CN116686715B - Butterfly orchid tissue culture seedling cultivation method without carrying cymMV and ORSV - Google Patents

Abstract

The invention discloses a method for cultivating butterfly orchid tissue culture seedlings without carrying cymMV and ORSV, which comprises the following steps of screening tissue culture explants, inducing axillary buds of pedicel, inducing and screening adventitious buds of stem tips, inducing cluster buds, culturing the tissue culture seedlings and detecting the tissue culture seedlings. The invention combines the tissue culture propagation technology and the sensitive and reliable virus detection technology, establishes a reliable method for cultivating the butterfly orchid tissue culture seedlings without carrying the cymMV (Cymbidium mosaic virus, cymMV) and the dental annular spot virus (Odontoglossum ringspot virus, ORSV), blocks the propagation of the cymMV and the ORSV in the downstream production link of the butterfly orchid from a seed source, improves the quality of the butterfly orchid product, saves cultivation time, manpower and material resources and has high cultivation efficiency.

Description

Butterfly orchid tissue culture seedling cultivation method without carrying cymMV and ORSV

Technical Field

The invention relates to the field of plant propagation, in particular to a method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

The butterfly orchid (Phalaenopsis spp.) is a plant of Phalaenopsis (Orchidaceae) of orchid, which has rich and gorgeous flower color, unique flower shape and longer flower period, is a reputation of "Royal jelly" and is an important flower species for the whole year, and has important commercial value.

The individual plant property of the butterfly orchid plant is strong, tillers are rarely generated, and the butterfly orchid plant can be separated in the cultivation process. The butterfly orchid cultivated commercially is propagated by tissue culture, and the long-term asexual propagation causes serious virus accumulation, so that the variety characteristic is seriously degraded and the quality is reduced. Cymbidium mosaic virus (Cymbidium mosaic virus, cymv) and odontoglossum ringspot virus (Odontoglossum ringspot virus, ORSV) are two viruses that are serious and common in butterfly orchid and are the two most critical viruses affecting the development of the butterfly orchid industry. Most of the butterfly orchid tissue culture seedlings are infected with cymv and ORSV singly or in combination, so that the butterfly orchid potted plants produced later carry the cymv and the ORSV. After the butterfly orchid plant is infected by cymv and ORSV, yellow ring spots and streak spots can appear on the leaf respectively, and the flowers fade, so that the ornamental value is greatly reduced, and huge economic loss is caused, thereby severely restricting the development of the butterfly orchid industry in China.

A detoxication and rapid propagation technology of butterfly orchid in the prior art discloses a method and a rapid propagation way for carrying out detoxication of secondary butterfly orchid by combining a physical method with a chemical reagent through the steps of primary culture, stem tip elongation culture, detoxication culture, strong seedling, rooting culture and the like, wherein the method can obtain detoxified seedling, but the chemical reagent needs to have adverse effect on the growth of detoxified seedling, possibly causes plant variation and affects the ornamental character of butterfly orchid; in addition, the detoxification rate of the prior art is only 90%, and the situation that the tissue culture seedlings obtained after final cultivation still carry the CymMV and the ORSV exists in the method, so that when the tissue culture seedlings are put into use, virus detection is still required to be carried out on all the tissue culture seedlings in each batch, the cost is very huge, and the time, the materials and the manpower spent in the cultivation process of the tissue culture seedlings still carrying the CymMV and the ORSV after detection are wasted.

The method for constructing the butterfly orchid tissue culture seedling without carrying the cymMV and the ORSV has important significance for the quick and healthy development of the butterfly orchid industry in China. At present, no report of combining a tissue culture propagation technology and a sensitive and reliable virus detection technology exists in China, and a culture method of the butterfly orchid tissue culture seedlings without carrying cymMV and ORSV is established from the source screening of explants.

Disclosure of Invention

The invention aims at: aiming at the problem that the current butterfly orchid tissue culture seedlings carry serious cymv and ORSV, the butterfly orchid tissue culture seedling cultivation method without carrying cymv and ORSV is provided, the planting materials without carrying cymv and ORSV are screened layer by layer in each step for further cultivation, and finally, the cultivated tissue culture seedlings do not carry cymv and ORSV.

