the purple-ear rice is always similar to that of the background rice, and the rice ears show purple black similar to that of the purple-ear rice.

S2, because only one group of color crop combination is adopted, more complex variable patterns can be made. In this embodiment, a great wall pattern manuscript i and a yellow river pattern manuscript ii are respectively drawn by using a high transparent PVC membrane, and the sizes of the patterns of the two manuscripts are similar. And (3) overlapping and laying the diaphragms in a coordinate system, finely adjusting the overlapping positions of the two diaphragms, and fixing the diaphragms and a coordinate system drawing after control points are reduced as much as possible. And marking control points in a coordinate system drawing by adopting a punching mode, and then marking the outlines of the manuscript I and the manuscript II in the drawing by adopting different colors.

And S3, determining and constructing the position and the contour of each control point in the target field according to the coordinate drawing drawn in the step S2 by means of coordinate grids or GPS positioning and the like, and sequentially calibrating the line contours of the great wall pattern and the yellow river pattern.

S4, transplanting rice seedlings of proper age from the rice seedling bed respectively, and ensuring the synchronization of heading period of the three kinds of rice. Purple leaf rice is planted in the great wall pattern outline marked in the step S3, purple panicle rice is planted in the yellow river pattern outline, the purple leaf rice and the purple panicle rice are planted at intervals by taking a row as a unit in the control point outline, and the distance between two rows of the area in the control point is reduced to half of the row distance of other areas. And (5) planting background rice in the remaining area.

S5, performing conventional field management and accurately reseeding the colored rice area.

After the field is manufactured, the field is shown with a great wall pattern formed by a plurality of purple color blocks from the seedling stage to the booting stage (about 70 days), and the purple color blocks are formed by purple leaf rice. From the heading stage (about 15 days), with the growth of the rice ears at the top of the plants and the aggravation of the difference between the plant heights of the purple-leaf rice and the purple-ear rice, purple color blocks at the positions presented by the colors of the purple-leaf rice leaves are gradually faded, and purple-black color blocks presented by the colors of the rice ears of the purple-ear rice are gradually formed. From grain filling to mature harvest (about 35 days), the purple black color blocks presented by the purple ear rice ears are protruded above the background crops and completely presented in the field blocks, thus forming yellow river patterns with three-dimensional sense.

Therefore, the growth cycle of the crops (rice) is fully utilized by changing the map, and the ornamental period of the crops (rice) is obviously prolonged; the changed patterns do not need to be rearranged manually, so that the labor cost is saved, and the landscape is more vivid.

And harvesting after the rice in the field is completely mature. In the embodiment, the purple ear rice is fruited into black rice, so that the black rice has higher nutritional value and economic benefit, and is harvested independently.

Example 2

The embodiment of the invention provides a method for making landscape variation maps by using the growth cycles of crops, which comprises the following steps:

s1, selecting purple leaf rice, purple panicle rice, yellow leaf rice and red panicle rice respectively to form two groups of color crop combinations, wherein the leaves of the purple leaf rice and the yellow leaf rice always show purple and yellow, but the color of the panicle of the purple leaf rice and the yellow leaf rice is similar to that of the conventional rice; the leaf color of purple panicle rice and red panicle rice is similar to that of conventional rice, and the rice panicles respectively show purple and red. The background rice is selected from local conventional varieties, so that the color of leaves of the rice is similar to that of leaves of purple-panicled rice and red-panicled rice, and the color of rice ears is similar to that of rice ears of purple-panicled rice and yellow-panicled rice.

S2, when multiple color crop combinations are adopted, only one color crop combination is ensured in the control point during selection and drawing of the variation chart. In this embodiment, the theme of mid-autumn festival, Chang's fly to the moon and the moon are selected as the transformation chart. And respectively generating and drawing a coordinate system layer, a goddess Chang's fly to the moon layer manuscript I and a moon layer manuscript II in a computer by adopting drawing software. In order to reduce the control point positions, most of the moon entities in the manuscript II are drawn at the blank positions of the manuscript I, and the manuscript II is overlapped with the moon in the manuscript I as far as possible. And after the variable map layer is drawn, marking control points and pattern line outlines in the coordinate system map layer, and distinguishing and marking the color crop combination to be filled in each color block by using numbers.

S3, according to the coordinate drawing drawn in the step S2, the position and the outline of each control point are determined and constructed in the target field, and then the line outlines of the Chang' S fly-to-moon pattern and the moon pattern are calibrated in sequence.

