JP2013181018A - Method for preserving animal and plant or excavated cultural artifact - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a preserving method for obtaining animals and plants or cultural artifacts (hereinafter referred to as animals and plants or the like) preservable over a long period in which solidified matters after preserving treatment have a more dense structure and are not influenced by moisture, outside temperature or the like even in an ordinary temperature state, and conditions before the preserving treatment are not changed.SOLUTION: A preserving method includes: a step 1 of immersing animals and plants or the like into a water-soluble solvent made of 1 to 4C straight chain or branched alcohol and replacing the impregnated water of the animals and plants or the like with the water-soluble solvent; a step 2 of immersing the animals and plants or the like impregnated with the water-soluble solvent into a poorly water-soluble solvent obtained by adding water-insoluble aliphatic glycol to higher alcohol essentially composed of saturated alcohol having a melting point of 50 to 70°C, and replacing the impregnated water-soluble solvent of the animals and plants or the like with the poorly water-soluble solvent; and a step 3 of solidifying the animals and plants or the like impregnated with the poorly water-soluble solvent.

Description

  The present invention relates to an improvement in a preservation method using a higher alcohol for enabling long-term storage of excavated cultural relics in a state before excavation and for long-term preservation of animals and plants.

  In general, animals and plants and excavated cultural relics are the cultural heritage of mankind, and their preservation is extremely important for elucidating the changes in the lifestyle and environment of mankind. Therefore, it is desirable that animals and plants and excavated cultural relics be preserved for many years in the presence of them.

  By the way, animals and plants and excavated cultural relics are found on land, especially those excavated from the ruins of the ruins are usually buried in clay layers and mud layers, so that water is supersaturated. There is. The collected animals and plants also contain moisture.

  Therefore, the cultural remains after excavation, especially wooden relics, the cellulose, which is the main component, decomposes and flows out, and initially retains its appearance barely due to moisture, but as the drying progresses, it undergoes severe shrinkage and does not retain its original shape. Deforms about. In the case of animals and plants, they shrink as the drying progresses, and may be deformed so as not to retain the original shape.

  Therefore, as a method for maintaining the original shape of animals, plants and excavated cultural relics, a method of impregnating polyethylene glycol, a kind of water-soluble resin, with heat-dissolving, tertiary butyl alcohol and polyethylene glycol at a certain ratio After impregnating the mixture, a method of vacuum freeze-drying or a method of impregnating a higher alcohol solution has been employed.

  However, in the polyethylene glycol impregnation method, when polyethylene glycol is used near the melting temperature, there is a concern that it will undergo air oxidation over a long period of time and change to a low molecular weight one. In addition, since polyethylene glycol is water-soluble and absorbs moisture in the air, it may cause defects such as deformation and cracking in the one after the storage treatment, which is difficult to store.

  On the other hand, in the vacuum freeze-drying method, since polyethylene glycol is contained in the processed product in an amount of 50 to 60%, there is a similar problem with respect to storage stability.

  Therefore, there has been provided a method of using higher alcohol as a preservation method that is not affected by humidity even at room temperature, can significantly reduce the number of days of preservation treatment, and can retain the original form of animals and plants or excavated cultural relics for a long period of time.

  The present applicant has already provided a method of using the higher alcohol.

  That is, it is a preservation method of excavated cultural relics consisting of the following processes.

Immersing the excavated cultural relic in a water-soluble solvent comprising a linear or branched alcohol having 1 to 4 carbon atoms, and replacing the impregnated water of the cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent comprising a higher alcohol composition mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. containing two or more higher alcohols, a compound comprising only a saturated higher alcohol having 16 to 22 carbon atoms and an alkylene oxide, A cultural relic impregnated with the water-soluble solvent is immersed in the poorly water-soluble solvent added in an amount not exceeding the melting point range of the higher alcohol composition, and the impregnated water-soluble solvent of the cultural relic is replaced with the hardly water-soluble solvent. And a process of
Solidifying the cultural relics impregnated with a poorly water-soluble solvent;
A method for preserving excavated cultural relics characterized by comprising:

  Or it is the preservation method of the excavated cultural relic which consists of the following processes.