The technical scheme of the invention is as follows:

the butterfly orchid tissue culture seedling cultivation method without carrying cymMV and ORSV comprises the following steps:

Step 1 screening of tissue culture explants

Step 1.1, virus detection is carried out based on RT-PCR (Reverse transcription-polymerase chain reaction), namely, butterfly orchid plants with normal phenotype are selected, blades are used as materials, and RT-PCR is adopted to carry out CymMV and ORSV detection respectively;

And 1.2, carrying out virus detection based on qRT-PCR (Quantitative Real-time polymerase chain reaction), namely taking each stem segment which grows well and is on the negative plant of the RT-PCR detection result in the step 1.1, respectively adopting qRT-PCR to carry out CymMV and ORSV detection on the stem bracts of each stem segment, and using the stem segment corresponding to the stem bracts with the Cq value of more than or equal to 35 as a tissue culture explant. The bud bracts specifically refer to bracts covered on the outer sides of axillary buds of each bud node. The RT-PCR detection result is negative, and the electrophoresis detection of RT-PCR is carried out to detect the virus-free band.

Because the virus is distributed differently in different parts of the butterfly orchid plant, such as roots, leaves, pedicel and the like, the material used for virus detection also affects the accuracy of the virus detection result. All butterfly orchid tissue culture Miao Jun originates from the peduncle axillary buds inside the peduncle section, which are the most critical parts in the tissue culture explant. The outside of the axillary bud of the peduncles is covered with the peduncles, the growing positions of the peduncles and the peduncles are closely connected, the virus carrying condition is closest, but the tissue sample quantity of the peduncles is very limited. According to the application, firstly, leaves are used as materials, RT-PCR is used for detecting CymMV and ORSV, plants with negative detection results are obtained through preliminary screening, then qRT-PCR is carried out for taking out the stem bracts from the stem sections used as candidate explants to detect CymMV and ORSV, and under the condition of not damaging the axillary buds of the stems, the stem bract materials are fully utilized, the value of the limited stem bract materials is exerted, and the accuracy of the detection results is ensured.

The method comprises the steps of carrying out primary screening by RT-PCR, removing most plants with higher virus content, for the plants with RT-PCR showing no virus bands, not necessarily completely carrying the plants with CymMV and ORSV due to the limitation of visual acuity of naked eyes and the position reasons of sampling in the detection process, detecting the plants with RT-PCR showing no virus bands by qRT-PCR, respectively sampling the bud slices of each pedicel segment used as a candidate explant as detection materials, eliminating errors caused by sampling position difference, quantitatively displaying the virus content, avoiding detection errors from the sample itself, improving the detection precision from the detection method, integrally improving the accuracy of the detection result of the virus, and assisting in screening the tissue culture explant with extremely low virus content or no virus. The screening of the explants is used as the first step of the tissue culture seedling cultivation process, the subsequent cultivation result is obviously influenced, and the improvement of the screening accuracy of the explants has an important influence on obtaining a good cultivation result.

Step2, induction of axillary buds of pedicel

Sterilizing the tissue culture explant selected in the step 1, inoculating the tissue culture explant to a pedicel axillary bud induction culture medium, performing dark culture for 2 weeks, and then performing pedicel axillary bud induction in a low-light environment, wherein the pedicel axillary bud induction culture medium is 1/2MS+2.0-3.0 mg/L6-BA+0.2 mg/L NAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

Step 3, induction and screening of adventitious buds of stem tip

And 3.1, peeling stem tips of the strong axillary buds obtained by induction in the step 2, inoculating the stem tips on an adventitious bud induction culture medium, culturing in a dark manner for 2-3 weeks, and then transferring the culture medium into a weak light environment for culturing, wherein the adventitious bud induction culture medium is 1/2MS+1.5-3.0 mg/L TDZ+0.2mg/L NAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

And 3.2, detecting the CymMV and the ORSV of all the adventitious buds obtained by induction by adopting a double detection method, and selecting the adventitious buds with double negative detection results for induction of cluster buds. The "dual detection method" is to detect cymv and ORSV using both RT-PCR and qRT-PCR. The detection result is double negative, namely, the electrophoresis detection of RT-PCR has no virus strip, and the Cq value of the qRT-PCR detection result has no numerical value.

