KR101799758B1 - Method for determining the maturity of the Miichthys miiuy - Google Patents

Abstract

To estimate the breeding season of Miichthys miiuy by using existing methods, after marine creatures are captured at every breeding season, and abdomen portions of the marine creatures are cut and gonads thereof are taken, the gonadosomatic index (GSI), the hepasotomatic index (HSI), the condition factor (CF) or gonads have to be histologically analyzed. The present invention relates to a method for determining the maturity of gonads of Miichthys miiuy capable of reducing time and effort of the existing methods and enabling nonprofessional persons to easily estimate the breeding season, thereby rapidly applying results with regard to spawning and maturity to closed season policies and capturing prohibiting length setting. The method of the present invention comprises the following steps: determining the length of captured Miichthys miiuy and determining whether the captured Miichthys miiuy is male or female only for those whose measured value of the body length is over 40 cm; extracting digital image values, CIE 1976 L*a*b*, CIE XYZ or xy values of gonads thereof by cutting abdomen; and determining the maturity of the gonads from the extracted digital image values.

Description

(Method for determining the maturity of the Miichthys miiuy)

The present invention relates to a method for determining the maturity of a Miichthys miiuy gonad, and more particularly, to a method for estimating the maturity of a Miichthys miiuy gonad using a gonadosomatic index (GSI), a hepasotomatic index (HSI) And a method for determining the maturity of the germ gonads using the chromaticity and brightness inherent in the gonad, rather than the method using the condition factor (CF) and the method of histological analysis of the gonad.

Brown croaker is a fish of the sea cucumber, and its scientific name is Miichthys miiuy. The length is 60-90cm long. There are a bunch of twigs on the boule with several strands, and the boule contains gelatin and has been used as glue. The young croaker, which lives on the sandy bottom of the sea and breaks from the eggs, climbs up to the nose of the river. There is elasticity of white to white, and there is also sweet and sweet. It has been widely used for the development of children and the health of the elderly and patients.

According to Professor Jeong Moon-ki's "Fish Museum", in the case of Jeollanam-do, it is called "Hongchi" and "Wangdo" in Wando, and between Bangi and Guri → Sasang → He called it Cream. In Chungnam Province, the young fish were called 'Mincho' in Jeollanam region. In Chonnam province, they were called 'Shiwuchi' and 'Mali' in males. I called.

The big bug has 4 ~ 5 lengths. The body is slightly round, the color is yellowish white, and the back is blue. The scales and mouth are big, and the taste is sweet, but it is good to eat or to eat, and the dried ones are better for the body. In the offshore of Heuksan Island, it is rare, but sometimes catches floating on the water, sometimes catching fishing. In the northern part of the Sinan area, which is made up of islands, it is caught by a net in May-June of the lunar calendar and caught by fishing in June-July. The length of a fish egg is small and it is an excellent dish.

On the other hand, coastal fisheries resources are on a steady decline, but consumption of aquatic products tends to increase. Therefore, proper management and conservation of fishery resources is necessary to adjust supply to continuous consumption, and research on spawning and maturity is very important because it is practically applied to the ban fishing policy and the prohibition of capturing.

On the other hand, in order to estimate the spawning season of fishery resources, a method using a gonadosomatic index (GSI), a hepasotomatic index (HSI), a condition factor (CF) There is a way. However, it takes a lot of time, money, and effort to study the spawning season of about 1,100 species of fish in Korea, and since the histological analysis method is a tendency to escape from 3D (dirty, dangerous, A gonadal maturation method is needed to prepare for this.

