Way above my pay grade. Dont even know what the hell those are.
Totally understand, my mind likes to break things down, was just interested in controlling/understanding the evapo-transpiration, or evaporation from the surface of the spawn and fruiting bodies, the casing soil and the compost, and also transportation of the water from the compost to fruiting bodies.
Good Read
Piche’s evaporometer makes it easier to control the actual evaporation, evapo-transpiration, although not yet fully able to control the behavior of the fruiting bodies of the assumed size of evaporation.
It is also necessary to have well-functioning controllers of micro-climate and knowledge of their functioning. This is due to the fact that the process of evapotranspiration (evaporation from mushrooms and casing soil) is the most easily adjusted when one can separately affect each desired parameter of the micro-climate in the cultivation room.
Controlling the evaporation. The behavior of the mushrooms after getting shocked is dependable of the process of water evaporation from the surface of skin of pins and fruiting bodies. This process is called transpiration. The skin of mushrooms as compared to the plants is not capable of closing stomata, thus self-regulating this process. Transpiration depends mainly on the temperature of the air and ground, air movement and the content of water in it. The case would be simple if one could measure the process of transpiration. Such possibility doesn’t exist yet. So what can we measure? To track changes in potential evapo-transpiration, we measure the relative humidity of the air or the water content in the air. Evapo-transpiration is transpiration mushrooms, evaporation of water from the casing soil, floor and from any source of water in the room, for example, the one condensed in the sleeve. Relations between transpiration and evaporation of the remaining surfaces where there is water, vary. This explains why, at the same relative humidity and other parameters remaining the same in the micro-climate, fruiting bodies behave differently – they are heavier or lighter, round, flat, and white or change color. For example, drying of the casing soil can cause that at the same relative humidity transpiration is greater, that is, there is a greater loss of water from the fruiting bodies that are lighter. We are trying to solve this problem by tracking evapo-transpiration based on readings on the scale of Piche’s evaporometer. And then, only indirectly by observing the behavior of pins and fruiting bodies, the conditions are adjusted in the period of typically 12-hour or shorter, by controlling the volume of evaporation of mm of water column in evaporometer. It ranges from zero to several mm of water column. As the evaporation of the accepts standard five mm during 12 hours. In each mushroom farm it must be set individually, tracking the weight and appearance of the fruiting bodies in the period of harvesting and growth of each generation of pins. This method is more useful than the measurement of relative humidity, but it requires experience. Keep in mind that this method requires different approach to the parameters of micro-climate. Stabilization and increase of the yields of mushrooms. Cultivation from the end of the shock is carried out with the smallest possible movement of air (remember opening the flaps of fresh air and exhaust flap), a much greater range of carbon dioxide (2-10000 ppm), air temperature from 17-19°C, the activity of 2-3° The relative humidity, needed to maintain the expected evaporation, has got resulting value and can range from 100 to 80%.