MySheen

Tiger Pilan leaf roll learn these tips to easily solve the leaf roll problem.

Published: 2024-12-22 Author: mysheen
Last Updated: 2024/12/22, Tiger skin orchid is the most common foliage plant in the family, with compact plant shape, tall and straight leaves, evergreen all the year round, and has high ornamental value. But in the process of breeding, there is always the phenomenon of leaf curling, which is really distressing, so positive.

Tiger skin orchid is the most common foliage plant in the family, with compact plant shape, tall and straight leaves, evergreen all the year round, and has high ornamental value. However, in the process of breeding, there will always be the phenomenon of leaf curling, which is really distressing, so it just sums up some reasons for leaf curling. Here is a detailed introduction to you, hoping to help you.

Watering

Tiger Pilan is drought-tolerant by nature, but if it is not watered for a long time, it will make the leaves unable to replenish water, so the leaves will become soft and the phenomenon of leaf bending will occur. Therefore, when watering it, we must follow the principle of "do not dry, do not water, water thoroughly". When you see that the soil is light, you must water the tiger skin orchid thoroughly.

Light

Tiger Pilan is more shady by nature, so it does not like direct light, otherwise it will burn the leaves of Tiger Pilan, and gradually make the leaves wilt and bend. So when raising tiger orchid, you can put it in a place with more light in winter, and you can put it in a place where light is scattered the rest of the time.

Soil consolidation

If the soil given to Hu Pilan is not loose and breathable enough, it is easy to cause soil hardening. After soil consolidation, the root system of Hu Pilan can not absorb nutrients well, so it is easy to bend the leaves. So at the beginning of breeding tiger Pilan, you can pad some tiles at the bottom of the basin to increase air permeability, and the basin soil can be configured with rotten leaf soil and large particles of river sand at 1:1.

 
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