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{{Short description|Dominant root from which other roots sprout laterally}}
{{About|the plant root system|other uses}}
{{About|the plant root system|other uses}}
[[File:Root Systems.svg|thumb|The two types of root systems in plants. The fibrous root system (A) is characterized by many roots with similar sizes. In contrast, plants that use the taproot system (B) grow a main root with smaller roots branching off the taproot. The letters mark the beginning of the roots.]]
[[File:Root Systems.svg|thumb|The two types of root systems in plants. The fibrous-root system (A) is characterized by many roots with similar sizes. In contrast, plants that use the taproot system (B) grow a main root, with smaller roots branching off. The letters indicate where the root systems begin.]]
A '''taproot''' is a large, central, and dominant [[root]] from which other roots sprout laterally. Typically a taproot is somewhat straight and very thick, is tapering in shape, and grows directly downward.<ref>{{cite web|url=http://www.hcs.ohio-state.edu/mg/manual/botany.htm|title=Botany Manual|publisher=[[Ohio State University]]|archive-url=https://web.archive.org/web/20040806065528/http://www.hcs.ohio-state.edu/mg/manual/botany.htm|archive-date=2004-08-06}}</ref> In some plants, such as the [[carrot]], the taproot is a storage organ so well developed that it has been cultivated as a [[vegetable]].


A '''taproot''' is a large, central, and dominant [[root]] from which other roots sprout laterally. Typically a taproot is somewhat straight and very thick, is tapering in shape, and grows directly downward.<ref>{{cite web|url=http://www.hcs.ohio-state.edu/mg/manual/botany.htm|title=Botany Manual|publisher=[[Ohio State University]]|archive-url=https://web.archive.org/web/20040806065528/http://www.hcs.ohio-state.edu/mg/manual/botany.htm|archive-date=2004-08-06}}</ref> In some plants, such as the [[carrot]], the taproot is a [[storage organ]] so well developed that it has been cultivated as a vegetable.
The '''taproot system''' contrasts with the [[adventitious]] or [[fibrous root system]] of plants with many branched roots, but many plants that grow a taproot during [[germination]] go on to develop branching root structures, although some that rely on the main root for storage may retain the dominant taproot for centuries, for example ''[[Welwitschia]]''.

The '''taproot system''' contrasts with the adventitious- or [[fibrous-root system]] of plants with many branched roots, but many plants that grow a taproot during [[germination]] go on to develop branching root structures, although some that rely on the main root for storage may retain the dominant taproot for centuries—for example, ''[[Welwitschia]]''.


== Description ==
== Description ==
[[File:Dandelion Blackwell 0136.jpg|thumb|A [[dandelion]] taproot (left) with the rest of the plant (right)]]
[[File:Dandelion Blackwell 0136.jpg|thumb|A [[dandelion]] taproot (left) with the rest of the plant (right)]]
[[Dicot]]s, one of the two divisions of [[flowering plants]] (angiosperms), start with a taproot,<ref name="Mauseth2009">{{cite book|author=James D. Mauseth|author-link=James D. Mauseth|title=Botany: an introduction to plant biology|url=https://books.google.com/books?id=xPLGdYW9t5kC&pg=PA145|access-date=28 September 2010|year=2009|publisher=Jones & Bartlett Learning|isbn=978-0-7637-5345-0|pages=145–}}</ref> which is one main root forming from the enlarging [[radicle]] of the seed. The tap root can be persistent throughout the life of the plant but is most often replaced later in the plant's development by a fibrous root system.<ref name="Mauseth2009"/><ref name="BergBerg2007">{{cite book|author1=Linda Berg|author2=Linda R. Berg|title=Introductory Botany: Plants, People, and the Environment|url=https://books.google.com/books?id=I71WWH9ZmfsC&pg=PA112|access-date=28 September 2010|date=23 March 2007|publisher=Cengage Learning|isbn=978-0-534-46669-5|pages=112–}}</ref> A persistent taproot system forms when the radicle keeps growing and smaller lateral roots form along the taproot.
[[Dicot]]s, one of the two divisions of [[flowering plant]]s (angiosperms), start with a taproot,<ref name="Mauseth2009">{{cite book|author=James D. Mauseth|author-link=James D. Mauseth|title=Botany: an introduction to plant biology|url=https://books.google.com/books?id=xPLGdYW9t5kC&pg=PA145|access-date=28 September 2010|year=2009|publisher=Jones & Bartlett Learning|isbn=978-0-7637-5345-0|pages=145–}}</ref> which is one main root forming from the enlarging [[radicle]] of the seed. The tap root can be persistent throughout the life of the plant but is most often replaced later in the plant's development by a fibrous root system.<ref name="Mauseth2009"/><ref name="BergBerg2007">{{cite book|author1=Linda Berg|author2=Linda R. Berg|title=Introductory Botany: Plants, People, and the Environment|url=https://books.google.com/books?id=I71WWH9ZmfsC&pg=PA112|access-date=28 September 2010|date=23 March 2007|publisher=Cengage Learning|isbn=978-0-534-46669-5|pages=112–}}</ref> A persistent taproot system forms when the radicle keeps growing and smaller lateral roots form along the taproot.
The shape of taproots can vary but the typical shapes include:
The shape of taproots can vary but the typical shapes include:
*Conical root: this type of root tuber is conical in shape, i.e. widest at the top and tapering steadily towards the bottom: e.g. [[carrot]].
*Conical root: this type of root tuber is conical in shape, i.e. widest at the top and tapering steadily towards the bottom: e.g. [[carrot]].
*Fusiform root: this root is widest in the middle and tapers towards the top and the bottom: e.g. [[radish]].
*Fusiform root: this root is widest in the middle and tapers towards the top and the bottom: e.g. [[radish]].
*Napiform root: the root has a [[top]]-like appearance. It is very broad at the top and tapers suddenly like a tail at the bottom: e.g. [[turnip]].
*Napiform root: the root has a [[Spinning top|top]]-like appearance. It is very broad at the top and tapers suddenly like a tail at the bottom: e.g. [[turnip]].


