Avocado: What is happening in spring

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By August Kruger
Agri Technovation

 With higher mean temperatures and the in- creased length of daylight that accompany our seasonal transition from winter to spring, the stage is set for the next important step in annual avocado tree phenology, fruit set, cell division and cell enlargement. Integral physiological pro- cesses – the precursor to the coming harvest.

Generally, only a very small number of avocado flowers eventually set fruit. Studies conducted estimate it at barely 0.15%, which translates into approximately 1 fruitlet per every 700 flow- ers. Also, the starch content of flowers that set was found to be up to 3 times higher than the content in flowers that did not set fruit3.

This highlights the importance of understan- ding and monitoring tree carbohydrate levels, which has now been made commercially possible through Agri Technovation’s ITEST™ CARBOHYDRATES services.

Fruit set is followed by a phase of rapid cell division lasting between 6 – 8 weeks, after which the cell enlargement phase commences and lasts until fruit reaches around 50% of the final size. Thereafter the fruit size continues to increase through a slower rate of cell division1.

It is important to note that avocado fruit is largely heterotrophic and that their growth de- pends on both the import of photoassimilates from leaves as well as the fruit’s own photo- synthesis4.

Through previous research conducted on physi- ological growth models of avocados in subtropi- cal climates similar to South Africa, it was found that the photosynthesis rate peaks during Feb- ruary to April, and plummets to around half of the peak from July through to September2. This decreased photosynthetic rate is attributed to photoinhibition due to excess light energy that cannot be utilised under cold temperatures, resulting in the damage of leaf chlorophyl2.

Figure 1 illustrates the decreased rate of photosynthesis during fruit set.

This decreased photosynthesis rate coincides with the critical avocado fruit set period, which is certainly not ideal when considering that flowers and fruit are energy expensive plant organs to maintain.

The importance of stored starch reserves to supplement the energy demand of developing fruit during this critical time, cannot be under- estimated. Foliar nutrient applications provide the means to implement an effective and rapid corrective strategy. Agri Technovation has a wide range of foliar products superiorly formu- lated for increased uptake and effective action.

The application of FLOWER POWER™, ZINC PHLOEM™ and TRY ME™ is recommended for the period leading up to fruit set for a compre- hensive micronutrient supplementation, this specific combination aims to support healthy flower development and function while mitigating fruitlet abscission.

Figure 2: A scanning electron microscope (SEM) photograph illustrating the stomata on the skin of an avocado fruitlet x 440 magnification4.

At fruit set, CALCINATOR™ and FLOWER POWER™ will provide calcium and boron for effective cell division.

K PHLOEM™, ZINC PHLOEM™ and MAGNESIUM PHLOEM™ will supplement potassium to facili- tate effective transport of sugars to developing fruit, while zinc and magnesium will contribute to ensuring effective photosynthesis through the maintenance of chloroplasts and their effective functioning.

With regards to effective uptake, it must be noted that avocado fruitlets have the highest number of stomata per surface area during the rapid cell division period shortly after fruit set, at 50 to 75 per mm2. Figure 2 above is a scanned electron microscope photo illustrating stomatal guard cells (4). Since stomata are one of the entry pathways for foliar feeds, this pro- vides a unique opportunity for improved uptake of foliar nutrient applications.

Contact an Agri Technovation crop specialist or Laeveld Agrochem-agent in your area for a specia- lised avocado foliar recommendation programme.


  1. Dixon, , Lamond, C. B. & Elmlsy, T. A. (2006), Patterns of Fruit Growth and Fruit Drop Of ‘Hass’ Avocado Trees In The Western Bay Of Plenty, New Zealand. New Zealand Avocado Growers Association Annual Research Report, Vol. 6: 47 – 54.
  1. Wolstenholme, N., (2011), Understanding the Avocado Tree – Introductory Ecophysiology, ARC Institute for tropical and subtropical crops – Cultivation of Avocado, 35-48.
  2. Hormanza, (2014) Factors influencing Avocado Fruit Set and Yield. From The Growe, 34 – 36.
  3. Blanke, M. (1992) Photosynthesis of Avocado fruit. Proc. of Second World Avocado Congress, 179 – 189.
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