Korean Patent Laid-Open Publication No. 10-2008-0050472 discloses a method for distinguishing fruit color that changes color of perilla according to maturity, in order to best distinguish between (i) the surface color and texture of the fruit samples to be sorted obtaining coordinate values of a plurality of color coordinate systems with respect to a ground color, (ii) calculating a Mahalanobis distance for coloring and coloring by a plurality of predetermined color factors using the obtained coordinate values, And (iii) setting a color factor having the largest value among the Mahalanobis distances calculated as a coloring factor for selecting a fruit color, and a method for determining a fruit color grade Lt; / RTI > Korean Patent Laid-Open Publication No. 10-2007-0074982 discloses a method of collecting and analyzing image information of domestic agricultural products and constructing a unique database of domestic agricultural image information on a server; Collecting image information of a comparison agricultural product using a portable image device, and transmitting the image information to the server via a disk or wired / wireless; Analyzing the image information of the agricultural product to be verified to be compared with the unique database; Comparing the three sets of comparison data with the unique database information in the server to determine whether the agricultural product is domestic or not; And a method for distinguishing domestic agricultural products using a portable image device. Korean Patent Laid-Open Publication No. 10-2009-0084167 discloses a method of measuring the skin color, wrinkle and elasticity of neck skin and calculating the neck skin age from the measured parameters, A method of determining a neck skin age, and a kit, which have an advantage that a neck skin age can be derived with a quick and visible means. Korean Patent Laid-Open Publication No. 10-2002-0072902 discloses a method of attaching a miniaturized multi-array photochemical sensor to the packaging of samples such as dairy products and fishery products for which freshness is important, or contacting or approaching a sample to prepare various chemical components contained in the sample The present invention relates to an apparatus and method for determining freshness by quantifying, quantifying, comparing, and determining a color change according to a change with an analyzer. To this end, various multi-array photochemical sensors are provided and the color change of the sample is measured by a chromaticity meter And a freshness discrimination apparatus and method using a multi-array photochemical sensor that can measure the freshness characteristics of a sample reproducibly and precisely by numerical analysis of measurement data and make it possible to easily determine freshness even when the color change is clear. Lt; / RTI >

(GSI), liver weight index (HSI), obesity index (CF), or gonorrhea index (CF) of the gonads after the gonads are excised by securing aquatic organisms every year during the spawning season, The purpose of this study is to reduce the time and effort of the current spawning season estimation method and to provide a method to estimate the spawning season more easily.

According to an aspect of the present invention, there is provided a method for measuring the size of a caught fish, the method comprising the steps of: Extracting a digital image value of the gonad, CIE 1976 L * a * b * or CIE XYZ or xy values by cutting the abdomen; And determining the maturation stage of the gonads using the extracted digital image values.

The fisheries resources of coastal waters including Codfish are on a steady decline, but consumption of aquatic products tends to increase. In order to prepare for such continuous consumption, proper management and conservation of fishery resources are required. The method of estimating the spawner period of the present invention can save time and effort and can estimate the spawner period more easily. It can be practically applied to the setting of the prohibition policy and the prohibition of capturing quickly.

Fig. 1 shows the number of cultivating frequencies of the measurement target language by sex.
Fig. 2 shows the testis of the target language and the mature length of ovaries.
Fig. 3 shows the distribution of color values of the ovaries to be measured.
Fig. 4 shows changes in color value shift of the ovary of the measurement subject according to maturation stages.
FIG. 5 is a graph showing changes in color value shift of the ovary at a maturity level of 40 cm or more.
FIG. 6 shows changes in the xy color value at the maturation stage of the ovary of the measurement subject.
Fig. 7 shows changes in color values of oocyte maturation stages of a body of 40 cm or more.
Fig. 8 shows the result of measuring the color value of the child's testicles.
9 is a graph showing a change in color value movement according to the mature stage of the test subject's testimony.
Fig. 10 shows changes in the color value shift of the testees of 40 cm or more to be measured according to the mature stage.
11 is a graph showing changes in the xy color values at the maturing stage of the test subject testis.
Fig. 12 shows changes in color values of a fish body of 40 cm or more in the stages of the test aging.

1. Color measurement and correction method

1.1 Color measurement of germline gonorrhea

The sample used in the experiment was fish caught from June 2015 to July 2016. The samples were frozen in the field and transported to the laboratory. The standard length and wet weight of each sample were measured. Gonads were excised from the bovine side and gender was determined under a dissecting microscope (LEICA L2). Thereafter, blood and moisture on the surface were removed to accurately measure the chromaticity.

The gonads were placed on white paper and the color and brightness were measured using a colorimeter (TES-135) color meter (gun type). The color measurement of Cingul gonorrhea was performed using artificial light under fluorescent lighting condition with a background of 85% white paper as background. The artificial light was installed on the ceiling of the laboratory to secure the position of the sample to be irradiated at an angle of 45 degrees. The light receiving part of the colorimetric system was designed to have an angle of 45 degrees with respect to the incident light and the light reflected from the sample surface, Lt; RTI ID = 0.0 > 10 < / RTI >

The measured images were digitally processed using the Run ColorAnalyzer program, and the CIE L ^* a ^* b ^* color space values, CIE XYZ, or xy color values of the measured images were obtained. In addition, color meter data, length, sex, and maturity data were added to confirm the correlation with chromaticity values.

