The Aphididae are a very large insect family in the aphid superfamily (Aphidoidea), of the order Hemiptera. These insects suck the sap from plant leaves. Several thousand species are placed in this family, many of which are considered plant/crop pests. They are the family of insects containing most plant virus vectors (around 200 known) with the green peach aphid (Myzus persicae) being one of the most prevalent and indiscriminate carriers.

Eggs of Cinara strobi on white pine

Aphis glycines, the soybean aphid
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hemiptera
Suborder: Sternorrhyncha
Infraorder: Aphidomorpha
Superfamily: Aphidoidea
Family: Aphididae
Latreille, 1802


Aphids originated in the late Cretaceous about 100 million years ago (Mya), but the Aphidinae which comprises about half of the 4700 described species and genera of aphids alive today come from their most recent radiation which occurred in the late Tertiary less than 10 Mya.[1][2]


Most aphid species can reproduce both asexually and sexually, with several parthenogenetic generations between each period of sexual reproduction. This is known as cyclical parthenogenesis and, in temperate regions, sexual reproduction occurs in autumn and results in the production of overwintering eggs, which hatch the following spring and initiate another cycle. Many pest aphids, however, do not overwinter as an egg but as nymphs or adults and others as both eggs and active stages (see Williams and Dixon 2007). For their size, the parthenogenetic individuals have very short developmental times and potentially prodigious rates of increase (de Réaumur 1737;[3] Huxley 1858; Kindlmann and Dixon 1989; Dixon 1992). Thus, aphids show very complex and rapidly changing within-year dynamics, with each clone going through several generations during the vegetative season and being made up of many individuals, which can be widely scattered in space. The survival of the eggs and/or overwintering aphids determines the numbers of aphids present the following spring.[4]

The within-year dynamics of aphids are largely determined by seasonal changes in host quality. Aphids do best when amino acids are actively translocated in the phloem. In spring, the leaves grow and import amino acids via the phloem; in summer leaves are mature and export mainly sugars. In autumn, the leaves senesce and export amino acids and other nutrients. Thus on trees the leaves are most suitable for aphids in spring and autumn. The differences in within-year population dynamics of aphids are due to differences in the effect these seasonal fluctuations in host plant quality have on the per capita rate of increase and intraspecific competition in each species. This annual cycle, consisting of two short periods when the host plant is very favourable and a long intervening period when it is less favourable, is well documented for tree dwelling aphids. This has greatly facilitated the modelling of their population dynamics. In general the aphid carrying capacity of annual crop plants tends to increase with the season until the plants mature after which it tends to decrease very rapidly. Thus, the aphid carrying capacity of trees tends to be high in spring and autumn and low in summer, whereas that particularly of short-season annual crops tends to be low early in a year, peaking mid year and then declining.


Members of the Aphididae are soft-bodied, pear-shaped insects called aphids, as are other members of the superfamily Aphidoidea. Most of them have a pair of little tubes, called cornicles, projecting dorsally from the posterior of their abdomens. The cornicles have been variously interpreted as organs of excretion or for the production of honeydew, but their only confirmed function to date is that they produce fatty alarm pheromones when the insects are attacked by predators.[5]

Hyadaphis winged and wingless adults

When wings are present they occur only on particular morphs called "alates", and wingless morphs are said to be "apterous". The forewing (mesothoracic wing) of the alate in the Aphididae has four to six veins attached to a major vein-like structure that has been interpreted as the combined stems of all the other major wing veins. That structure ends in a stigma, a solid spot on the anterior margin of the forewing. The rear (metathoracic) wings have a similar scheme, but simpler in structure, with no stigma[5] The rear wing however, does bear a hamulus, a small hook that, when in flight, engages the claval fold of the forewing, keeping the wing beats in synchrony.

All aphids have very small eyes, sucking mouthparts in the form of a relatively long, segmented rostrum, and fairly long antennae.

These insects are so small (a few millimeters in length), that winds can transport them for fairly long distances. They are often green, but might be red or brown, as well. They move quite slowly and cannot jump or hop. Aphids excrete a sugary liquid called honeydew, because the plant sap from which they feed contains excess carbohydrates relative to its low protein content. To satisfy their protein needs, they absorb large amounts of sap and excrete the excess carbohydrates. Honeydew is used as food by ants, honeybees, and many other insects.


