Houttuynia cordata Thunb. is a perennial herbaceous plant. Its leaves are rich in medicinal ingredients, with flavonoids and chlorogenic acid as the main components. This study discusses temperature, light intensity, nutrients and exogenous salicylic acid for the growth and functional components of Houttuynia cordata, it is expected to improve the ingredient contents and establish the most suitable conditions for the cultivation of Houttuynia cordata.In the temperature part, The day/night temperatures were 15/13, 20/15, 25/20, 30/25 and 35/30℃ for 2 months. Results showed that the optimal growth temperature was 30/25℃. It has better growth (plant height, number of leaves, aboveground and leaf yield, etc.) and physiological state (SPAD, NDVI, Fv/Fm). In 35/30℃ treatment of plant height, yield (overground and leaf fresh dry weight), Fv/Fm (day 30) were all reduced, and the growth was slow at 15/13 ℃, the plant height and yield are the lowest. In the ingredient part, total phenol, total flavonoids, chlorogenic acid and hypericin was analyzed. The concentration of each component except chlorogenic acid was the highest at 35/30℃. The highest chlorogenic acid concentration fund in 30/25℃. In general, the best content can be obtained under the treatment of 30/25 and 35/30℃, and has a high correlation with temperature. In light intensity parf, Houttuynia cordata from Shiding and Puli areas were treated with different light intensities in autumn and spring (100%, 50%, 30% and 15% light treatment) for 2 months. In autumn, Houttuynia cordata had better growth (plant height, aboveground and fresh dry weight of leaves) under 100% light treatment, but the physiological measurements NDVI, Fv/Fm and photosynthesis were poor. While 15% light treatment with low production, but the physiological measurements are good. SPAD (day 60) is better with 100% and 15% light treatment. In functional ingredients, the analysis of total flavonoids, chlorogenic acid and hyperoside concentration and content increase with light intensity, the best concentration and content can be obtained under 100% light treatment. In the spring experiment, 100% light treatment with excessive light intensity that caused light inhibition, and its plant height, Fv/Fm, and photosynthesis were significantly reduced. The plant length and leaf width of the plant under full light treatment were small, but thicker. The SPAD value increases with light intensity, which is the highest at 100% light treatment. The yield in the Shiding area is better with 100% and 50% light treatment, and the Puli area is best with 50% light treatment. In functional ingredients, the concentration and content of total flavonoid are best with 100% and 50% light treatment. Chlorogenic acid concentration is best with 50% and 30% light treatment, content is better with 50% light treatment. Hyperoside concentration and content is best with 100% light treatment. In both experiments, the content of each ingredient has an excellent correlation with light intensity. In general, it is recommended that Houttuynia cordata can be cultivated under full light in autumn, and shading with 50% full light can be erected in spring, and you can get the best content of functional ingredients. In the nutrients part, Houttuynia cordata was irrigated with 150 mL of 0N0K, 0N6K, 8N6K, 16N0K, 16N3K and 16N6K nutrients for 50 days. Discuss the effects of potassium and nitrogen fertilizers on the growth and functional ingredients of Houttuynia cordata. The 16N6K treatment has better plant height, and below this concentration has less plant height. The lack of potassium fertilizer (16N0K, 16N3K) will increase the SPAD value in Houttuynia cordata, and the lack of nitrogen fertilizer (0N6K) will reduce the SPAD value. Fv/Fm and dry weight of aboveground and leaf are not different from each treatment. In the functional ingredients part, the concentration of total flavonoids, chlorogenic acid and hyperoside in the potassium fertilizer part, 16N0K was higher than 16N3K. In the nitrogen fertilizer part, the concentration of hyperoside, 0N6K was higher than 8N6K. But the concentration of chlorogenic acid was opposite. The lowest concentration at 0N6K. In conclusion, the application of 6 mM potassium and 16 mM nitrogen concentration can obtain better total flavonoids, chlorogenic acid and hyperoside content. In the salicylic acid part, spray 0, 0.5, 1, 2 and 4 mM salicylic acid on the leaves every week (F1), every two weeks (F2) and every four weeks (F3) for 60 days. Effects of different concentrations of salicylic acid and spraying frequency on the growth and functional components of Houttuynia cordata. Foliar application of salicylic acid will reduce the plant height, leaf number and yield of Houttuynia cordata. The application of higher concentrations of 2 and 4 mM salicylic acid will reduce the SPAD value. The Fv/Fm of each treatment is higher than 0.8. In the functional ingredients part, foliar application of salicylic acid can slightly increase the performance of functional ingredients in the leaves of Houttuynia cordata, and will be affected by the frequency of application. If the frequency of application is reduced, the application concentration can be increased, but the application is too high the concentration of salicylic acid will reduce the concentration of the target functional component, so it is recommended to spray 2 mM salicylic acid once every two weeks to obtain a higher content of functional components. Temperature, light intensity and nutrient elements will affect the growth and functional ingredients of Houttuynia cordata. This study conducted related experiments and aimed to increase the content of functional ingredients to establish the most suitable cultivation conditions and hope to increase the benefit of Houttuynia cordata.