1.2 Calibration of measured color

The color value extracted from the image measured from the gonorrhea of the croaker The color value according to the laboratory environment at the time of measurement was corrected from CIE Lab. The color a and b values of the gonorrhea photographed in a stationary state on the laboratory table are color values reflecting the color of the surrounding environment including the environmental conditions such as the artificial illumination of the laboratory and the experimental table and the color value of the gonad itself, The color of the search can be determined from the difference between the environmental color values a and b of the measured table and the color values a and b measured for the gonads. The L value was extracted from the color CIE Lab values obtained from the color value data obtained by coloring the gonads.

That is, when the values of a and b used in the color space of the gonorrhexis in the CIE Lab color space and the values a and b of the gonads where the gonads are colorimetrically measured are x1, y1, x2, and y2, Pure color a and b values x and y are as follows.

x = x2-x1, y = y2-y1 (1)

1.3 From the colorimetric values of the gonads,

Assuming that the color values of the gonads displayed in the CIE Lab color space and the color values of the selected gonads are L1 *, a1 *, b1 * and L2 *, a2 *, b2 *, the color difference [Delta] Eab * Respectively.

   ? Eab * = [(? L *) * 2+ (? A *) * 2+? B *

However,? L * = L1 * -L2 *

      ? A * = a1 * -a2 * (3)

      ? B * = b1 * -b2 *

to be.

Since L * and L2 * are the values measured under artificial illumination, the L values extracted from the color values of the gonads are distributed within a certain range and correspond to the L values of the white background having the same conditions, The value is 0. In the searched judgment, the coordinates when the color difference [Delta] Eab * value calculated between the values of the color a and b obtained from the gonorrhea and the values of the color a and b of the gonor of the measurement were minimum was determined as the maturity index of the gonad. However, when the two neighboring search values and the minimum value of the color difference [Delta] Eab * are the same, the maturity index is judged to be two indexes with a fast maturity development (Fig. 1)

2. Analysis results

2.1 Color Coordinate Position of Coloring Background Color

In the process of coloring the gonads of the Korean language, the average color value of the color of the environment which is the coloring background was (1, -1.5). In the case of the original standard white, the background color should be located at the origin but in this experiment, the white color paper is laid on the laboratory table and measured under the lighting conditions of the fluorescent lamp. Therefore, the image value measured by the difference value between the color value (a *, b *) of the background color and the origin (0) was corrected and used as the color data value.

2.2 Maturation length of the testis ovary in the target fish

FIG. 1 is a graph showing the frequency of the body size of the whole test subject, the testis of the measurement target language, and the maturation length of the ovaries. The overall range of the target language is in the range of 24-81cm or more, and consists of two parabolic frequency distributions on the average of 33cm and 48cm. Since the frequency distribution is distributed as a histogram of two parabolic lines, it is judged that the experimental words used in the measurement are separated into two groups.

FIG. 2 is a graph showing the frequencies of the female and male sexes in which the observer judged the testis and ovaries of the measurement target fish to be immature. However, when the fish body of 40 cm or more is considered as a fish species of more than 2 years, the maximum body size of the fish body which is judged immature is not more than 40 cm . In other words, even if there are individual differences of the observer, it can be judged that the division of the immature language due to the growth of the testis ovary occurs at less than 40 cm.

2.3 Results of color analysis of gonads

2.3.1 Results of Color Analysis of Ovary

Fig. 3 shows the monthly color value distribution of the ovary of the target ovary as a result of measuring the color value of the cervical ovary. Monthly color value distribution of ovaries was measured from January to December when the ovaries were identified in the brood. The period of ovarian maturation and spawning in Korea is from July to September.

The distribution of monthly color values of ovaries was mainly distributed in 1 and 4 quarters, and both a and b values were within ± 15 range. The color values of the ovaries in the first to fourth months were mainly distributed in the first and fourth quadrants, in the third and fourth quadrants in June and in the fourth quadrant in July and November, In the first quadrant. When the measured values were classified by color, it was found that there was a change in the movement of the minute color value per month.

FIG. 4 shows changes in color value shifts in the maturity stages of the brood ovary. This result was obtained by visualizing the developmental stages of the ovaries according to the external form, and then measuring the color values by the colorimetric system. In general, the Korean common fishes are classified into the immature stage, development stages can be categorized into stages such as developing stage, maturing stage, spawning stage, and spent stage. This result is aimed at estimating the spawning period, so that the maturation stage of the egg is classified into mature and mature maturity matched to maturity stage of tissue cell results, and appears on the chromaticity coordinate plane. Color shift.

