CN112347082B - Multi-generation hybrid combined duplicate checking method - Google Patents

Abstract

The invention discloses a multi-generation hybrid combined duplicate checking method, which comprises the following steps: establishing a generation seed comparison table of the correspondence between all current codes and the female parent identification codes and male parent identification codes of each generation; establishing a generation hybridization combination worksheet, and recording hybridization combination information made by each generation into the generation hybridization combination worksheet, wherein the hybridization combination information comprises a female parent identification code and a male parent identification code; finding out the current generation number corresponding to the female parent identification code from the generation seed comparison table; and screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet, and recording the current generation number corresponding to the hybridized female parent identification code and the current generation number corresponding to the male parent identification code into a new worksheet to obtain the hybridization combination worksheet. The invention can rapidly correspond the hybridization combination information made in the past year to the corresponding code number, and the working efficiency is obviously improved.

Description

Multi-generation hybrid combined duplicate checking method

Technical Field

The invention belongs to the technical field of agricultural planting, and particularly relates to a multi-generation hybrid combined weight checking method.

Background

At present, the research institutions and breeding companies need to continuously carry out hybridization in the breeding process, and in order to avoid meaningless repetition of hybridization combination which is carried out before, repeated useless measurement and matching are avoided. All the hybridization combinations which are done before each hybridization pollination are needed to be searched out, the field numbers corresponding to the current generation are not needed to be matched with the hybridization of the same father and mother in the current generation, and the current check work is mostly completed by manual selection and screening: the inspection of multiple generations is carried out completely by manual observation, the male parent and the female parent are corresponding to the numbers of the current generation from generation to generation, people can be confused in a moment, the mental labor intensity is extremely high, and mistakes can be correspondingly made by a little careless effort.

In addition, because the field number of the same female parent or male parent material in each generation is not fixed, that is, the same material may have a plurality of numbers of different generations, the hybridization combination which is done before needs to find and correspond to the number of the current generation is an extremely brain burning and unavoidable tedious work. The staff is required to pay attention to a high degree of concentration and care, the working efficiency is extremely low, errors and omission are easy to occur, the speed of manual checking and re-checking is extremely low, and human errors such as digital misreading, miswriting and the like can be generated.

Disclosure of Invention

Aiming at the problems of low efficiency and high error rate of the manual searching method, the invention provides a multi-generation hybrid combined duplication searching method, which solves the problem that the duplication searching work is totally remained in the manual work at present.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a multi-generation hybrid combined duplicate checking method comprises the following steps:

s1, establishing a generation seed comparison table of the correspondence between the current generation numbers and the female parent identification codes and the male parent identification codes of each generation;

s2, establishing a generation hybridization combination worksheet, and recording hybridization combination information made by each generation into the generation hybridization combination worksheet;

the hybridization combination information comprises a female parent identification code and a male parent identification code, and the female parent identification code and the male parent identification code are respectively positioned in different columns in a generation hybridization combination worksheet;

s3, searching the current generation number corresponding to the current parent identification code and the current generation number corresponding to the father identification code from the generation seed comparison table according to the mother identification code and the father identification code in the generation hybridization combination worksheet, and correspondingly recording in the generation hybridization combination worksheet;

and S4, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and recording the current generation number corresponding to the hybridized female parent identification code and the current generation number corresponding to the male parent identification code into a new worksheet to obtain a hybridization combination summary table with the current generation number corresponding to all the hybridized combinations.

In step S2, the step of creating a generation hybridization combination worksheet, and storing hybridization combination information that each generation has undergone hybridization in the generation hybridization combination worksheet, includes the steps of:

s2.1, establishing generation hybridization combination worksheets of different generations;

s2.2, the female parent identification code and the male parent identification code which are hybridized in each generation are respectively recorded in a generation hybridization combination worksheet of the corresponding generation.

The female parent identification code comprises planting time, planting place and female parent number, and the male parent identification code comprises planting time, planting place and male parent number.

The step S3 includes the steps of:

s3.1, filling the current generation number corresponding to the parent identification code in the generation seed comparison table into the generation hybridization combination worksheet by using INDEX, SMALL, IF and ROW combination function based on the parent identification code;

s3.2, filling the current generation number corresponding to the father identification code in the generation seed comparison table into the generation hybridization combination worksheet by adopting INDEX, SMALL, IF and ROW combination functions based on the father identification code;

and S3.3, searching the current generation numbers corresponding to the female parent identification codes and the current generation numbers corresponding to the male parent identification codes in all generation hybridization combination worksheets according to the methods in the steps S3.1 and S3.2.

