Variegation is the appearance of differently coloured zones in the foliage, flowers, and sometimes the stems and fruit of plants, granting a speckled, striped, or patchy appearance. The colors of the patches themselves vary from a slightly lighter shade of the natural coloration to yellow, to white, or other colors entirely such as red and pink.[1] This is caused by varying levels and types of pigment, such as chlorophyll in leaves.[2] Variegation can be caused by genetic mutations affecting pigment production, or by viral infections such as those resulting from mosaic viruses.[3] Many plants are also naturally variegated, such as Goeppertia insignis. Most of these are herbaceous or climbing plants, and are most often species native to tropical rainforests.[4]

Cryptocarya williwilliana showing leaf venation and variegated leaves.

Many species which are normally non-variegated are known to display variegation. Their appearance is desirable to enthusiasts, and many such plants are propagated and sold as unique cultivars.[1] However, in individuals where the variegation occurs in normally-photosynthetic cells, the lack of functioning chloroplasts can slow growth rate.[2] Conversely, naturally-variegated plants derive benefits from their appearance, such as improved photosynthetic efficiency in low-light conditions and herbivore deterrence.[5][6]

The term is also sometimes used to refer to colour zonation in minerals and the integument of animals.

Causes

edit

Chimeral

edit
 
Variegation of fruits and wood in Ficus carica 'Panascè', a bicolor (yellow-green) common fig cultivar. This Italian cultivar is a chimera.

Chimeric plants contain tissues with more than one genotype.[further explanation needed] A variegated chimera contains some tissues that produce chlorophyll and other tissues which do not.[7] Because the variegation is due to the presence of two kinds of plant tissue, propagating the plant must be by a vegetative method of propagation that preserves both types of tissue in relation to each other. Typically, stem cuttings, bud and stem grafting, and other propagation methods that results in growth from leaf axil buds will preserve variegation.[citation needed] Cuttings with complete variegation may be difficult, if not impossible, to propagate.[why?] Root cuttings will not usually preserve variegation, since the new stem tissue is derived from a particular[which?] tissue type within the root.[citation needed]

Structural

edit

Some variegation is caused by structural color, not pigment; the microscopic structure of the plant itself reflects light to produce varying colors. This can happen when an air layer is located just under the epidermis resulting in a white or silvery reflection.[8] It is sometimes called blister variegation.[citation needed] Pilea cadierei (aluminum plant) shows this effect. Leaves of most Cyclamen species show such patterned variegation, varying between plants, but consistent within each plant.

The presence of hairs on leaves, which may be coloured differently from the leaf itself, can also produce variable coloration. This is found in various Begonia species and their hybrids.

Sometimes venal variegation occurs – the veins of the leaf are picked out in white or yellow. This is due to lack of green tissue above the veins. It can be seen in some aroids. The blessed milk thistle, Silybum marianum, is a plant in which another type of venal variegation occurs, but in this case it is due to a blister variegation occurring along the veins.

Pigmentary

edit
 
Leaves of red clover (Trifolium pratense) have a typical v-shaped variegation.

A common cause of variegation is the masking of green pigment by other pigments, such as anthocyanins. This often extends to the whole leaf, causing it to be reddish or purplish. On some plants however, consistent zonal markings occur; such as on some clovers, bromeliads, certain Pelargonium and Oxalis species. On others, such as the commonly grown forms of Coleus, the variegation can vary widely within a population. In Nymphaea lotus, the tiger lotus, leaf variegations appear under intense illumination.

Pathological

edit

Virus infections may cause patterning to appear on the leaf surface. The patterning is often characteristic of the infection. Examples are the mosaic viruses, which produce a mosaic-type effect on the leaf surface or the citrus variegation virus (CVV). Recently[when?] a virus disease, Hosta virus X (HVX) has been identified that causes mottled leaf coloring in hostas. At first, diseased plants were propagated and grown for their mottled foliage, at the risk of infecting other healthy hostas.[9] While these diseases are usually serious enough that the gardener would not grow affected plants, there are a few affected plants that can survive indefinitely, and are attractive enough to be grown for ornament; e.g. some variegated Abutilon varieties. Nutrient deficiency symptoms may cause a temporary or variable yellowing in specific zones on the leaf. Iron and magnesium deficiencies are common causes of this. Transposable elements can cause colour variegation.[10]

Defensive masquerade

edit

It has been suggested that some patterns of leaf variegation may be part of a "defensive masquerade strategy."[11] In this, leaf variegation may appear to a leaf mining insect that the leaf is already infested, and this may reduce parasitization of the leaf by leaf miners.[12]

Nomenclature

edit

By convention, the italicised term 'variegata' as the second part of the Latin binomial name, indicates a species found in the wild with variegation (Aloe variegata). The much more common, non-italicised, inclusion of 'Variegata' as the third element of a name indicates a variegated cultivar of an unvariegated parent (Aucuba japonica 'Variegata'). However, not all variegated plants have this Latin tag, for instance many cultivars of Pelargonium have some zonal variegation in their leaves. Other types of variegation may be indicated, e.g. Daphne odora 'Aureomarginata' has yellow edging on its leaves.