Immersing the excavated cultural relic in a water-soluble solvent comprising a linear or branched alcohol having 1 to 4 carbon atoms, and replacing the impregnated water of the cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent comprising a higher alcohol composition mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. containing two or more higher alcohols, a compound comprising only a saturated higher alcohol having 16 to 22 carbon atoms and an alkylene oxide, A cultural relic impregnated with the water-soluble solvent is immersed in the poorly water-soluble solvent to which an amount not exceeding the melting point range of the higher alcohol composition is added, and the water-soluble solvent impregnated with the cultural relic is at least 40% water-insoluble. A step of substituting with an organic solvent
Freezing and drying a cultural relic impregnated with a water-soluble solvent and a poorly water-soluble solvent under vacuum;
A method for preserving excavated cultural relics characterized by comprising:
(For example, refer to Patent Document 1).

Japanese Patent No. 4634517

  By the way, when preserving animals and plants or excavated cultural relics according to existence conditions, altered states, thicknesses, and materials, it is necessary to carefully select the treatment conditions and apply a method according to the object to be treated.

  Even in a method using a higher alcohol, further efforts are required to allow the higher alcohol to penetrate into the details of the structure of the object to be treated and to minimize deformation and cracking due to crystallization during solidification.

  The present invention has been made paying attention to such an actual situation, and in a method of using higher alcohols such as the invention described in Patent Document 1 as a preservation method of excavated remains, the solidified product after the preservation treatment is more Preservation method for obtaining animals and plants or cultural relics that have a fine structure, are not affected by humidity, external temperature, etc. even at room temperature, and can be preserved for a long period of time without changing the state before the preservation treatment (described in Patent Document 1 above) It is an object of the present invention to provide a method for improving the storage method.

In order to achieve the above object, a method for preserving animals and plants or excavated cultural relics according to claim 1 of the present invention comprises:
A step of immersing the animal or plant or the excavated cultural relic in a water-soluble solvent composed of a linear or branched alcohol having 1 to 4 carbon atoms to replace the impregnated water of the animal or plant or cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent obtained by adding an animal or plant or cultural relic impregnated with a water-soluble solvent to a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol that is soluble in the higher alcohol and insoluble in water. Soaking and replacing the impregnated water-soluble solvent of animals and plants or cultural relics with a poorly water-soluble solvent;
Solidifying a plant or animal or cultural relic impregnated with a poorly water-soluble solvent;
It is characterized by comprising. Hereinafter, this storage method is abbreviated as storage method 1 for convenience.

The method for preserving animals and plants or excavated cultural relics according to claim 2 is as follows:
A step of immersing the animal or plant or the excavated cultural relic in a water-soluble solvent composed of a linear or branched alcohol having 1 to 4 carbon atoms to replace the impregnated water of the animal or plant or cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent obtained by adding an animal or plant or cultural relic impregnated with a water-soluble solvent to a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol that is soluble in the higher alcohol and insoluble in water. Soaking and replacing the impregnated water-soluble solvent of animals and plants or cultural relics with at least 40% with a poorly water-soluble solvent;
A step of freezing and drying a plant or animal relic impregnated with a water-soluble solvent and a poorly water-soluble solvent under vacuum, and drying;
It is characterized by comprising. Hereinafter, this storage method is abbreviated as storage method 2 for convenience.

  In the above preservation methods 1 and 2, in the step of immersing animals and plants or cultural relics in a poorly water-soluble solvent, a higher alcohol mainly composed of saturated alcohol having a melting point of 50 to 70 ° C. is soluble in the higher alcohol and water-insoluble. It is necessary to use a poorly water-soluble solvent to which an aliphatic glycol is added depending on the state of animals and plants or cultural relics.

  For example, when a fragile or embrittled material is processed at a high temperature, deformation, shrinkage and the like are likely to occur. Moreover, although a thing with a comparatively good state can be processed at a comparatively high temperature, the treatment with a higher alcohol having a melting point of 70 ° C. or more tends to cause shrinkage deformation due to the nature of animals and plants or cultural relics. In addition, when a higher alcohol having a melting point of 50 ° C. or lower is used, the preserved product is easily affected by the external temperature.

  Therefore, in order to achieve the object of the present invention, a higher alcohol mainly composed of a saturated higher alcohol having a melting point of 50 to 70 ° C., and a soluble and water-insoluble in the higher alcohol, depending on the state of animals, plants and cultural relics. It is optimal to use a mixed composition comprising an aliphatic glycol.