The RT-PCR judges whether viruses are carried or not by detecting whether virus bands exist or not through electrophoresis, belongs to semi-quantitative detection, and cannot represent that viruses are not contained under the condition that the fluorescence carried by the viruses is difficult to observe by naked eyes due to the fact that the virus content is too low. The qRT-PCR can quantitatively detect the virus content, the quantized data can assist in confirming whether plants without virus bands in the RT-PCR carry viruses, and based on the virus quantification, tissue culture intermediate propagation materials or tissue culture plants meeting the continuous culture requirement can be screened out in an assisted mode. Meanwhile, by adopting two virus detection methods to carry out virus detection, the result of the virus detection can be interactively verified, the contingency of the virus detection result is reduced, the reliability of the detection result is higher, and the success rate of cultivating the tissue culture seedlings without carrying the CymMV and the ORSV is improved.

After the operations based on step1, step 2 and step 3, tissue culture intermediate propagation material without carrying cymv and ORSV can be screened out. The probability that the cultivated tissue culture seedlings do not carry CymMV and ORSV can be further improved by breeding the tissue culture intermediate propagation material.

Step 4, induction of cluster buds

And (3) inoculating the adventitious buds obtained in the step (3) on a cluster bud induction culture medium, and inducing cluster buds in a weak light environment, wherein the cluster bud induction culture medium comprises 1/2MS+3.0-4.0 mg/L6-BA+0.2 mg/L NAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH value is 5.70.

Step 5, culturing the tissue culture seedlings

Dividing the cluster buds induced in the step 4 into single buds, and inoculating the single buds to a tissue culture seedling culture medium for culturing the tissue culture seedling, wherein the tissue culture seedling culture medium comprises Huabao+1/2MS+0.1-0.2 mg/L NAA+30g/L potato+1-2 g/L active carbon+25 g/L sucrose+7.0 g/L agar, and the pH value is 5.70.

Step 6, detecting the tissue culture seedlings

And (3) performing spot check on the tissue culture seedlings obtained in the step (5) according to the proportion of 10%, taking the leaves as materials, and adopting a double detection method to detect the CymMV and the ORSV, wherein the detection results of the spot check on the tissue culture seedlings are double negative, so that the batch of tissue culture seedlings can be used as the tissue culture seedlings without the CymMV and the ORSV for subsequent pot production.

Through the steps, in the process of selecting the explants in the step 1, RT-PCR and qRT-PCR are sequentially adopted to detect the CymMV and the ORSV, the explants with high virus content can be removed from the source, and the explants with extremely low virus content and even no virus are selected for further culture, so that the success rate of culturing the tissue culture seedlings without carrying the CymMV and the ORSV is improved. In the step 3, the adventitious buds cultured by the stem tip are detected by adopting a double detection method, and the adventitious buds which do not carry the cymv and the ORSV are selected for the next induction. And virus detection is carried out again in the cultivation process, a small amount of adventitious buds possibly carrying the CymMV and the ORSV are removed, and the probability that the cultivated tissue culture seedlings do not carry the CymMV and the ORSV is further improved. The culture process of the tissue culture seedlings is interfered for a plurality of times by means of virus detection, the culture of the tissue culture intermediate propagation material which does not meet the continuous culture requirement is stopped, only the tissue culture intermediate propagation material which meets the requirement is continuously cultured, and the waste of manpower, material resources and time is avoided and the culture efficiency is improved while the fact that the finally cultured tissue culture seedlings do not carry the CymMV and the ORSV is ensured.

According to a preferred embodiment, the low-light environment is at a temperature of 20-25 ℃, the illumination intensity is 5-10 mu mol-m ^-2·s^-1, the illumination time is 12 hours per day, and the air relative humidity is 40%.

According to a preferred embodiment, the method further comprises a step 7 of detecting viruses of plants in each growth stage, wherein detection of cymv and ORSV is carried out on the butterfly orchid tissue culture seedlings obtained by the method, the butterfly orchid tissue culture seedlings planted for 2 months and flowering plants respectively.

According to a preferred embodiment, the detection method of cymv and ORSV in the step 7 is that 30 plants are selected respectively for the butterfly orchid tissue culture seedling, the tissue culture seedling field planting 2 months old plant and the flowering plant obtained by adopting the method of the application, cymv and ORSV detection is carried out on the leaves of the butterfly orchid tissue culture seedling, the tissue culture seedling field planting 2 months old plant and the flowering plant by adopting the 'double detection method' in the step 3, the virus carrying rate of the plant is counted, and the virus carrying rate (%) = of the plant is carried by the number of plants/the number of detected plants multiplied by 100%.