As shown in FIG. 4, the immature group is distributed in the quadrant of 4 quadrants as it starts from the third quadrant and spreads to the first quadrant. The maturity distributions, matured and matured are distributed horizontally in the direction of a value around the origin. The ripening, maturity and recovery were distributed in the first and fourth quadrants. The posterior part was distributed in small area on the fourth floor. When the above steps are combined, it can be seen that the value determined to be after discharge is distributed separately from the other values, and the recovery value is also distributed differently from the maturity during maturation. However, since the values judged immature are widely distributed over the entire range, it is difficult to distinguish the stages of maturation of the ovary through color when the data including immature is interpreted together.

FIG. 5 shows the result of analyzing the color value change and the monthly change value according to the oocyte ripening stage of 40 cm or more of the measurement target word. The reason why the measurement target language is set to 40 cm or more is due to the fact that the incidence of matured ovaries in the measurement target language of Fig. 2 is determined to be immature in a fish body of 40 cm or less.

Since the fishes that are determined to be immature are mainly distributed in 1 - 5 months, it is possible to judge maturity or ripeness stage based on the color values based on the distribution values of 7-8 months, considering mature and ripened fish bodies of 40 cm or more. Namely, it is possible to specify the value of the distribution of the coordinates (0, 5), (15, -10) on the plane surrounded by the diagonal apexes as mature or ripe by the ovarian color value of the croaker measured in July-August.

Next, when the values of (-2, -10), and (5, -8) measured in October are distributed on a plane surrounded by diagonal vertexes, the color value of the ovary can be determined as post- , (15, -5) (0, 5) are distributed in the plane surrounded by the diagonal vertices, it can be determined that the color value of the ovary can be recovered. Also, in the case of Cymbidium, color value changes were not clearly distinguished according to gonadal development process. Therefore, it is considered appropriate to specify the gonadal developmental stage by considering monthly value of maturity stage of gonorrhea in the case of Codonopsis in maturity judgment.

FIG. 6 is a graph showing the chromaticity values measured in the ovarian maturation, maturation and ripening stages of the measurement target language on the xy chromaticity plane. The results show that the distribution of color values of maturity and ripeness values are mostly similar to each other because there are many overlapping parts in a certain color, and it is judged difficult to distinguish by human visual and mechanical color difference. However, the value determined by the steaming is distributed in the boundary between green and blue while it is distributed in red and orange.

In other words, the value corresponding to the steaming state was judged by the visual observation experiment in terms of mature and ripe. However, this is because the human visual sense is a judgment value considering the shape and the form, . Therefore, it is desirable to judge maturity and ripeness as one stage and to separate the steaming steep into separate stages, instead of dividing the ripening stage, ripening stage, and ripening stage separately.

Based on the above results, FIG. 7 shows the classification of the change in color value of the oviposition stage of the fish body of 40 cm or more. FIG. 7 shows changes in color values of oocyte maturation stages of a body of 40 cm or more. (7, -10), (0, -7), (8.5, -1.7), and (15, 6) as the maturity and ripeness as one step according to the result of Fig. And the color values distributed in the direction of the first quadrant of the outer side of the four points are restored in the recovery step, the left and the bottom of the straight line passing through (0, -7), (6, -10) It is judged that it is appropriate to determine the value distributed in the third quadrant as the posterior stage.

2.3.2 Results of color analysis of testis

Fig. 8 shows the result of monthly color value measurement of the testicles of the child language. The measurement period of the monthly color value distribution of the testis was January to December when the testis was confirmed in the Korean language. The period of maturing of the Korean language testis in Korea is from July to September. The distribution of the color values of the testimonies was mainly distributed in the quadrant, with a values ranging from -5 to 15 and b values ranging from 10 to 14. The color values of the testimonies of the experimental fishes measured in the 1st to 2nd month were distributed in the first, second and fourth quadrants. In June, 4th quadrant, 7th and 8th month were 3, 4th quadrant, The moon was distributed around the 4th quadrant, and it was distributed around the 1st quadrant in December.