Usage

edit
 
Variegated foliage used in an English garden. Plants shown include Aralia elata 'Aureovariegata' and Carex ornithopoda 'Variegata'

Variegated plants have long been valued by gardeners, as the usually lighter-coloured variegation can 'lift' what would otherwise be blocks of solid green foliage. Many gardening societies have specialist variegated plants groups, such as the Hardy Plant Society's Variegated Plant Special Interest Group in the UK.

In 2020, a variegated Rhaphidophora tetrasperma plant sold at auction for US$5,300.[13] In June 2021, another variegated Rhaphidophora tetrasperma plant sold at auction for US$19,297.[14]

See also

edit

References

edit
  1. ^ a b Zhang, Jian-Hang; Zeng, Jin-Chu; Wang, Xiao-Mei; Chen, Shui-Fei; Albach, Dirk C.; Li, Hong-Qing (2020-11-01). "A revised classification of leaf variegation types". Flora. 272: 151703. Bibcode:2020FMDFE.27251703Z. doi:10.1016/j.flora.2020.151703. ISSN 0367-2530.
  2. ^ a b "Variegated Leaves". UCLA College. Archived from the original on 2016-06-15. Retrieved 9 July 2016.
  3. ^ Valverde, Rodrigo A.; Sabanadzovic, Sead; Hammond, John (May 2012). "Viruses that Enhance the Aesthetics of Some Ornamental Plants: Beauty or Beast?". Plant Disease. 96 (5): 600–611. doi:10.1094/PDIS-11-11-0928-FE. ISSN 0191-2917. PMID 30727518.
  4. ^ Burtt, B. L. (1977). "Notes on the Rain-Forest Herbs" (PDF). Gardens' Bulletin, Singapore. 29: 73–80.
  5. ^ Campitelli, Brandon E.; Stehlik, Ivana; Stinchcombe, John R. (March 2008). "Leaf variegation is associated with reduced herbivore damage in Hydrophyllum virginianum". Botany. 86 (3): 306–313. doi:10.1139/B07-139. ISSN 1916-2790.
  6. ^ Givnish, T. J. (1990). "Leaf Mottling: Relation to Growth Form and Leaf Phenology and Possible Role as Camouflage". Functional Ecology. 4 (4): 463–474. Bibcode:1990FuEco...4..463G. doi:10.2307/2389314. ISSN 0269-8463. JSTOR 2389314.
  7. ^ Lineberger, Daniel. "Origin, Development, and Propagation of Chimeras". aggie-horticulture.tamu.edu. Retrieved 29 January 2023.
  8. ^ Konoplyova, Aelita; Petropoulou, Yiola; Yiotis, Charilaos; Psaras, George K.; Manetas, Yiannis (2008-11-01). "The fine structure and photosynthetic cost of structural leaf variegation". Flora - Morphology, Distribution, Functional Ecology of Plants. 203 (8): 653–662. Bibcode:2008FMDFE.203..653K. doi:10.1016/j.flora.2007.10.007. ISSN 0367-2530.
  9. ^ "Hosta Virus X". Missouri Botanical Garden. Retrieved 9 July 2016.
  10. ^ "Barbara McClintock and the Discovery of Jumping Genes (Transposons)". Nature. Retrieved 9 July 2016.
  11. ^ Lev-Yadun, S. (2014). "Defensive masquerade by plants". Biological Journal of the Linnean Society. 113 (4): 1162–1166. doi:10.1111/bij.12399.
  12. ^ Walker, Matt (19 June 2009). "The plant that pretends to be ill". BBC News. Retrieved 13 April 2016.
  13. ^ Debczak, Michele (7 July 2021). "The World's Most Expensive Houseplant Just Sold for $20,000 in New Zealand". Mental Floss. Retrieved 28 January 2023.
  14. ^ Cullinane, Susannah (13 June 2021). "New Zealand houseplant sells for $19,200 in online bidding war". CNN. Retrieved 28 January 2023.
edit
  NODES
eth 2
News 3
see 4