According to a preferred embodiment, the plants carrying the virus in step 7 are those for which the electrophoresis detection of RT-PCR has a viral band or the Cq value of qRT-PCR has a numerical value in the detection of CymMV and ORSV.

Compared with the prior art, the invention has the beneficial effects that:

1. The butterfly orchid tissue culture seedling cultivation method without carrying the cymMV and the ORSV can obtain butterfly orchid tissue culture seedlings without carrying the cymMV and the ORSV in batches, provide reliable high-quality seed sources for the production of downstream butterfly orchid potted products, block the propagation of the cymMV and the ORSV in the downstream butterfly orchid production links from the seed sources, and improve the quality of butterfly orchid products;

2. the method for cultivating the butterfly orchid tissue culture seedlings without carrying the cymMV and the ORSV can be used for cultivating the butterfly orchid tissue culture seedlings without carrying the cymMV and the ORSV in batches by means of an accurate virus detection method and reliable steps only by means of a conventional operation method, has low operation requirements and high breeding efficiency, saves manpower, material resources and time, and provides a new idea for cultivating the butterfly orchid high-quality tissue culture seedlings.

Drawings

The arrow in FIG. 1 shows the bud bract covered outside the axillary bud of the pedicel node of the present application.

Detailed Description

The following examples facilitate a better understanding of the present invention. The test methods in the following examples are conventional methods unless otherwise specified. The test materials used in the examples below are all commercially available. The quantitative tests in the following examples were all set up in triplicate and the results averaged.

The preparation method of the culture medium of each embodiment is a conventional method, namely, the culture medium is prepared by mixing the components according to the content of the components according to the formula of the culture medium, regulating the pH to 5.70, and performing conventional disinfection and sterilization operation on the culture medium.

The features and capabilities of the present invention are described in further detail below in connection with examples.

Example 1 cultivation method of Phalaenopsis tissue culture seedlings without CymMV and ORSV

Step 1 screening of tissue culture explants

Selecting butterfly orchid plants with normal phenotype characters, taking leaves as materials, and respectively adopting RT-PCR to detect CymMV and ORSV;

And 1.2, carrying out virus detection based on qRT-PCR, namely taking each stem segment which grows robustly from plants with negative RT-PCR detection results (electrophoresis detection of RT-PCR does not have virus bands) in the step 1.1, and respectively adopting qRT-PCR to carry out CymMV and ORSV detection on the stem bracts of each stem segment, wherein the stem segment corresponding to the stem bracts with Cq value more than or equal to 35 can be used as a tissue culture explant. The bud bracts specifically refer to bracts covered outside axillary buds of each bud node, as shown by arrows in fig. 1. The line segments in the figure are scale bars and have a length of 5mm.

Step2, induction of axillary buds of pedicel

Sterilizing the pedicel node selected in the step 1 as a tissue culture explant, inoculating the pedicel node on a pedicel axillary bud induction culture medium, performing dark culture for 2 weeks, and then performing pedicel axillary bud induction in a dim light environment with the air relative humidity of 40% at 20 ℃ and the illumination intensity of 5 mu mol-m ^-2·s^-1 and the illumination time of 12 hours each day. The pedicel axillary bud induction culture medium is 1/2MS+2.0mg/L6-BA+0.2mg/L NAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

Step 3, induction and screening of adventitious buds of stem tip

And (3) peeling stem tips of the strong axillary buds obtained by induction in the step (2), inoculating the stem tips on an adventitious bud induction culture medium, performing dark culture for 2-3 weeks, and then transferring the culture medium into the weak light environment in the step (2) for culture. And (3) performing CymMV and ORSV detection on the induced adventitious buds by adopting a double detection method consisting of RT-PCR and qRT-PCR, wherein the detection result is double negative (namely, the electrophoresis detection of RT-PCR is free of virus stripes and the qRT-PCR detection result has no number of Cq values), and the adventitious buds can be used for inducing cluster buds. The adventitious bud induction culture medium is 1/2MS+1.5mg/L TDZ+0.2mg/L NAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

Step 4, induction of cluster buds

Inoculating the adventitious buds obtained by screening in the step 3 onto a cluster bud induction medium of 1/2MS+3.0mg/L6-BA+0.2 mg/LNAA+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, wherein the pH of the medium is 5.70, and performing cluster bud induction in the low light environment described in the step 2.