In step S4, the obtaining a hybrid combination summary table includes the steps of:

s4.1, establishing a hybridization combination summary table, wherein the hybridization combination summary table comprises current numbers corresponding to female parent identification codes and current numbers corresponding to male parent identification codes in different columns;

s4.2, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and correspondingly recording the current generation number corresponding to the hybridized female parent identification code and the current generation number corresponding to the male parent identification code into a hybridization combination summary sheet in the step S4.1;

s4.3, sorting the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code in the step S4.2 according to the current generation number;

and S4.4, deleting repeated rows with the same current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code, and obtaining a final hybrid combination summary table.

The invention has the beneficial effects that:

the method is simple, the hybridization combination information which is done in the past year can be quickly corresponding to the generation code according to the generation hybridization combination worksheet and the generation seed comparison table, the hybridization combination is convenient to be carried out again according to the information in the current generation, the cost is saved, the workload is reduced, and the problems of easy error and low efficiency in manual weight checking are solved; the workload is shortened, the labor intensity is reduced, the required data can be quickly found out by utilizing the function, and the human errors of the original digital errors, the read errors and the write errors are avoided; the working efficiency is greatly improved, the original three to four people can take seven days to tension the work, and the work can be easily finished by one person taking about one day.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of the present invention.

FIG. 2 is a table of the generation seed comparison.

FIG. 3 is an example of a generation hybridization composition worksheet.

Fig. 4 is a schematic diagram of the parent identifier and the parent identifier in fig. 2 after the current generation numbers corresponding to the parent identifier are filled in fig. 3.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without any inventive effort, are intended to be within the scope of the invention.

To facilitate an understanding of this patent, the names used in this patent are first explained.

The generation refers to the combination information of the planting time and the planting place of the seed, the same generation represents the same planting time and the same planting place, and the different generation represents the same planting place with the same planting time or the same planting place with different planting time. When the code number is the name of the seed type for the current generation.

A multi-generation hybrid combined duplicate checking method is shown in figure 1, and comprises the following steps:

s1, as shown in FIG. 2, establishing a generation seed comparison table of the correspondence between the current code number and the female parent identification code and the male parent identification code of each generation;

the generation seed comparison table comprises the current code number of the seed and the female parent identification code or the male parent identification code of each generation of seed, wherein the current code number represents the name of the seed in the current generation, the current code number in the same row and the female parent identification code or the male parent identification code in different generations represent the seeds of the same model, and the current code numbers in different rows represent the seeds of different models; since the naming of seeds of the same model may be different for each generation, the correspondence between the current code and the parent or parent identification of each generation of seeds may be reflected according to the generation seed lookup table.

S2, establishing a generation hybridization combination worksheet, and recording hybridization combination information which is already done by each generation into the generation hybridization combination worksheet, wherein the hybridization combination information comprises a female parent identification code and a male parent identification code, and the female parent identification code and the male parent identification code are respectively positioned in different columns in the generation hybridization combination worksheet;

the female parent identification code sequentially comprises the planting time of the seeds, the planting place of the seeds and the female parent number of the seeds, the male parent identification code sequentially comprises the planting time of the seeds, the planting place of the seeds and the father number of the seeds, and the planting place can be represented by one or two English characters, in the embodiment, bh represents Henan province, and Bt represents Henan province; the planting time can be represented by one or two numbers, in this embodiment, 17 represents 2017 and 18 represents 2018; the mother number and the father number are uniformly represented in a digital combination form, for example: 1147 is the parent number and 2546 is the parent number.

The generation hybridization combination worksheet is established, the hybridization combination information of each generation is stored in the generation hybridization combination worksheet, and the method comprises the following steps:

s2.1, establishing generation hybridization combination worksheets of different generations;

when the generation hybridization combination worksheet is established, the generation hybridization combination worksheets are named respectively according to the planting time and the planting place of each generation, hybridization combinations of the same planting time and planting place are stored in the same worksheet, hybridization combinations of different planting times and planting places are stored in different worksheets, so that hybridization combination information made in each period and place can be conveniently distinguished and recorded, for example, the generation hybridization combination worksheets are named by 17Bt, and therefore, the hybridization combination information made in 2017 in Hainan province is recorded in the 17Bt worksheets.

