Soil moisture has a very important influence on the plant root system. There is a balance relationship between plants and the outside world. When the moisture content in the soil is relatively high, the moisture in the plants will enter the plants through the membrane of the root system, accompanied by a large amount of inorganic nutrients in the soil. However, when the water content in the soil is insufficient, the concentration in the roots of the plant is lower than the outside environment. This makes the activity mainly rooted in the soil environment, and the elements in the soil enter the plant. It is less, it will have an impact on the growth of plants, so in the growing process people usually use wireless monitoring systems such as professional detection equipment to coordinate the relationship between the two. The wireless public opinion monitoring system can measure the soil moisture more accurately than the general soil moisture analyzer. In addition, the wireless public opinion monitoring system can also realize the wireless transmission of data because the wireless public opinion monitoring system has a wireless transmission module such as GSM. The /GPRS module enables data to be transmitted quickly without the need for data lines. Below we mainly analyze under the condition that the soil moisture content is relatively low, what kind of changes will happen to the inorganic nutrient elements in various parts of the plant? Outdoor Vest, Outdoor Sports Vest, Outdoor Vest for Hunting, Outdoor Hunting Vest Supplier Shaoxing Snowpeak Air Gun Factory , https://www.snowpeakairgun.com
Through the use of wireless moisture conditions and drought management system to regulate the soil growth environment of Ginkgo biloba, to understand the changes of inorganic nutrient elements in various parts of Ginkgo biloba. Through data analysis and statistical discovery. With the decrease of soil water content, the contents of total phosphorus in total nitrogen and leaf of Ginkgo biloba stems and leaves, total copper in roots, total copper in roots, roots, stems and leaves increased first and then decreased, and the total nitrogen content in roots changed less; The contents of total magnesium, total manganese, and total zinc in stems and roots of Ginkgo biloba, copper in stems, stems, roots, and leaves increased gradually, and total potassium in stems, roots, and roots of Ginkgo biloba leaf gradually decreased. It can be seen that the lack of soil moisture directly results in the absorption of soil nutrients by soil plants. In the cultivation of crops, we must try to ensure adequate water supply.
The impact of reduced moisture content on inorganic nutrient elements in plants is not only tested in Ginkgo biloba, but related personnel have also conducted research on other plants using the wireless moisture and drought management system. Liu Jianfu studied the relationship between mineral element content and water stress of Macadamia oleifera leaves. It was found that with the intensification of water stress, the contents of inorganic nutrients in the leaves were reduced, including zinc, calcium, nitrogen, magnesium, and boron. The content of inorganic nutrients was increased. Potassium and manganese, water stress had little effect on the cobalt in the leaves, but the phosphorus content was inconsistent.