Step 5, culturing the tissue culture seedlings

Dividing the cluster buds induced in the step 4 into single buds, inoculating the single buds to a culture medium of Huabao+1/2MS+0.1 mg/LNAA+30g/L potato+1 g/L active carbon+25 g/L sucrose+7.0 g/L agar, and culturing tissue culture seedlings, wherein the pH of the culture medium is 5.70.

Step 6, detecting the tissue culture seedlings

And (3) performing spot check on the tissue culture seedlings obtained in the step (5) according to the proportion of 10%, and respectively performing CymMV and ORSV detection by adopting a double detection method, wherein the detection results are double negative as described in the step (3), so that the batch of tissue culture seedlings can be used as the tissue culture seedlings without the CymMV and ORSV for subsequent potting production.

Step 7, virus detection of plants in each growth stage

30 Plants are selected from the butterfly orchid tissue culture seedlings, the 2 month old plants of the tissue culture seedlings and the flowering plants obtained by the method, cymMV and ORSV detection is carried out on the leaves of the butterfly orchid tissue culture seedlings by adopting the double detection method in the step3, virus carrying rate of the plants is counted, the virus carrying rate (%) = virus carrying plant number/detected plant number multiplied by 100%, wherein the virus carrying plants refer to that in the detection of CymMV and ORSV, the electrophoresis detection of RT-PCR has virus bands or qRT-PCR detection results Cq have numerical values.

Example 2 and example 3 are methods for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV

Embodiment 2 and embodiment 3 are further modifications of embodiment 1, and the same contents are not repeated.

Example 2 and example 3 differ from example 1 in that table 1 shows:

Table 1 example 2 and example 3 differ from example 1

The virus carrying rates of the butterfly orchid tissue culture seedlings, the 2 month old plants for the tissue culture seedlings and the flowering plants in the example 1, the example 2 and the example 3 are shown in table 2:

TABLE 2 viral load of plants at each stage of growth of butterfly orchid obtained in examples 1 to 3 (%)

Project	Example 1	Example 2	Example 3
				Tissue culture seedling	0	0	0
Tissue culture seedling field planting 2 month old plant	0	0	0
				Plants already flowering	0	0	0

According to table 2, the tissue culture seedlings cultivated by the method of the application do not detect cymv and ORSV at each stage after cultivation, and the method of the application can keep that the tissue culture seedlings cultivated by the method of the application do not carry cymv and ORSV at each growth stage because all the tissue culture seedlings do not carry cymv and ORSV in the continuous growth process and do not mutually infect in the cultivation process.

Comparative example 1

Comparative example 1 is a case where two varieties of the tissue culture seedlings of butterfly orchid 'large capsicum' and 'sapphire' purchased from commercial sources and the field planting plants thereof carry cymv and ORSV.

(1) The research object is that two varieties of tissue culture seedlings of butterfly orchid 'big capsicum' and 'sapphire' purchased from commercial sources, and the tissue culture seedlings are planted into 2 months old plants and flowering plants, and 30 plants are respectively selected from each stage of the variety.

(2) The virus detection method is to detect the leaf by adopting the 'double detection method' in the step 3 of the invention, namely, the leaf is detected by adopting RT-PCR and qRT-PCR simultaneously.

(3) And (3) carrying out data statistics on plant virus carrying rate of each growth stage of two varieties, wherein the plant virus carrying rate (%) = number of plants carrying viruses/number of detected plants multiplied by 100%, and the plants carrying viruses are characterized in that in detection of CymMV and ORSV, electrophoresis detection of RT-PCR has virus strips or qRT-PCR detection results Cq value has a numerical value.

(4) The virus-carrying conditions of the butterfly orchid 'large capsicum' and 'sapphire' tissue culture seedlings purchased commercially, and the 2 month old plants and flowering plants of the tissue culture seedlings were set as shown in table 3:

TABLE 3 plant viral load Rate for each growth stage of butterfly orchid big Capsicum and sapphire

Project	Butterfly orchid big capsicum'	Butterfly orchid 'sapphire'
			Tissue culture seedling	100%	60%
Tissue culture seedling field planting 2 month old plant	100%	63.33%
			Plants already flowering	100%	63.33%

As can be seen from table 3, the existing tissue culture seedling plants have a higher virus-carrying ratio, and even in a better case, the plant virus-carrying ratio reaches 60%, and the probability of carrying cymv and ORSV increases further due to the mutual infection during cultivation.