[[File:Karotoj.jpg|thumb|The edible, orange part of the carrot is its taproot]]
[[File:Karotoj.jpg|thumb|The edible, orange part of the carrot is its taproot]]
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*[[Turnip]]
*[[Turnip]]
*[[Asclepias syriaca|Common milkweed]]
*[[Asclepias syriaca|Common milkweed]]
*[[Cannabis]]
* trees such as [[oak]]s, [[elm]]s, [[pine]]s and [[fir]]s
* trees such as [[oak]]s, [[elm]]s, [[pine]]s and [[fir]]s


== Development of taproots ==
== Development ==
Taproots develop from the [[radicle]] of a seed, forming the primary root. It branches off to secondary roots, which in turn branch to form tertiary roots. These may further branch to form rootlets. For most plants species the radicle dies some time after seed germination, causing the development of a fibrous root system, which lacks a main downward-growing root. Most [[tree]]s begin life with a taproot,<ref name="BergBerg2007"/> but after one to a few years the main root system changes to a wide-spreading fibrous root system with mainly horizontal-growing surface roots and only a few vertical, deep-anchoring roots. A typical mature tree 30–50 m tall has a root system that extends horizontally in all directions as far as the tree is tall or more, but as much as 100% of the roots are in the top 50&nbsp;cm of soil.
Taproots develop from the [[radicle]] of a seed, forming the primary root. It branches off to secondary roots, which in turn branch to form tertiary roots. These may further branch to form rootlets. For most plants species the radicle dies some time after seed germination, causing the development of a fibrous root system, which lacks a main downward-growing root. Most [[tree]]s begin life with a taproot,<ref name="BergBerg2007"/> but after one to a few years the main root system changes to a wide-spreading fibrous root system with mainly horizontal-growing surface roots and only a few vertical, deep-anchoring roots. A typical mature tree 30–50 m tall has a root system that extends horizontally in all directions as far as the tree is tall or more, but as much as 100% of the roots are in the top 50&nbsp;cm of soil.


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*{{cite news |url=https://www.sciencedaily.com/releases/2006/01/060112035906.htm |date=2006-01-13 |work=Sciencedaily |title=Deep-rooted Plants Have Much Greater Impact On Climate Than Experts Thought |quote=The tap roots transfer [[rain]]water from the surface to reservoirs deep underground and redistribute water... increases [[photosynthesis]] and the evaporation of water... by 40 percent in the [[dry season]]... During the wet season, these plants can store as much as 10 percent of the annual [[Precipitation (meteorology)|precipitation]] as deep as 13 meters (43 feet) underground, to be tapped during the dry months... tree roots acting like pipes to allow water to shift around much faster than it could otherwise [[percolate]] through the [[soil]]. }}
*{{cite news |url=https://www.sciencedaily.com/releases/2006/01/060112035906.htm |date=2006-01-13 |work=Sciencedaily |title=Deep-rooted Plants Have Much Greater Impact On Climate Than Experts Thought |quote=The tap roots transfer [[rain]]water from the surface to reservoirs deep underground and redistribute water... increases [[photosynthesis]] and the evaporation of water... by 40 percent in the [[dry season]]... During the wet season, these plants can store as much as 10 percent of the annual [[Precipitation (meteorology)|precipitation]] as deep as 13 meters (43 feet) underground, to be tapped during the dry months... tree roots acting like pipes to allow water to shift around much faster than it could otherwise [[percolate]] through the [[soil]]. }}
*[http://www.arboretum.fullerton.edu/grow/taproot.asp Fullerton Arboretum on taproots]
*[http://www.arboretum.fullerton.edu/grow/taproot.asp Fullerton Arboretum on taproots] {{Webarchive|url=https://web.archive.org/web/20080308052559/http://arboretum.fullerton.edu/grow/taproot.asp |date=2008-03-08 }}