  Furthermore, when a composition comprising a higher alcohol, which is a poorly water-soluble solvent and an aliphatic glycol, is solidified in animals and plants or cultural relics, it prevents the formation of larger crystals under temperature conditions as much as possible and prevents crack deformation. Considering this fact, it is desirable to use a higher alcohol having a melting point in the range of 50 to 70 ° C.

In the present invention, the higher alcohol having a melting point of 50 to 70 ° C. is one having 16 to 22 carbon atoms,
Cetyl alcohol 70 (melting point 51-54 ° C., C16 alcohol 70-75%, C18 alcohol 25-30%)
Cetyl alcohol 50 (melting point 52-55 ° C., C16 alcohol 50-55%, C18 alcohol 45-50%)
Stearyl alcohol (melting point 57.5-59.5 ° C., C16 alcohol 20% or less, C18 alcohol 80-90%)
・ Behenyl alcohol 65 (melting point 65-70 ° C., C22 alcohol 65-70%, C20 alcohol 20% or less, C18 alcohol 20% or less)
・ Cetostearyl alcohol (melting point: 54 to 56 ° C., C16 alcohol: 45 to 55%, C18 alcohol: 45 to 65%)
Etc. are typical ones.

The aliphatic glycol added to the higher alcohol having a melting point of 50 to 70 ° C. and having 16 to 22 carbon atoms is soluble in the higher alcohol and insoluble in water, and has 8 to 12 carbon atoms, and has a molecular weight. Is smaller than the molecular weight of the higher alcohol. For example, it is as follows.
Decanediol (1.10) M, W (molecular weight) = 174.28
Octanediol (1.8) M, W (molecular weight) = 146.23
Dodecanediol M, W (molecular weight) = 202.33
Dodecanediol (1.2) M, W (molecular weight) = 202.33
Nonanediol (1.9) M, W (molecular weight) = 160.26
Decanediol (1.2) M, W (molecular weight) = 174.23
In the present invention, an aliphatic glycol having 8 to 12 carbon atoms as described above was added as a poorly water-soluble solvent within the melting point range of the higher alcohol having 16 to 22 carbon atoms at the melting point of 50 to 70 ° C. By using a mixed composition (maintained so as not to exceed), it is possible to further fill a minute portion of the tissue of animals and plants or cultural relics with a poorly water-soluble composition, and further improve the fineness of the crystal and the dimensional stability. It is effective for preserving a wide range of animals and plants or cultural relics.

  The mixed composition has a specific composition (% by weight) of 5 to 50% aliphatic glycol having 8 to 12 carbon atoms with respect to 50 to 95% higher alcohol having 16 to 22 carbon atoms. is there.

  The replacement ratio of the water-soluble solvent and the hardly water-soluble solvent in the preservation method 2 of the present invention is such that the water-soluble solvent impregnated first is replaced with at least about 40% of the hardly water-soluble solvent to be impregnated later. It is sufficient, preferably about 40 to 60%, particularly about 50%.

  In addition, in storage methods 1 and 2, a fibrous alkyl ether or polyvinyl butyral resin soluble in a composition comprising a higher alcohol having 16 to 22 carbon atoms and an aliphatic glycol having 8 to 12 carbon atoms, which is a poorly water-soluble solvent. Antibacterial agents, antifungal agents, ant-proofing agents, coloring agents and the like can be added.

  Furthermore, the animals and plants referred to in the present invention are all the animals and plants that are generally referred to. In addition, cultural relics include various ruins, products excavated from ancient tombs (wood pieces, round wooden boats, wooden utensils, etc.), metal products (circular mirrors, bronze baskets, swords, fishhooks, ironware, etc.), earthen products (earthenware, etc.) Included are various relics such as textiles, human bones, animal bones, etc.) and animals and plants excavated items (leaves, textiles, fruits, seeds, hemp, silk, lacquer coatings, etc.).

  According to the present invention, compared with the preservation method described in Patent Document 1, the solidified product (animals and plants or cultural relics after the preservation treatment) has a finer structure, and can be used for a wider range. The treated plants and animals or cultural relics can be preserved for a long period of time without changing the pre-treatment state due to the influence of humidity, external temperature, and the like.