S4, transplanting rice seedlings of proper age from the rice seedling field respectively, and ensuring the synchronization of heading stage of each rice variety. In this example, the human in the manuscript I was filled with yellow leaf rice, and the moon and the cloud were filled with purple leaf rice; the control point area formed by partially overlapping the moon in the manuscript II with the human body in the manuscript I is filled by combining yellow leaf rice and red panicle rice, the control point area formed by partially overlapping the moon in the manuscript II with the moon in the manuscript I is filled by combining purple leaf rice and purple panicle rice, and the residual area in the moon in the manuscript II is filled by purple panicle rice. The remaining area was filled with background rice colonization. The color rice combination is determined in the control point outline by taking the row as a unit interval, and the distance between two rows in the area in the control point is reduced to half of the distance between the rows in other areas.

S5, performing conventional field management and accurately reseeding the colored rice area.

After the field is manufactured, from the seedling stage to the booting stage, the field presents a Chang 'e character pattern formed by a plurality of yellow color blocks and moon and cloud patterns formed by a plurality of purple color blocks, so that the Chang' e flying to the moon pattern drawn by the manuscript I is shown in the field. From heading stage, the leaf color of yellow leaf rice and purple leaf rice which form the yellow color blocks and the purple color blocks is covered by rice ears at the top and rice ears of surrounding background rice to fade; at this time, the ears of red-ear rice and purple-ear rice are colored, and a moon pattern with red shades appears.

Example 3

The difference from the above embodiment is that other crops such as rape and cotton are adopted, and the variation is implemented by utilizing the difference of leaf color and flower color.

Example 4

The difference from the above embodiment is that the field crop is combined and the plant height change is used to implement the mapping.

Claims (10)

1. A method for making landscape variation maps by using crop growth cycles is characterized by comprising the following steps:

s1 selection of color crop combinations

Selecting two types of color crops, namely color leaves and color ears/flowers, to be combined, wherein the colors of the ears/flowers of the color leaves and the colors of the leaves of the color ears/flowers are similar to the colors of the same parts of the background crops;

s2 drawing of variation graph

Selecting two landscape patterns, and drawing a manuscript I and a manuscript II respectively by using the same coordinate origin and coordinate system;

s3 crop location

Distinguishing and positioning color crop frame lines marked by the two manuscripts in the target field block, filling a color crop block diagram of one manuscript with the color leaf crops or color ear/flower crops selected in the step S1, and planting background crops to fill the field block after the color crops are planted;

s4 planting of crops

Selecting the leaf age for permanent planting according to the color crop combination selected in the step S1 and the growth cycle of the background crop, so that the heading/flowering phases of the color leaf crop, the color spike/flowering crop and the background crop are synchronous;

s5 management of crops

Performing conventional field management, and harvesting the color-ear crops independently after the crop maturity period;

wherein,

the color leaf crops and the color ear/flower crops adopt the same crops, and the same crops are rice or rape.

2. The method of claim 1, wherein in step S1, the color ear/flower crop is higher than the color leaf crop and the background crop, and the color leaf crop and the background crop are at similar heights during heading/flowering.

3. The method according to claim 1, wherein step S2 comprises the steps of:

t1 selection of variation diagram

Determining the number and distribution of color blocks in the manuscript I and the manuscript II according to the number of the color crop combinations determined in the step S1;

t2 drawing of manuscript

Drawing the manuscript I and the manuscript II in a perspective way by adopting a transparent paperboard or a computer drawing tool;

t3 Annotation control Point

And marking out the superposed sites of the color crops in the manuscript I and the manuscript II in the coordinate system, namely the control points of the variation diagram.

4. The method according to claim 3, wherein when the color crop combination determined in step T1 is 1, the number and distribution of color blocks in the manuscript I and the manuscript II are not limited.

5. The method of claim 4, wherein the color of the color leaf crop and the color ear/flower crop in the color crop combination appear similar to each other and are strongly contrasting colors to the color of the background crop.

6. The method according to claim 1, wherein step S2 comprises the steps of:

t1 selection of variation map

Determining a manuscript I and a manuscript II according to the theme to be expressed, and determining the number of color crop combinations according to the pattern complexity;

t2 drawing of manuscript

Drawing the manuscript I and the manuscript II in a perspective way by adopting a transparent paperboard or a computer drawing tool;

t3. annotating control points

And marking out the superposed sites of the color crops in the manuscript I and the manuscript II in the coordinate system, namely the control points of the variation diagram.

7. The method according to claim 6, wherein the pattern complexity in step t1 includes any one or a combination of color block number, color block distribution, white space, and curve.

8. A method according to claim 3 or 6, wherein the superimposed colour crops at a control point belong to the same colour crop combination.

9. The method according to claim 3 or 6, wherein in step S3, the color crop combination at the control point is first located.

10. The method of claim 3 or 6, wherein at the control point, the row spacing of the planted single holes is reduced by half, and the color crop combinations are spaced in rows for planting in step S4.