When the measured values were classified by color, it was found that there was a small change in color value movement per month. The distribution of the measured testimonials is as follows: June, July, August, and November are distributed in the first and fourth quadrants on the upper and lower sides with respect to the origin (0) of the b axis. In other words, in June and July, the base of the b axis is based on the origin (0), and in August and September, the origin is located on the origin of the b axis. October moves back to the origin (0) It is distributed over the upper and lower parts around the 0 value of the axis.

FIG. 9 shows a change in the color value movement according to the mature stages of the medium testicles. The results of this study were obtained by visual classification of each developmental period according to the external form of developmental stages of testis and then measuring color values by colorimetric system. The results of this study are as follows: First, developmental stages of testis were divided into visual categories according to external form, and color values were measured by colorimetric method. In general, the Korean cymbals can classify developmental stages into stages such as immature stage, developing stage, maturing stage, spawning stage, and spent stage depending on testicular tissue and external form . Since the purpose of this study is to estimate the spawning period, the maturation stage of the testis is classified into mature, ripe maturity corresponding to mature stage of ripening, mature stage and ripe stage. Color shift.

9, the immature group is distributed in a form spreading from the third quadrant to the first quadrant, and it is found that the maturity, maturity, and ripening are widely distributed in the direction of increasing a value in the fourth quadrant have. Maturity and ripeness tend to have a negative b value. The posterior part was distributed with a small area on the fourth floor. It is difficult to distinguish the maturity level of the testis through the color because the overlapped portions are common to the determination values represented by combining the respective steps.

Fig. 10 shows the result of examining the change in the color value of the fish body over 40 cm with the monthly data. The reason why the measurement target language is set to 40 cm or more is due to the fact that the incidence of matured ovaries in the measurement target language of Fig. 2 is determined to be immature in a fish body of 40 cm or less. Since the fishes that are determined to be immature are mainly distributed in 1 - 5 months, it is possible to judge maturity or ripeness stage based on the color values based on the distribution values of 7-8 months, considering mature and ripened fish bodies of 40 cm or more.

When the result of monthly color value measurement is reflected, from July to August, the inside of the ellipse area passing through the three points of (-5, -1), (6,1), (14,2) It is judged to be appropriate to judge the color value included in the inside of the elliptical region passing through the three points of (13, -8), (2.7, -4.6) as maturity or ripening stage.

In October, the color values included in the inner part of the ellipse passing through the three points of (-1.2, -7), (4.3, -10) and (0,9) It is judged to be appropriate to judge the color value included in the inside of the elliptical region passing through the three points of (1, 0), (10, -0.5) and (-2.6, 2)

Fig. 11 shows the results of the test maturation of the target language and the color values measured at the ripening stage of ripening on the xy chromaticity plane. The results show that the distribution of color values of maturity and ripeness values are mostly similar because of many overlapping parts and it is difficult to distinguish between human visual and mechanical color differences.

However, the value determined as steaming is distributed in the blue part. In other words, the value corresponding to the steaming state was judged by visual distinction from maturity and ripeness in the experiment. However, this is because the human visual sense is a judgment value considering the shape and form, .

Therefore, it is desirable to judge maturity and ripeness as one stage and to separate cooking steeply into separate color values as a separate step, instead of dividing the ripening stage, ripening stage and ripening stage separately.

Based on the above results, it is shown in Fig. 12 that the classification of the change of the color value in the step of maturing of the body of 40 cm or more is specified. Fig. 12 shows changes in color values of a fish body of 40 cm or more according to the stages of maturing of testicles. According to the result of FIG. 10, the maturity and ripeness are set as one step, the posterior and the recovery stages are separated into separate steps, and the coordinates (-5, -1) , The inside of the ellipse area passing through the three points of (6, 1), (14, 2) and the inside of the ellipse area passing through the three points of (0.6, 1.2), (13, It is judged appropriate to judge the color value as mature or ripe stage.

The color values included in the inside of the elliptical region passing through the three points of (-1.2, -7), (4.3, -10), and (0,9) 10, -0.5) and (-2.6, 2), it is judged to be appropriate to judge the color value included in the inside of the elliptical region as the recovery step.

In other words, in the case of the testimony of the Cyrillic fish, maturity and ripeness have the same color value distribution as the result of color value, so it is not possible to distinguish the ripening stage. However, considering the color change period as the monthly change value, It can be easily distinguished.

From the above results, we measured the body length of the caught fish ( P. argentata ), discriminated the male and female, and cut out the abdomen to extract the digital image value CIE 1976 L * a * b * or CIE XYZ or xy value of the gonad It was possible to judge the stage of maturation of the gonads by the digital image value.