The above examples merely illustrate specific embodiments of the application, which are described in more detail and are not to be construed as limiting the scope of the application. It should be noted that it is possible for a person skilled in the art to make several variants and modifications without departing from the technical idea of the application, which fall within the scope of protection of the application.

Claims (9)

1. The butterfly orchid tissue culture seedling cultivation method without carrying cymMV and ORSV is characterized by comprising the following steps:

Step 1 screening of tissue culture explants

Selecting butterfly orchid plants with normal phenotype characters, taking leaves as materials, and respectively adopting RT-PCR to detect CymMV and ORSV;

Step 1.2, virus detection is carried out based on qRT-PCR, namely, taking each strong-growth stem segment for plants with negative RT-PCR detection results in step 1.1, respectively adopting qRT-PCR to carry out CymMV and ORSV detection for the stem bracts of each stem segment, and selecting the stem segment corresponding to each stem bract with a Cq value of more than or equal to 35 as a tissue culture explant for use, wherein each stem bract is a bract covered outside an axillary bud of each stem segment;

Step2, induction of axillary buds of pedicel

Sterilizing the tissue culture explant selected in the step 1, inoculating the tissue culture explant to a pedicel axillary bud induction culture medium, performing dark culture for 2 weeks, and then performing pedicel axillary bud induction in a dim light environment;

Step 3, induction and screening of adventitious buds of stem tip

Step 3.1, peeling stem tips of the strong axillary buds obtained by induction in the step 2, inoculating the stem tips on an adventitious bud induction culture medium, performing dark culture for 2-3 weeks, and then transferring the culture medium into a weak light environment for culture;

step 3.2, detecting the induced adventitious buds by adopting a double detection method, namely detecting by using RT-PCR and qRT-PCR simultaneously, wherein the adventitious buds with double negative detection results are selected for induction of cluster buds;

Step 4, induction of cluster buds

Inoculating the adventitious buds obtained by screening in the step 3 on a clustered bud induction culture medium, and inducing clustered buds in a low-light environment;

step 5, culturing the tissue culture seedlings

Dividing the cluster buds induced in the step 4 into single buds, and inoculating the single buds on a tissue culture seedling culture medium to culture the tissue culture seedlings;

Step 6, detecting the tissue culture seedlings

And (3) performing spot check on the tissue culture seedlings obtained in the step (5), and detecting the CymMV and the ORSV by adopting a double detection method, wherein the detection results of the spot check on the tissue culture seedlings are double negative, so that the batch of tissue culture seedlings can be used as the tissue culture seedlings without the CymMV and the ORSV for subsequent potting production.

2. The method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein in the step 1.2, the "RT-PCR detection result is negative" is that electrophoresis of RT-PCR detects virus-free bands.

3. The method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein in the step 3.2, the "detection result is double negative" is that the electrophoresis detection of RT-PCR has no viral band and the qRT-PCR detection result has no numerical value of Cq value.

4. The method for cultivating butterfly orchid tissue culture seedlings without cymv and ORSV according to claim 1, wherein the proportion of the spot check in said step 6 is 10%.

5. The method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein in the step 2, the pedicel axillary bud induction culture medium is 1/2ms+2.0-3.0 mg/L6-ba+0.2 mg/L naa+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

6. The method for cultivating the butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein the low-light environment is 20-25 ℃ in temperature, the illumination intensity is 5-10 mu mol-m ^-2·s^-1, the illumination time is 12 hours each day, and the air relative humidity is 40%.

7. The method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein the adventitious bud induction culture medium is 1/2ms+1.5-3.0 mg/L tdz+0.2mg/L naa+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

8. The method for cultivating butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein the cluster bud induction medium is 1/2ms+3.0-4.0 mg/L6-ba+0.2 mg/L naa+30g/L potato+50 ml/L coconut water+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.

9. The method for cultivating the butterfly orchid tissue culture seedlings without carrying cymv and ORSV according to claim 1, wherein the tissue culture seedling culture medium is Huabao+1/2MS+0.1-0.2 mg/L NAA+30g/L potato+1-2 g/L active carbon+25 g/L sucrose+7.0 g/L agar, and the pH is 5.70.