RU2596498C1 - Method of non-invasive lifetime estimation of physiological state of fish - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: invention relates to ecology and can be used for non-invasive lifetime estimation of physiological condition of fishes at changing the colour of skin. For this purpose is photographed one of the functional elements of fish body at a natural lighting, obtaining colour image of this element (fin) and carry out determination of colour coordinates in the selected colour model of space L*a*b. Obtained image is transformed using colour profile generated for these lighting conditions by means of colour scale X-rite ColorCheker Passport and is stored in TIFF 16 bits per channel. In space L*a*b is performed measurement of the colour coordinates, averaged over the entire surface of the fin in the channel *a, the received values are compared with values of the norm, defined for this type of fish, season, area. At that the values exceeding indicators of norm, indicate a disease state of the investigated animal, transferring of a stress by it.

EFFECT: invention allows to carry out the non-invasive intravital monitoring of state of fishes.

1 cl, 1 ex

Description

The invention relates to the issues of biological monitoring of the state of the environment, fish farming, as well as population ichthyology, namely to research using optical means, in particular to the field of measuring the color of the surface of objects, and can find application in various fields where objective determination of the color of the surface of biological objects, including biological monitoring of the state of the environment, fish farming and aquarium (in determining the state of the organism of adults), with The behavior of the quality control of food products, etc.

A known method for assessing the fish-breeding quality of eggs of sturgeon females described in application No. 2008152495 by class. A01K 61/00, application 29.12.08, publ. 07/10/10.

A known method for assessing the fish breeding quality of eggs of sturgeon females is carried out by the content of carotenoids in the tissues and is characterized in that the specific content of carotenoids in the gonads of mature females is determined and, when their values are in the range of 44.6-58.6 μg / g of raw tissue, eggs are evaluated as suitable for fish breeding purposes.

However, since the application did not become a patent, it is difficult to evaluate the essence of the method, its advantages and disadvantages.

A known method of measuring color (see Judd D., Vyshecki G. Color in science and technology. - M.: Mir. - 1978. - S. 249-251) on photoelectric colorimeters by determining the color coordinates of the sample by the addition functions of the MCO 1931 g.

This method involves fine-tuning three photocells or photomultipliers so that their sensitivity is proportional to the entire visible spectrum, for example, the addition functions of the MCO 1931. Moreover, if the exact reproduction of the functions of the MCO addition is obtained, then the reaction of the photomultipliers when measuring the color of the test sample should correspond to the reaction of the reference sample, in this case, a conclusion is drawn about the uniformity of the test sample and the reference sample relative to the standard observer.

The disadvantage of this method is its complexity due to the use of photocolorimeters, the need for fine adjustment.

The closest in technical essence to the claimed is a method for determining the number of carotenoids in the muscles of salmon fish using the photographic method presented in the article by Yavuz Yagiz, Hordur G. Kristinsson, Murat O. Balaban, Brace A. Welt, Sivakumar Raghavan, Maurice R. Marshal “Correlation between astaxanthin amount and a * value in fresh Atlanticsalmon (Salmo salar) muscle during different irradiation doses” // Food Chemistry 120 (2010) 121-127 (see appendices to the application - Appendix 1 - original text, Appendix 2 - translation methodological part into Russian) and selected as a prototype.

The known method includes photographing with a digital camera a sample of muscles placed in a light box under standard lighting with D65 fluorescent lamps and determining color coordinates in L * a * b space.

The disadvantage of this method is as follows. To determine the state of the fish, it is required to separate the muscle of the fish (i.e., the method is invasive) and examine it, which naturally entails the death of the animal. In addition, the measurement requires the placement of the test sample in the device for measuring color, which complicates the research technique.

The task is to study the condition of the fish without harming its life and health while simplifying the use of the method in the field.

The problem is solved in that in the method of non-invasive intravital assessment of the physiological state of fish, which consists in examining one of the functional elements of the fish organism by photographing under conditions of standard lighting temperature by color temperature, obtaining a color image of this element, image conversion and determining color coordinates in the selected color model spaces L * a * b, according to the invention, as the studied functional element of the fish organism, its n an avalanche that is photographed under conditions of standard lighting temperature by color temperature converts the image using the color profile generated for these lighting conditions using the X-rite Color Cheker Passport color scale, then saves it in TIFF format 16 bits per channel, space L * a * b measure color coordinates averaged over the entire surface of the fin, then compare the coordinates of the channel * a with the value of the indicator for healthy fish, with values exceeding the norm, binding to a painful condition of the test animal, transferring them to stress.

The use of fish fin as the studied functional element of the body makes it possible to conduct a study of their condition non-invasively, preserving the animals' life and health without the need to place the test sample in a color measuring device, which simplifies the research method.

EFFECT: possibility of non-invasive monitoring of fish condition with simplification of research methodology.

The inventive method has a novelty, differing from the prototype by such significant features as the use of a fish fin as a functional element under study, photographing the fin in a standardized environment using flash lighting, converting the resulting image using a color profile generated for these lighting conditions using the X color scale -rite ColorCheker Passport, saving it in TIFF format 16 bits per channel, measuring color coordinates averaged over the entire surface fin in the space L * a * b, comparing them with the norm defined for a given species of fish, and assessing the condition of the fish, which together ensure the achievement of a given result.

