Figs have different temperature regulations in each month of the year. Therefore, different months must integrate local climate characteristics and carry out appropriate adjustments. The key is divided into so many links: (1) Early and mid-January-early and mid-February The key to this link is the dentistry period of the main fig stem. At this time, the temperature can be raised moderately in broad daylight, but the indoor temperature is not suitable to exceed 25 ℃. In addition, heat insulation at night is also very important, and the temperature should be maintained at around 8°C as much as possible. (2) Mid-to-late February to mid-to-late February The key to this link is the early germination period of the main fig stem. At this time, the temperature can be significantly increased. The standard is still 25°C during the day, and the temperature at night should not be less than 10°C. (3) Early to mid-March-mid to late March The key to this link is the germination period and leaf development period of the main fig stem, so that the germination period is uniform. It is suggested that the temperature in daylight should not exceed 35°C, and the temperature in the evening should be raised to around 15°C. (4) Mid-to-late March to mid-to-late May The key to this link is the growth and development of the new shoots of the main fig stem and the differentiation stage of the flower buds. At this time, the 35°C high temperature at the front end should be moderately lowered, and the temperature in the daytime should be around 30°C, and the temperature in the evening should be between 13-15°C. (5) Mid to late May-mid to late September The key to this link is the high-yield period of the main fig stem, which matures successively. At this time, the front legs and the plastic film on the top can be appropriately unfastened to enhance natural ventilation, which is beneficial for flowering and fruiting. Under the standard of adequate fertilizer and water, a high temperature of about 35°C can be allowed in a short period of time. In the hot summer, pay attention to reducing the temperature. Sprinkle water on the greenhouse film to reduce temperature. (6) Mid-to-late September to early-mid-November The key to this link is the delayed planting of the main fig stem. What we need to do at this time is to immediately dismantle and replace the new plastic film and grass thatch, and keep the night temperature above 15°C. (7) Mid-to-late November to mid-to-late November The key to this link is the dead leaf period of the main fig stem. The grass thatch will fall down 4/5 in broad daylight to reduce the indoor temperature and drive the dead leaves. (8) Early to mid-December to mid-to-late December At this stage, the main fig stem enters the dormant state for the second year, and it is necessary to learn to put down all the grass thatch during the day to keep the average temperature in the room at around 5°C. In general, figs like a warm and humid natural environment, so in the first month after raising the temperature, pay attention to moderate water injection (irrigation) to maintain soil moisture content. In the second month after raising the temperature, according to natural ventilation and sprinkling irrigation, the air humidity in the room is controlled at 60%-70%, which can promote the growth and development of new shoots, and promote the differentiation and fruiting of flower buds. In the third month after raising the temperature, the air humidity in the room was maintained at around 60%. Regarding fig's annual temperature management method matters, I hope to have some assistance to everyone. Disclaimer: Some articles on this website are transferred from the Internet. If the legal rights of a third party are involved, please inform this website for processing. phone
Metatron Hunter 4025:
Description and Field of Application
The apparatus is intended to register psychophysics changes in system and allows to:
Metatron Hunter 4025,Metapathia Gr Hunter 4025,Metatron 4025 Nls,Metatron Gr Hunter 4025 Shenzhen Guangyang Zhongkang Technology Co., Ltd. , https://www.szlighttherapymachine.com
Purpose
The Metapathia-GR Hunter software can operate only with the telemetric nonlinear analysis data processing apparatus "Metatron" and its subsequent modifications. The telemetric nonlinear analysis data processing device is compatible with the IBM-type PCs and intended for studying reaction of a biological object to different types of the informational impact. "Metatron" allows correlating the measurement process with the process affecting it and performs the following.
Operations:
1) It measures J (0) which mirrors the change of the describing parameter, and the entropic potential relative to its ini- tial value;
2) It transforms continuous signal J (0) with the preset intervals of frequencies into a histogram (a row of numerical val-ues of scanned frequencies with serial numbers from 1.8 to 8.2 Hz.);
3) It sends the current W values to PC and displays the graph on the monitor simultaneously with its impact on the examinee.
4) It accumulates the W value in its memory unit, if observing the histogram is more convenient upon completion of the measurements;
5) It issues the scale-correlated commands required for regulating the effect on the examinee at testing;
6) It transmits the W values from the unit into PC memory upon completion of the measurements and saves them in unit memory of prior to the beginning of recording data of the next measurements.
Telemetric nonlinear analysis data processing apparatus "Metatron" (hereinafter "apparatus") can be used for non-linear analysis of biological structures and testing of biologically active supplements. The apparatus can also be used in research centers and scientific research facilities.
- Get qualitative estimation of functional condition in a form of topical analysis.
- Control effectiveness and results of different ways of treatment.
- Analyze dynamics of functional condition changes over period of time.
- Determine initial nidus of functional breach.
- Estimate character of changes using expert systems.
- Estimate basic characteristics of bio-system homeostasis.