[[Category:Plant roots]]
[[Category:Plant roots]]

Latest revision as of 07:05, 12 July 2024

This article is about the plant root system. For other uses, see Taproot (disambiguation).
The two types of root systems in plants. The fibrous-root system (A) is characterized by many roots with similar sizes. In contrast, plants that use the taproot system (B) grow a main root, with smaller roots branching off. The letters indicate where the root systems begin.

A taproot is a large, central, and dominant root from which other roots sprout laterally. Typically a taproot is somewhat straight and very thick, is tapering in shape, and grows directly downward.[1] In some plants, such as the carrot, the taproot is a storage organ so well developed that it has been cultivated as a vegetable.

The taproot system contrasts with the adventitious- or fibrous-root system of plants with many branched roots, but many plants that grow a taproot during germination go on to develop branching root structures, although some that rely on the main root for storage may retain the dominant taproot for centuries—for example, Welwitschia.

Description

[edit]
A dandelion taproot (left) with the rest of the plant (right)

Dicots, one of the two divisions of flowering plants (angiosperms), start with a taproot,[2] which is one main root forming from the enlarging radicle of the seed. The tap root can be persistent throughout the life of the plant but is most often replaced later in the plant's development by a fibrous root system.[2][3] A persistent taproot system forms when the radicle keeps growing and smaller lateral roots form along the taproot. The shape of taproots can vary but the typical shapes include:

  • Conical root: this type of root tuber is conical in shape, i.e. widest at the top and tapering steadily towards the bottom: e.g. carrot.
  • Fusiform root: this root is widest in the middle and tapers towards the top and the bottom: e.g. radish.
  • Napiform root: the root has a top-like appearance. It is very broad at the top and tapers suddenly like a tail at the bottom: e.g. turnip.
The edible, orange part of the carrot is its taproot

Many taproots are modified into storage organs. Some plants with taproots:

Development

[edit]

Taproots develop from the radicle of a seed, forming the primary root. It branches off to secondary roots, which in turn branch to form tertiary roots. These may further branch to form rootlets. For most plants species the radicle dies some time after seed germination, causing the development of a fibrous root system, which lacks a main downward-growing root. Most trees begin life with a taproot,[3] but after one to a few years the main root system changes to a wide-spreading fibrous root system with mainly horizontal-growing surface roots and only a few vertical, deep-anchoring roots. A typical mature tree 30–50 m tall has a root system that extends horizontally in all directions as far as the tree is tall or more, but as much as 100% of the roots are in the top 50 cm of soil.

Soil characteristics strongly influence the architecture of taproots; for example, deep and rich soils favour the development of vertical taproots in many oak species such as Quercus kelloggii, while clay soils promote the growth of multiple taproots.[4]

Horticultural considerations

[edit]

Many plants with taproots are difficult to transplant, or even to grow in containers, because the root tends to grow deep rapidly and in many species comparatively slight obstacles or damage to the taproot will stunt or kill the plant. Among weeds with taproots dandelions are typical; being deep-rooted, they are hard to uproot and if the taproot breaks off near the top, the part that stays in the ground often resprouts such that, for effective control, the taproot needs to be severed at least several centimetres below ground level.

[edit]
  • A tree taproot
    A tree taproot
  • A taproot
    A taproot

References

[edit]
  1. ^ "Botany Manual". Ohio State University. Archived from the original on 2004-08-06.
  2. ^ a b James D. Mauseth (2009). Botany: an introduction to plant biology. Jones & Bartlett Learning. pp. 145–. ISBN 978-0-7637-5345-0. Retrieved 28 September 2010.
  3. ^ a b Linda Berg; Linda R. Berg (23 March 2007). Introductory Botany: Plants, People, and the Environment. Cengage Learning. pp. 112–. ISBN 978-0-534-46669-5. Retrieved 28 September 2010.
  4. ^ C. Michael Hogan (2008). N. Stromberg (ed.). "Quercus kelloggii". Globaltwitcher.com. Archived from the original on 2009-09-24. Retrieved 2008-10-17.
[edit]
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