The applicant is not aware of technical solutions that have the indicated distinguishing features, which together ensure the achievement of a given result, therefore, he believes that the claimed method meets the criterion of "inventive step".

The inventive method of non-invasive intravital assessment of the physiological state of fish can be widely used in biological monitoring of the environment, fish farming and aquarium (when assessing the state of the body of adults), when conducting quality control of food products, etc., and therefore meets the criterion of "industrial applicability ".

The inventive method of non-invasive intravital assessment of the physiological state of fish is based on determining the color of skin integuments, namely, fish fins, since it has been established that the color of fish fins is significantly dependent on the adverse effects of environmental factors (e.g., ionizing radiation) and infection with exoparasites.

The inventive method of non-invasive intravital assessment of the physiological state of fish is as follows.

One of the functional elements of the fish organism is examined by photographing it under illumination, obtaining a color image of this organ, and determining color coordinates in the selected color model of the L * a * b space. At the same time, the abdominal fin is used as the studied organ of the fish, photographing of which is carried out under conditions of standard lighting color temperature. The resulting image is then converted using the color profile generated for the given lighting conditions using the X-rite ColorCheker Passport color scale. The converted image is saved in TIFF format 16 bits per channel. In the space L * a * b, color coordinates are averaged over the entire surface of the fin. Further, the obtained values in the channel * a are compared with the norm values determined for a given fish species. Values in excess of normal values indicate the pathological condition of the animal being studied.

The method provides an assessment of the physiological state of fish without invasive intervention and placement of the test sample in a device for measuring color.

Almost non-invasive intravital assessment of the physiological state of fish with measuring the color of the surface of the fish fin is carried out using the proposed method as follows.

1. The fish is fixed on a surface with a neutral color (white paper, fabric, etc.) using pins or otherwise. The studied fin should be completely bent away from the body of the fish.

2. Using a digital camera, a color image is obtained in the ARW format (may have a different marking from other manufacturers, any 14 or 16-bit format is suitable - NEF, TIFF, DNG and others). The fin surface on which the measurement will take place must be uniformly exposed.

3. The color profile generated for the given lighting conditions (photographic flash, D55) using the X-rite Color Cheker Passport color scale is applied to the resulting image. Then save in TIFF format 16 bits per channel.

4. Next, the color coordinates of the sample are directly determined using the Adobe Photoshop software package: you need to select the fin entirely using any of the tools in the "selection" section, then use the Average filter to average the color over the entire surface of the fin and use the Color sample tool to measuring the color coordinate * a in the space L * a * b.

5. The obtained values in the channel * а are compared with the norm values (97.5% quantile for a sample of healthy fish from the control reservoir) determined for this fish species, season, and area. Values in excess of normal values indicate a painful condition of the animal under study, its stress.

Example 1

As a result of studies on fish from a radioactively contaminated river stream. Techa and watercourse comparison - p. Miass, found that the color of the ventral fins of fish caught in the river. Techa (average value 28.6 + 1.5) is significantly more saturated in the channel * a (X ² = 13.8, df = 1, p = 0.0002) than the color of the fins of fish from the control territory (average value 18.3 + 1.5). When analyzing the color of fish fins from both stations, the channel * values * of the ventral fins of fish infected with endoparasites - trypanosomes (average value 22.2 + 1.3) are significantly higher (X2 = 18.1, df = 1, p = 0.000021) than the values obtained in healthy fish (average value of 14.2 + 1).

The upper value of the norm of color saturation of the abdominal fins in the canal * was determined * for perches caught in the control area and not infected with endoparasites, which is equal to 25. Thus, perches with higher values of color saturation of the abdominal fin are in a pathological state or a state of severe stress.

To determine the physiological / pathological state of fish of other species, it is necessary to determine the limits of the norm by analyzing the color values of the fish fins from the control territory. Define the boundary of 97.5% quartile as a criterion of physiological norm. Values of an indicator greater than this can be interpreted as manifestations of a pathological condition in fish or a state of severe stress.

In comparison with the prototype of the inventive method allows you to examine the condition of the fish without harming its life and health while simplifying the use of the method in the field.

Claims (1)

The method of non-invasive intravital assessment of the physiological state of fish by changing the color of the skin, which consists in examining one of the functional elements of the fish’s body by photographing it under lighting, obtaining a color image of this organ and determining color coordinates in the selected color model of the L * a * b space, characterized in that as a functional element of the fish’s organism, its fin is used, photographing of which is carried out in natural light, and is transformed according to the radiated image, using the color profile generated for these lighting conditions using the X-rite ColorCheker Passport color scale, then save it in TIFF format 16 bits per channel, in the L * a * b space, color coordinates averaged over the entire fin surface are measured in the channel * a, the obtained values are compared with the norm values determined for a given species of fish, season, and terrain, while values exceeding the norm indicators indicate a painful condition of the animal under study, stress tolerance.