As a gardening and landscaping expert , I have come across various issue that can strike tomato plants . One such problem is blossom - end putrefaction , which can be induced by an surplus of Ca in the flora . Now , you might be wondering , can you give a tomato plant plant too much atomic number 20 ? Well , the answer is yes , and I will explain why .
Excess Ca can have detrimental effect on a tomato flora , particularly at the whole plant level . One of the reflection I have made is that fruit of the same age , reap to begin with in the season , tend to have an increase relative incidence of flower - end rot when there is an excess of calcium . This is potential due to the fact that the plant is still developing and may not have fully developed mechanisms to regulate calcium uptake and distribution .
Furthermore , larger fruit of the same age also have a higher susceptibleness to flower - goal rot when there is an excess of calcium . This is because large yield require more calcium for proper outgrowth and development . When there is an unbalance in the calcium supply , these larger fruit may not receive an adequate amount , leading to flower - end rot .
In my own experience , I have see situation where tomato plant plants were inadvertently yield too much Ca . This usually happens when gardener or landscapers apply excessive amounts of calcium - racy fertilizers or amendments without considering the specific needs of the plants . The result is often an increased incidence of efflorescence - close rot in the unnatural love apple plants .
To better sympathise why excess Ca can cause prime - ending rot , let ’s turn over into the physiological prospect of the problem . bloom - end bunk is characterized by the visual aspect of disconsolate , sunken wound at the bloom end of the yield . These lesions are because of a localized calcium deficiency in the yield tissue , which leads to cell dying and subsequent rotting .
When there is an inordinateness of calcium in the flora , it can break up the balance of other nutrient , such as K and Mg . This asymmetry can interpose with the industrial plant ’s ability to transport and employ Ca in effect , leave in localized deficiencies in fruit tissues . Additionally , excess Ca can also bear on water intake and transpiration , further worsen the number .
In my experience , I have found that maintaining a balanced alimental visibility is of the essence for preventing prime - end putrefaction . It is important to ply adequate but not excessive sum of money of calcium , along with other indispensable food , to ensure proper plant growth and development . comport regular soil tests can help influence the nutrient levels and guide appropriate dressing practices .
To summarize , an surplus of Ca can indeed induce efflorescence - close rot in tomato plants . Fruit of the same eld , harvest earlier in the time of year , and larger yield are in particular susceptible to this issue . It is essential to maintain a balanced nourishing visibility , include calcium , to keep the occurrence of bloom - end rot . Monitoring nutritious levels through soil examination and adjust fertilization practices consequently can help insure tidy tomato plant with minimum relative incidence of this problem .
Caroline Bates