S2.2, as shown in figure 3, the female parent identification code and the male parent identification code which are hybridized in each generation are respectively recorded in a generation hybridization combination worksheet of the corresponding generation, and the method comprises the following steps:

s2.2.1, scanning a seed identification code label on the seed bag through a scanning gun, and recording a seed combination identification number into a generation hybridization combination worksheet of a corresponding generation;

the seed bag is stuck with a seed identification code label, the seed identification code label is printed with a bar code written with a seed combination identification number, the bar code can be scanned by a scanning gun to identify and input the seed combination identification number, each seed combination identification number sequentially comprises the planting time of the seed, the planting place of the seed, the mother number of the seed, a first separator and the male parent number of the seed, and the planting time, the planting place, the mother number and the male parent number in the seed combination identification number of the same seed in the same generation are consistent with all information in the female parent identification code and the male parent identification code.

S2.2.2, separating the characters before and after the first separator in the seed combination identification number by using the column separation function of EXCEL and storing the characters into different columns of the generation hybridization combination worksheet respectively;

the character combination before the first separator in the seed combination identification number is the mother identification number.

S2.2.3, by utilizing the character connection function of EXCEL, the planting time of the seeds corresponding to the generation of the father number and the planting place information of the seeds are added at the front part of the father number to form a father identification code;

in the generation hybridization combination worksheet of each generation, the combination of the female parent identification code and the male parent identification code of the same row represents a set of hybridization combination information made by the generation.

S3, searching the current generation number corresponding to the current parent identification code and the current generation number corresponding to the father parent identification code from the generation seed comparison table according to the mother parent identification code and the father parent identification code in the generation hybridization combination worksheet, and correspondingly recording the current generation number and the current generation number in the generation hybridization combination worksheet, wherein the method comprises the following steps of:

s3.1, filling the current generation number corresponding to the parent identification code in the generation seed comparison table into the generation hybridization combination worksheet by using INDEX, SMALL, IF and ROW combination function based on the parent identification code;

in this embodiment, taking a 17Bt worksheet as an example, a method for searching the current code is specifically described, and a function corresponding to the current code corresponding to the parent code is found by adopting a INDEX, SMALL, IF and ROW combined function based on the parent code as follows:

=index (generation seed lookup +$a $1: $a$2000, small (IF (generation seed lookup ++$e$2 $e2000= $a4, ROW ($2 $2000), 4^5), COLUMN (a$1)))/("", pull-down formula), find the current generation numbers corresponding to all maternal identification codes;

where $ A1 $ A2000 and $ E2 $ E2000 each represent the table data region in FIG. 2.

S3.2, filling the current generation number corresponding to the father identification code in the generation seed comparison table into the generation hybridization combination worksheet by adopting INDEX, SMALL, IF and ROW combination functions based on the father identification code;

and (3) searching out the current numbers corresponding to all the father identification codes by adopting the method in the step S3.1.

S3.3, finding out the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code in all generation hybridization combination worksheets according to the methods in the steps S3.1 and S3.2;

by the method, the current generation numbers corresponding to the female parent identification codes and the male parent identification codes in all generation hybridization combination worksheets can be found out, the hybridization combination which is already done can be conveniently confirmed according to the finding result, the current generation does not need repeated hybridization, and the workload is reduced.

S4, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and recording the current generation number corresponding to the hybridized female parent identification code and the current generation number corresponding to the male parent identification code into a new worksheet to obtain a hybridization combination summary sheet;

the hybrid combination summary table comprises the following steps:

s4.1, establishing a hybridization combination summary table, wherein the hybridization combination summary table comprises current numbers corresponding to female parent identification codes and current numbers corresponding to male parent identification codes in different columns;

s4.2, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and correspondingly recording the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code which are hybridized into a hybridization combination summary sheet in the step S3.1;

s4.3, sorting the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code in the step S3.2 according to the current generation number;

s4.4, deleting repeated rows with the same current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code, and reserving only one row to obtain a final hybridization combination summary table with all the completed hybridization combinations corresponding to the current generation number;

as shown in fig. 4, the current generation information of the current generation corresponding to the female parent identification code and the current generation information of the current generation corresponding to the male parent identification code in the current generation hybridization combination worksheet are respectively screened out, and copied into a hybridization combination summary table, wherein the hybridization combination summary table shows the completed hybridization combination information recorded by the current generation identification code, the completed hybridization combination can be quickly identified according to the current generation according to the hybridization combination summary table, and the current generation does not need to repeatedly hybridize according to the hybridization combination in the hybridization combination summary table.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (2)