  In addition, since the composition comprising a higher alcohol and an aliphatic glycol, which are poorly water-soluble solvents at the time of solidification, has a fine structure, animals and plants or cultural relics after treatment do not absorb moisture in the storage environment, Does not cause problems such as changes and cracks.

  Furthermore, animals and plants or cultural relics having such features can be obtained by a shorter time treatment.

It is a figure which shows the process of the preservation | save method 1 of this invention. It is a figure which shows the process of the preservation | save method 2 of this invention.

  Hereinafter, the present invention will be described in more detail with reference to embodiments.

  In FIG. 1 which shows the preservation method 1, first, in step 1, animals and plants or excavated cultural relics are soaked in a water-soluble solvent composed of linear (saturated) or branched alcohol having 1 to 4 carbon atoms, The impregnated water is replaced with a water-soluble solvent. By this step 1, an animal or plant or a cultural relic in which moisture contained in the supersaturation in the animal or plant or a cultural relic is replaced with a water-soluble solvent is obtained.

  In the next step 2, an animal or plant or cultural relic impregnated with a water-soluble solvent is mixed with a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol that is soluble in the higher alcohol and insoluble in water. It is immersed in the added poorly water-soluble solvent, and the impregnated water-soluble solvent of animals and plants or cultural relics is replaced with the poorly water-soluble solvent to obtain animals and plants or cultural relics in which the water-soluble solvent and the hardly water-soluble solvent are completely replaced. However, when a poorly water-soluble solvent is used, a solvent that is dissolved at a predetermined temperature corresponding to the melting point is used.

  In the last step 3, if the animal or plant or cultural relic impregnated with the poorly water-soluble solvent is cooled and solidified in air at normal temperature and normal pressure, the animal or plant or cultural relic after the preservation treatment by the preservation method 1 is obtained. .

  Next, in FIG. 2 which shows the preservation method 2, in step 1, animals and plants or excavated cultural relics are immersed in a water-soluble solvent composed of a linear (saturated) or branched alcohol having 1 to 4 carbon atoms, and the plants, animals, or cultures are immersed. Replace the impregnated water with a water-soluble solvent. By this step 1, an animal or plant or a cultural relic in which moisture contained in the supersaturation in the animal or plant or a cultural relic is replaced with a water-soluble solvent is obtained.

  In step 2, an animal or plant or cultural relic impregnated with a water-soluble solvent was added to a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol soluble in the higher alcohol and water-insoluble. Immerse in a poorly water-soluble solvent to replace the impregnated water-soluble solvent of animals and plants or cultural relics by at least 40% with the hardly water-soluble solvent.

  In step 3, if the animal or plant or the cultural relic impregnated with the water-soluble solvent and the poorly water-soluble solvent is frozen and dried under vacuum, only the water-soluble solvent evaporates and disappears from the animal or plant or cultural relic. Animals and plants or cultural relics that have been preserved by the above method are obtained.

  The storage method 1 will be described with a specific example. However, in the first embodiment, a case where a piece of wood as an excavated relic discovered from a ruin is processed will be described as an example.

  First, in step 1, a piece of wood is placed in methanol (methyl alcohol), which is a water-soluble solvent, and immersed for 1 to several days. During soaking, all the water in the wood pieces is replaced with methyl alcohol. Thereby, a piece of wood in which the moisture contained in the piece of tissue is completely substituted with methyl alcohol is obtained.

  As the water content in the wood pieces is leached into methyl alcohol during the above immersion, the concentration of methyl alcohol decreases, so that the specific gravity is appropriately measured and replaced with new methyl alcohol several times in the middle.

  Thereafter, as a pretreatment in the next step 2, methyl alcohol which is a lower alcohol, stearyl alcohol which is a higher alcohol (C18 / 90%, C16 / 10%) 90% and decanediol (1.10) 10% The mixed composition (melting point: 58.2 ° C.) is put in a thermostat, and a piece of wood is put in a thermostat kept at 60 ° C. and immersed for several days. In this next pretreatment, in the next step 2, when the wood pieces are immersed in a composition comprising a higher alcohol as a poorly water-soluble solvent and an aliphatic glycol, the concentration difference from methyl alcohol, which is a lower alcohol contained in the wood pieces, This is to prevent cracks and shrinkage due to molecular weight differences.

