A strain xn-k13 resistant to environmental stress and its application
A XN-K13, environment-resistant technology, applied in the direction of application, bacteria, chemicals for biological control, etc., can solve the problem of lower utilization rate, achieve the effect of promoting root dry weight and improving the ability to withstand environmental stress
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Embodiment 1
[0039] Isolation and identification of strain XN-K13 resistant to environmental stress
[0040] 1.1 Isolation of strain XN-K13 resistant to environmental stress
[0041] The isolation of the environmental stress-resistant strain XN-K13 includes three steps: sampling, enrichment, primary screening, and secondary screening, as follows:
[0042] 1.1.1 Sampling
[0043] Samples were taken from the soil of Guangxi Medicinal Botanical Garden (E108°19', N22°51'), put into clean sampling bags, marked, and stored in a refrigerator at 4°C as rhizosphere soil samples.
[0044] 1.1.2 Enrichment and primary screening
[0045] Weigh 1.0 g of rhizosphere soil sample, put it into a test tube filled with 9 mL of sterile deionized water, shake and mix thoroughly, 37 ° C, 200 r / min, shake and cultivate for 30 min, and dilute it in a ten-step gradient to obtain a dilution; To isolate salt-tolerant bacteria, add NaCl with a mass concentration of 10g / L as salt stress, draw 100uL of the diluted sol...
Embodiment 2
[0064] Accurate characterization of potassium solution by environmental stress-resistant strain XN-K13:
[0065] The dissolving ability of Enterobacterludwigii XN-K13 to poorly soluble potassium was preliminarily evaluated by the improved selection medium for potassium-solubilizing bacteria: use a sterile toothpick to puncture the isolated and purified strain obtained in 1.1. Potassium feldspar was used as the insoluble potassium source in the center of the improved selective medium for potassium-dissolving bacteria, placed in a 37°C incubator and cultured for 5 days, each group was treated three times, and the potassium-dissolving circle was observed to measure the colony diameter (d) and the potassium-dissolving circle diameter ( D), the results are as shown in table 2, calculate the ratio of solution potassium circle and bacterium colony diameter ( Figure 4 ); from Table 2 and Figure 4 It can be concluded that the ratio of the potassium-dissolving circle to the colony di...
Embodiment 3
[0069] Quantitative analysis of potassium solution by environmental stress-resistant strain XN-K13:
[0070] Potassium standard solution: Accurately weigh 1.9068g of analytically pure KCl that has been dried (dried at 105°C for 4-6 hours), dissolve it in 200mL of deionized water, and set the volume to 1L. Shake well to obtain 1000mg / L of potassium. Put 25mL of the solution into a 250mL volumetric flask to constant volume and shake well, then it will be a potassium standard solution containing 100mg / L of potassium.
[0071] 3% sodium tetraphenylborate solution: Weigh 3g sodium tetraphenylborate and dissolve it in 100mL deionized water, add 10 drops of 0.2mol / L sodium hydroxide solution to adjust the pH to 8-9, let it stand overnight, and filter it with dense filter paper Filter and store in a brown bottle.
[0072] 0.05mol / L borax solution: Weigh 19.07g borax and dissolve it in 1000mL deionized water.
[0073] Formaldehyde-EDTA solution: Weigh 2.5g EDTA disodium salt and diss...
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