1. The multi-generation hybrid combined duplicate checking method is characterized by comprising the following steps of:

s1, establishing a generation seed comparison table of the correspondence between the current generation numbers and the female parent identification codes and the male parent identification codes of each generation;

s2, establishing a generation hybridization combination worksheet, and recording hybridization combination information made by each generation into the generation hybridization combination worksheet;

the hybridization combination information comprises a female parent identification code and a male parent identification code, and the female parent identification code and the male parent identification code are respectively positioned in different columns in a generation hybridization combination worksheet;

s3, searching the current generation number corresponding to the current parent identification code and the current generation number corresponding to the father identification code from the generation seed comparison table according to the mother identification code and the father identification code in the generation hybridization combination worksheet, and correspondingly recording in the generation hybridization combination worksheet;

s4, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and recording the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code which are hybridized into a new worksheet to obtain a hybridization combination summary sheet with current generation numbers corresponding to all hybridized combinations;

in step S2, the step of creating a generation hybridization combination worksheet, and storing hybridization combination information that each generation has undergone hybridization in the generation hybridization combination worksheet, includes the steps of:

s2.1, establishing generation hybridization combination worksheets of different generations;

s2.2, respectively recording the female parent identification code and the male parent identification code which are hybridized in each generation into a generation hybridization combination worksheet of the corresponding generation; the method comprises the following steps:

s2.2.1, scanning a seed identification code label on the seed bag through a scanning gun, and recording a seed combination identification number into a generation hybridization combination worksheet of a corresponding generation;

the seed bag is stuck with a seed identification code label, the seed identification code label is printed with a bar code written with a seed combination identification number, the bar code is scanned by a scanning gun to identify and input the seed combination identification number, each seed combination identification number sequentially comprises the planting time of the seed, the planting place of the seed, the mother number of the seed, a first separator and the male parent number of the seed, and the planting time, the planting place, the mother number and the male parent number in the seed combination identification number of the same seed in the same generation are consistent with all information in the female parent identification code and the male parent identification code;

s2.2.2, separating the characters before and after the first separator in the seed combination identification number by using the column separation function of EXCEL and storing the characters into different columns of the generation hybridization combination worksheet respectively;

the character combination before the first separator in the seed combination identification number is the female parent identification number;

s2.2.3, by utilizing the character connection function of EXCEL, the planting time of the seeds corresponding to the generation of the father number and the planting place information of the seeds are added at the front part of the father number to form a father identification code;

in a generation hybridization combination worksheet of each generation, the combination of the female parent identification code and the male parent identification code of the same row represents a set of hybridization combination information made by the generation;

the step S3 includes the steps of:

s3.1, filling the current generation number corresponding to the parent identification code in the generation seed comparison table into the generation hybridization combination worksheet by using INDEX, SMALL, IF and ROW combination function based on the parent identification code;

s3.2, filling the current generation number corresponding to the father identification code in the generation seed comparison table into the generation hybridization combination worksheet by adopting INDEX, SMALL, IF and ROW combination functions based on the father identification code;

s3.3, finding out the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code in all generation hybridization combination worksheets according to the methods in the steps S3.1 and S3.2;

in step S4, obtaining a hybridization combination summary table includes the steps of:

s4.1, establishing a hybridization combination summary table, wherein the hybridization combination summary table comprises current numbers corresponding to female parent identification codes and current numbers corresponding to male parent identification codes in different columns;

s4.2, screening out combination information with values of the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code from the generation hybridization combination worksheet obtained in the step S3, and correspondingly recording the current generation number corresponding to the hybridized female parent identification code and the current generation number corresponding to the male parent identification code into a hybridization combination summary sheet in the step S4.1;

s4.3, sorting the current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code in the step S4.2 according to the current generation number;

and S4.4, deleting repeated rows with the same current generation number corresponding to the female parent identification code and the current generation number corresponding to the male parent identification code, and obtaining a final hybrid combination summary table.

2. The multi-generation hybrid combination repeat-checking method of claim 1, wherein the female parent identification code comprises a planting time, a planting location and a female parent number, and the male parent identification code comprises a planting time, a planting location and a male parent number.