  In the next step 2, in a thermostat, a mixed composition of 90% stearyl alcohol (C18 / 90%, C16 / 10%) and decanediol (1.10) 10%, which is a higher water-soluble solvent. (Melting point: 58.2 ° C.) is dissolved at 62 ° C., and a piece of wood is immersed in a material kept at 62 ° C. and left for several days. Thereby, the methyl alcohol in a piece of wood is completely substituted with the composition which consists of stearyl alcohol and decanediol. After the replacement, remove the piece of wood from the thermostat.

  In step 3, a cultural relic (wood piece) preserved by preservation method 1 is obtained by cooling and solidifying the wood piece at room temperature. The cultural relics processed in this way retain their original form before excavation and can be preserved semi-permanently without deformation. Further, the processed cultural relic has reversibility necessary for the preservation processing of this type of cultural relic.

  In addition, as in Example 1, a treated product (1) after a storage treatment using a composition comprising stearyl alcohol, which is a higher alcohol, and decanediol, which is an aliphatic glycol, as a poorly water-soluble solvent; The treated product (2) after storage treatment using only stearyl alcohol (C18 / 90%, C16 / 10%) as an organic solvent was compared.

  That is, in the treated products (1) and (2), the tangential, radial, and longitudinal dimensional changes of the wood pieces after the preservation treatment were compared with those after treatment and one month after treatment.

[Dimensional change]
Processed material Tangent direction Radial direction Longitudinal direction (1) 1.2% 0.2% 0%
(2) 2.0% 1.7% 0%
Accordingly, the dimensional change in the tangential direction and the radial direction of the processed product (1) stored by the storage method 1 is smaller than that of the processed product (2) stored by the storage method described in Patent Document 1. I understand.

  The storage method 2 will be described with a specific example. However, also in Example 2, a case where a piece of wood as an excavated relic discovered from a ruin is processed will be described as an example.

  The storage method 2 is substantially the same as the storage method 1 up to the intermediate steps. That is, first, in Step 1, a piece of wood is immersed in tertiary butyl alcohol, which is a kind of lower alcohol as a water-soluble solvent, for 1 to several days, and the water content in the piece of wood is completely replaced with tertiary butyl alcohol. As in the preservation method 1, since the concentration of tertiary butyl alcohol is lowered by the moisture of the wood pieces during the immersion, the specific gravity is appropriately measured and replaced with new tertiary butyl alcohol.

  Similar to preservation method 1, as pretreatment in the next step 2, tertiary butyl alcohol, which is a kind of lower alcohol, stearyl alcohol (C18 / 90%, C16 / 10%), 90%, and decane are used as a poorly water-soluble solvent. A mixed composition of 10% diol (1.10) (melting point: 58.2 ° C.) is placed in a thermostat, melted at 62 ° C., and a piece of wood is placed in what is kept at 62 ° C. for several days. This pretreatment prevents cracks and shrinkage of the wood pieces due to the difference in concentration and molecular weight between tertiary butyl alcohol and higher alcohol, which is a poorly water-soluble solvent, in the next step 2.

  In step 2, stearic alcohol (C18 / 90%, C16 / 10%) 90% and decanediol (1.10) 10% mixed composition (melting point 58.2 ° C.) as a hardly water-soluble solvent in a thermostat. Put it in, melt at 62 ° C., and immerse the pieces in a piece kept at 62 ° C. for several days. Here, when the tertiary butyl alcohol contained in the wood pieces is replaced with about 50% of the composition comprising stearyl alcohol and decanediol, the immersion is finished and the wood pieces are taken out.

  In step 3, after rapidly freezing the wood pieces in a freezer, the wood pieces are dried using a vacuum freeze-drying apparatus. As a result, all the tertiary butyl alcohol remaining in the piece of wood disappears, but the composition comprising stearyl alcohol and decanediol remains in the wood piece structure because it is a hardly sublimable solid.

  As the drying progresses, the piece of wood solidifies, and finally a cultural relic (wood piece) preserved by preservation method 2 is obtained. The cultural relics processed by this preservation method 2 can be permanently preserved while retaining the original form before excavation.

  In the third embodiment, a storage process in which the storage method 1 is applied to a rice variety (turtle tail) that has been harvested and harvested 7 days later will be described.

