The influence of temperature, humidity and light intensity in the environment on photosynthesis The light intensity has a great influence on the plants. The light intensity has a great influence on the growth and development of plants, and it directly affects the plant photosynthesis. At the same time, the light intensity also affects the appearance of the plant and the speed of development of the plant. The measurement of the light intensity in the environment can be measured using an optical quantum meter. Through the understanding of the light intensity, appropriate adjustments can be made within a certain range of light intensity. Under other conditions, the intensity of photosynthesis increases with the increase of light intensity. However, when the light intensity exceeds the saturation point of the light, the light intensity increases again and the photosynthesis intensity does not increase. However, too much or less fruit is not conducive to the photosynthesis of plants. When the light intensity is too strong, it will destroy the protoplasm, cause the decomposition of chlorophyll, and cause photosynthesis to weaken or even stop. When the light intensity is weak, the photosynthesis of the plant produces less organic matter than the respiration, and the plant will stop growing. Only when the light intensity can meet the requirements of photosynthesis can plants grow and develop normally.
Affecting the light intensity of plants is not only the light intensity in the environment, but also the temperature and humidity in the environment, and the temperature in the environment promotes the transpiration, which is strengthened with the increase of the soil moisture content. The effect of the decrease in humidity on the transpiration is related to the soil The amount of water is increased and suppressed. With the increase of soil water content, the water use efficiency of leaves moved to the direction of high temperature and low humidity. The inhibitory effect of low temperature and low humidity on stomatal conductance became more obvious. In photosynthesis, the stomata of the plant is open. The closure of the stomata is not conducive to the photosynthesis of the plants. The temperature and humidity detection in the environment can be performed using a temperature and humidity monitor, and a rapid measurement environment can be performed through it. The temperature and humidity in the system provide us with certain opinions for the adjustment of temperature and humidity.
Photosynthesis of plants is the synthesis process of organic matter. The level of photosynthesis directly affects the crop's future harvest. Therefore, the influence factors of the songs in the environment are important.
Affecting the light intensity of plants is not only the light intensity in the environment, but also the temperature and humidity in the environment, and the temperature in the environment promotes the transpiration, which is strengthened with the increase of the soil moisture content. The effect of the decrease in humidity on the transpiration is related to the soil The amount of water is increased and suppressed. With the increase of soil water content, the water use efficiency of leaves moved to the direction of high temperature and low humidity. The inhibitory effect of low temperature and low humidity on stomatal conductance became more obvious. In photosynthesis, the stomata of the plant is open. The closure of the stomata is not conducive to the photosynthesis of the plants. The temperature and humidity detection in the environment can be performed using a temperature and humidity monitor, and a rapid measurement environment can be performed through it. The temperature and humidity in the system provide us with certain opinions for the adjustment of temperature and humidity.
Photosynthesis of plants is the synthesis process of organic matter. The level of photosynthesis directly affects the crop's future harvest. Therefore, the influence factors of the songs in the environment are important.