There is considerable controversy in the classification of aphids, with conservative classifications recognizing as many as 24 subfamilies within a single family Aphididae and others elevating various subfamilies to establish as many as 9 other families within Aphidoidea in addition to Aphididae.[6]


The Aphid Species File[7] currently (2021) lists:

  1. Aiceoninae [Eastop & van Emden. 1972?] - monotypic
  2. Anoeciinae Tullgren, 1909
  3. Aphidinae Latreille, 1802
  4. Baltichaitophorinae Heie, 1980
  5. Calaphidinae Oestlund, 1919
  6. Chaitophorinae Börner. 1949
  7. Drepanosiphinae Herrich-Schaeffer, 1857
  8. Eriosomatinae [Baker, 1920?]
  9. Greenideinae Baker, 1920
  10. Hormaphidinae [Baker 1920?]
  11. Israelaphidinae Ilharco, 1961 - monotypic
  12. Lachninae Herrich-Schaeffer, 1854
  13. Lizeriinae Blanchard, 1923
  14. Macropodaphidinae Zachvatkin & Aizenberg, 1960
  15. Mindarinae Tullgren, 1909 - monotypic
  16. Neophyllaphidinae Takahashi, 1921 - monotypic
  17. Phloeomyzinae Mordvilko, 1934
  18. Phyllaphidinae Herrich-Schaeffer, 1857
  19. Pterastheniinae Remaudière & Quednau, 1988
  20. Saltusaphidinae Baker, 1920
  21. Spicaphidinae Essig, 1953
  22. Taiwanaphidinae Quednau & Remaudière, 1994 - monotypic
  23. Tamaliinae Oestlund, 1923 - monotypic
  24. Thelaxinae Baker, 1920
  • Fossil genera

Selected species

  • Aphis fabae - blackfly, black bean aphid, bean aphid, or beet leaf aphid
  • Aphis gossypii - cotton aphid, melon aphid, or melon and cotton aphid
  • Beech blight aphid (Grylloprociphilus imbricator)
  • Brevicoryne brassicae - cabbage aphid, cabbage aphid, or turnip aphid
  • Cinara cupressi - cypress aphid
  • Macrosiphum euphorbiae - potato aphid
  • Melaphis chinensis - Chinese sumac aphid
  • Mindarus harringtoni
  • Nasonovia ribisnigri
  • Pea aphid (Acyrthosiphon pisum)
  • Pemphigus betae - sugarbeet root aphid
  • Rose aphid (Macrosiphum rosae)
  • Russian wheat aphid (Diuraphis noxia)
  • Sipha flava - yellow sugarcane aphid
  • Soybean aphid (Aphis glycines)
  • Toxoptera citricida - brown citrus aphid, black citrus aphid, or oriental citrus aphid
  • Witch-hazel cone gall aphid (Hormaphis hamamelidis)

See also

  • Wooly aphids - Subfamily: Eriosomatinae


  1. Von Dohlen CD, Moran NA (2000) Molecular data support a rapid radiation of aphids in the Cretaceous and multiple origins of host alternation. Biol J Linnean Soc 71: 689–717
  2. Von Dohlen CD, Rowe CA, Heie OE (2006) A test of morphological hypotheses for tribal and subtribal relationships of Aphidinae (Insecta: Hemiptera: Aphididae) using DNA sequences. Mol Phylo Evol 38: 316–329
  3. "AnimalBase :: Réaumur 1737 reference homepage". AnimalBase (in French). Retrieved 2021-05-08.
  4. Aphid Biodiversity under Environmental Change: Patterns and Processes. p. 3.
  5. Richards, O. W.; Davies, R.G. (1977). Imms' General Textbook of Entomology: Volume 1: Structure, Physiology and Development Volume 2: Classification and Biology. Berlin: Springer. ISBN 0-412-61390-5.
  6. http://tolweb.org/Aphidoidea/11009 Tree of Life - Aphids]
  7. Aphid Species File (Version 5.0/5.0; retrieved 10 July 2021)
  • Media related to Aphididae at Wikimedia Commons

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