  First, in step 1, one rice plant (turtle tail) is placed in methyl alcohol, which is a water-soluble solvent, and immersed for several days. During dipping, all water in the rice is replaced with methyl alcohol. Thereby, the rice in which the water content in the rice tissue is completely replaced with methyl alcohol is obtained.

  As the water content in the rice leaches into methyl alcohol during the soaking, the concentration of methyl alcohol decreases. Therefore, the specific gravity is appropriately measured, and exchanged with new methyl alcohol several times in the middle.

  After that, as pre-processing in the next step 2, methyl alcohol as a water-soluble solvent and stearyl alcohol as a higher alcohol (C18 / 90%, C16 / 10%, melting point 60.5 ° C.) 80% and aliphatic glycol A mixed composition (melting point: 57.7 ° C.) composed of 20% of an octanediol (1.8, melting point: 62 ° C.) is put in a thermostat, rice is put in one kept at 60 ° C., and immersed for several days. The reason for performing this preprocessing is as described above.

  In the next step 2, in a thermostat, a mixed composition comprising 80% stearyl alcohol (C18 / 90%, C16 / 10%), which is a higher alcohol as a poorly water-soluble solvent, and 20% octanediol (1.8). Dissolve the product (melting point 57.7 ° C.) at 63 ° C., immerse the pretreated rice in the one kept at 62 ° C., and leave it for several days. As a result, methyl alcohol in the rice is completely replaced with a composition comprising 80% stearyl alcohol and 20% octanediol, which are poorly water-soluble solvents. After the replacement, the rice is removed from the thermostatic chamber.

  In step 3, the processed product (rice) preserved by preservation method 1 is obtained by cooling and solidifying the rice at room temperature. The rice thus treated retains its original form before treatment and can be stored semi-permanently without deformation. In addition, the treated rice has reversibility necessary for storage treatment.

  Regarding the dimensional stability, the length of the portion along the leaf vein (the portion in the vein direction) 10 cm from the tip of the leaf of 10 leaves and the length of the portion perpendicular to the leaf vein (the portion in the lateral direction) were measured. The value was compared with the value obtained by measuring the length of the same position in the treated rice. After the treated rice is treated (1), the treated product (1) is stored using only stearyl alcohol (C18 / 90%, C16 / 10%) as a poorly water-soluble solvent. Similarly, in the processed product (2), the measurement was performed before and after the processing, and the dimensional change before and after the processing of the processed products (1) and (2) was compared.

[Dimensional change]
Processed material Leaf vein direction Lateral direction (1) 0.01% 0.1%
(2) 0.015% 0.2%
Accordingly, the processed product (1) stored by the storage method 1 has smaller dimensional changes in the vein direction and the lateral direction than the processed product (2) stored by the storage method described in Patent Document 1. I understand.

  In the fourth embodiment, a storage process in which the storage method 1 is applied to a female edible shark having a total length of 98 cm will be described.

  First, in step 1, an edible shark having a total length of 98 cm is placed in methyl alcohol, which is a water-soluble solvent, and immersed for several days. During dipping, all the water in the edible shark is replaced with methyl alcohol. As a result, an edible shark with all the moisture contained in the edible shark tissue substituted with methyl alcohol is obtained.

  As the water content in the edible shark leaches into methyl alcohol during the immersion, the concentration of methyl alcohol decreases. Therefore, the specific gravity is appropriately measured and replaced with new methyl alcohol several times along the way.

  After that, as pretreatment in the next step 2, water-soluble solvent methyl alcohol and higher alcohol stearyl alcohol (C18 / 90%, C16 / 10%, melting point 60.5 ° C.) 90% and aliphatic glycol A mixture of decanediol (1.10, melting point 75.1 ° C.) and 10% (melting point 60.1 ° C.) is placed in a thermostat, dissolved at 65 ° C. and kept at 63 ° C. And soak for several days. The reason for performing this preprocessing is as described above.

  In the next step 2, in a thermostatic chamber, a mixed composition comprising 90% stearyl alcohol (C18 / 90%, C16 / 10%) and decanediol (1.10) 10% as a slightly water-soluble solvent. A product (melting point: 60.1 ° C.) is dissolved at 65 ° C., and the pretreated edible shark is immersed in a solution maintained at 63 ° C. and left for several days. As a result, methyl alcohol in the edible shark is completely replaced with a composition comprising stearyl alcohol and decanediol (1.10), which are poorly water-soluble solvents. After replacement, remove the edible shark from the thermostat.