However, it is preferable that the maturity level of the gonorrheal gonads is measured in the case where the measured value of the gonorrhea is not less than 40 cm. In the case of ovaries and testes, the maturation stage of the gonads is preferably determined in consideration of not only the color value but also the monthly value Do.

These results suggest that gonadal index (GSI), liver weight index (HSI), obesity index (CF), or gonadal histological analysis should be performed after gonad We can reduce the time and effort of the current spawning season estimation method and estimate the spawning season more easily than the non - trader, so that it can be practically applied to the setting of the snooze policy and the prohibition of capturing quickly based on the results of spawning and maturation.

In order to estimate the spawning season of fisheries resources, a method using a gonadosomatic index (GSI), a hepasotomatic index (HSI), a condition factor (CF) and a method of histological analysis of gonads However, it takes a lot of time, money, and effort to study the spawning season of about 1,100 species of fish in Korea, and histological analysis methods are trends in the field of dirty, dangerous, and difficult , The present invention can determine the maturity of the germ of the fishery resources by simple colorimetry and thus the fishery resources can be used industrially.

Claims (7)

delete delete delete Measuring the length of the caught fish ( Miichthys miiuy ) to determine whether the measured length is over 40 cm and the male and female numbers; In the case of a medium of 40 cm or more, the abdomen is cut to extract the digital image value of the gonad, and the maturation stage of the gonad is judged by the extracted digital image value,
If the maturation stage of the gonads is ovary, the CIE 1976 L * a * b * value is surrounded by the coordinates (7, -10), (0, -7), (8.5, -1.7) The color values distributed in the direction of the first quadrant of the above four points out of the four points are read in the recovery step and the lower left quadrant of the straight line passing through (0, -7), (6, -10) ( Miichthys miiuy ) gonadal maturation determination method according to claim 1,
Measuring the length of the caught fish ( Miichthys miiuy ) to determine whether the measured length is over 40 cm and the male and female numbers; In the case of a medium of 40 cm or more, the abdomen is cut to extract the digital image value of the gonad, and the maturation stage of the gonad is judged by the extracted digital image value,
The determination of the maturation stage of the gonads is performed in the case of a testimony that the CIE 1976 L * a * b * values are within the elliptical region passing through the three points of coordinates (-5, -1), (6,1), (14,2) (-1.2, -7), (-), (-), and (-) are obtained by determining the color values contained in the inside of the ellipse region passing through the three points of (0.6, 1.2) (-2.5, -1), (10, -0.5), (-2.6, 2), and (3) the color values included in the inside of the elliptical region passing through the three points of ) Is judged to be a recovery step. The method according to claim 1, wherein the color value included in the inside of the elliptical region passing through the three points of the Miichthys miiuy gonad
Catching fish ( Miichthys miiuy ) were sampled to determine whether the body length was 40 cm or more and male and female. The glandular abdomen of 40 cm or more was cut to extract the digital image value of the gonorrhea, Determining a step,
The maturation stage of the gonads is determined by the CIE 1976 L * a * b * value of the ovary color values measured in the 7-8 month fishing time, and the coordinates (0, 5), (15, (-2, -10), and (5, -8), which are measured in October, are distributed in the plane surrounded by the diagonal vertices. (15, -5) (0, 5) are distributed on the plane surrounded by the diagonal vertices, it is judged to be the recovery stage. ( Miichthys < RTI ID = 0.0 > miiuy ) Gonadal maturity determination method
Catching fish ( Miichthys miiuy ) were sampled to determine whether the body length was 40 cm or more and male and female. The glandular abdomen of 40 cm or more was cut to extract the digital image value of the gonorrhea, Determining a step,
The maturation stage of the gonorrhea is the testimony color value of Creean (-5, -1), (6, 1), (6), and 14, 2) and the color values contained in the inside of the elliptical region passing through the three points of (0.6, 1.2), (13, -8), and (2.7, -4.6) , And the color values included in the inside of the elliptical region passing through the three points of (-1.2, -7), (4.3, -10), and (0,9) as the ovarian color values measured in October fishing And the color values contained in the inside of the elliptical region passing through the three points of (-2.5, -1), (10, -0.5), and (-2.6, 2) ( Miichthys < RTI ID = 0.0 > miiuy ) Gonadal maturity determination method

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