A ‘taproot’ is a plant’s main root, with vertical, thick, and long roots. Each root type has a unique set of functional roles and characteristics. In this article, we attempt to provide all relevant information about the taproot system. We see plants all around us but don’t know much about their roots. After reading this article, you should have a good understanding of the root system, specifically the taproot system.
What is the Taproot?
The taproot is the main root of are a primary root system that grows vertically downward. Most dicotyledonous plants, such as dandelions, produce taproots, and some, such as carrot and beet edible roots, are specialised for food storage.
The root from the embryonic radicle is the first structure to emerge from most seeds upon germination. A taproot is a primary root. Smaller lateral roots (secondary roots) commonly emerge from the taproot in plants where the taproot persists and may produce even smaller lateral roots (tertiary roots).
This increases the surface area available for water and mineral absorption. In other plants, the initial taproot quickly transforms into a fibrous, or diffuse, system in which the initial secondary roots quickly equal or exceed the size of the primary root and there is no well-defined single taproot. Taproot systems are typically deeper than fibrous root systems.
Development of the Taproot system
The root of the embryonic radicle is the first thing to emerge from the seed after it has germinated. This primary root is referred to as the taproot system; a plant with a taproot system has smaller lateral roots known as secondary roots that commonly emerge from the main taproot. Secondary roots, in turn, generate smaller lateral roots known as tertiary roots. These lateral roots contribute to a larger surface area for water and mineral absorption. The architecture of the taproot is also influenced by soil characteristics; for example, deep and rich soils promote the development of vertical taproots in many oak species such as Quercus Kelloggii. Furthermore, the clay soil encourages the growth of multiple taproots.
Advantages of the Taproot system
The Taproot System has the following advantages:
- Plants with a taproot system are extremely drought tolerant.
- In dry climates, desert plants can send roots down more than 75 feet in search of water.
- It also serves to store food reserves, allowing them to become more self-sufficient and resilient.
- Improved soil mineral extraction through increased penetration.
- It acts as a repository for nutrients and minerals.
- Taproot trees and plants have a stronger hold on the soil and are less susceptible to extractions.
Different shapes of the Taproot system
The taproot system’s typical shapes include the conical root, fusiform root, and napiform root.
- Conical Root – A conical root is widest at the top and tapers steadily towards the bottom, such as a carrot.
- Fusiform Root – This type of root is widest in the centre and narrows towards the top and bottom. The Radish is an example of a fusiform root.
- Napiform root – A root with a top-like structure. The napiform root is broad at the top and tapers abruptly to the bottom like a tail. A turnip is an example of this type of root.
Drawbacks of the Taproot system
Because the taproot penetrates so deeply into the soil, digging and lifting a taprooted plant can be difficult. Consider the dandelions in your yard.
Another difficulty is dividing tap-rooted plants. You can’t simply break off sections of the crown with roots attached, as you would with a plant structure like a daylily or coreopsis, because each division requires a piece of the taproot. But, once again, remember the dandelion, and you’ll see that it’s not impossible.
Taproots frequently produce offshoots near the crown. These are referred to as necks. If your plant has these, you can successfully replant it by cutting off each neck that has some smaller roots attached to it. Butterfly bush (Buddleia davidii) is frequently divided in this manner.
If no offshoots have formed, you can replant a small piece of the taproot with at least one eye and some smaller roots attached. It will send up a new shoot, much like a beheaded dandelion.
Taproot plant seedlings are much easier to transplant when they are young. Plants like butterfly weed (Asclepias tuberosa) will produce a large number of seedlings, so you shouldn’t have to disturb the original plant.
Conclusion
A ‘taproot’ is a plant’s main root, with vertical, thick, and long roots. The taproot is the main root of are a primary root system that grows vertically downward. A taproot is a primary root. In other plants, the initial taproot quickly transforms into a fibrous, or diffuse, system in which the initial secondary roots quickly equal or exceed the size of the primary root and there is no well-defined single taproot. The root of the embryonic radicle is the first thing to emerge from the seed after it has germinated. This primary root is referred to as the taproot system; a plant with a taproot system has smaller lateral roots known as secondary roots that commonly emerge from the main taproot. Plants with a taproot system are extremely drought tolerant. Taproot trees and plants have a stronger hold on the soil and are less susceptible to extractions.