  In step 3, the processed product (edore shark) preserved by the preservation method 1 is obtained by cooling and solidifying the edible shark at room temperature. The edible shark treated in this way retains its original shape before processing and can be stored semi-permanently without deformation. The treated edible shark has reversibility necessary for the preservation process.

  Regarding the dimensional stability, the total length before and after the treatment (1) treated by the storage method 1 was measured, and the dimensional change before and after the treatment was calculated.

  The following processed product (2) was prepared as a comparison target of the processed product (1).

  A female edible shark having a total length of 96 cm is immersed in methyl alcohol, which is a water-soluble solvent, for several days. After that, as a pretreatment, a mixture of methyl alcohol and stearyl alcohol (C18 / 90%, C16 / 10%, melting point 60.5 ° C) was dissolved at 63 ° C in a thermostat and kept at 62 ° C. Put the edible shark in and immerse it for several days.

  Next, only stearyl alcohol (C18 / 90%, C16 / 10%, melting point 60.5 ° C.) was dissolved at 65 ° C. in an incubator, and the pre-treated edible sharks were kept for several days in 63 ° C. Immerse. After methyl alcohol in the edible shark is completely replaced with stearyl alcohol, the edible shark is taken out of the incubator, cooled and solidified at room temperature.

  Thereby, the processed material (2) after a preservation | save process using only stearyl alcohol (C18 / 90%, C16 / 10%) as a slightly water-soluble solvent is obtained. For this processed product (2), the total length before and after the treatment was measured, the dimensional change before and after the treatment was calculated, and the dimensional change before and after the treatment of the treated products (1) and (2) was compared.

[Dimensional change]
Processed item Overall length (1) 0.14%
(2) 0.25%
From this, it can be seen that the processed product (1) stored by the storage method 1 has a smaller dimensional change in the overall length than the processed product (2) stored by the storage method described in Patent Document 1.

Claims (5)

A step of immersing the animal or plant or the excavated cultural relic in a water-soluble solvent composed of a linear or branched alcohol having 1 to 4 carbon atoms to replace the impregnated water of the animal or plant or cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent obtained by adding an animal or plant or cultural relic impregnated with a water-soluble solvent to a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol that is soluble in the higher alcohol and insoluble in water. Soaking and replacing the impregnated water-soluble solvent of animals and plants or cultural relics with a poorly water-soluble solvent;
Solidifying a plant or animal or cultural relic impregnated with a poorly water-soluble solvent;
A method for preserving animals and plants or excavated cultural relics, characterized by comprising: A step of immersing the animal or plant or the excavated cultural relic in a water-soluble solvent composed of a linear or branched alcohol having 1 to 4 carbon atoms to replace the impregnated water of the animal or plant or cultural relic with a water-soluble solvent;
To a poorly water-soluble solvent obtained by adding an animal or plant or cultural relic impregnated with a water-soluble solvent to a higher alcohol mainly composed of a saturated alcohol having a melting point of 50 to 70 ° C. and an aliphatic glycol that is soluble in the higher alcohol and insoluble in water. Soaking and replacing the impregnated water-soluble solvent of animals and plants or cultural relics with at least 40% with a poorly water-soluble solvent;
A step of freezing and drying a plant or animal relic impregnated with a water-soluble solvent and a poorly water-soluble solvent under vacuum, and drying;
A method for preserving animals and plants or excavated cultural relics, characterized by comprising:   The animal or plant or excavated culture according to claim 1 or 2, wherein the hardly water-soluble solvent is a mixed composition of a higher alcohol having 16 to 22 carbon atoms and an aliphatic glycol having 8 to 12 carbon atoms. How to save relics.   The animal or plant or excavated cultural relic according to claim 3, wherein the mixed composition is a mixture of aliphatic glycols having 8 to 12 carbon atoms within a melting point range of higher alcohols having 16 to 22 carbon atoms. How to save.   The mixed composition is a composition of 5 to 50% aliphatic glycol having 8 to 12 carbon atoms with respect to 50 to 95% of higher alcohol having 16 to 22 carbon atoms. Item 4. A method for preserving animals and plants or excavated cultural relics according to Item 4.

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