1. Anacardiaceae R.Br.

    1. This family is accepted.


Anacardiaceae, Hutchinson and Dalziel. Flora of West Tropical Africa 1:2. 1958

Trees or shrubs, often with resinous bark
Leaves alternate, very rarely opposite, simple or compound; stipules absent, very rarely present but obscure
Flowers hermaphrodite or unisexual, mostly actinomorphic
Calyx variously divided, sometimes semi-superior in fruit
Petals 3–7 or absent, free or rarely connate and adnate to the torus
Disk present
Stamens often double the number of the petals, rarely equal or numerous or only one fertile; filaments free among themselves; anthers 2-celled, opening lengthwise
Ovary superior, 1-celled, rarely 2–5-celled, or very rarely carpels free; styles 1–5, often widely separated; ovules solitary, pendulous from the apex or adnate to the ovary wall, or pendulous from a basal funicle
Fruit mostly drupaceous
Seeds without or with very thin endosperm; cotyledons fleshy

Anacardiaceae, Rosette Fernandes and A. Fernandes. Flora Zambesiaca 2:2. 1966

Trees, shrubs at times sarmentose, shrublets or suffrutices, sometimes thorny, producing resins, gums or latex
Leaves alternate, opposite or verticillate, exstipulate, simple, imparipinnate or (1)3-foliolate
Inflorescence of axillary or terminal panicles or spike-like racemes
Flowers dioecious, monoecious or polygamous, small, 3–5-merous, actinomorphic or rarely irregular
Sepals united or sometimes free, imbricate or valvate
Stamens, inserted round the disk or sometimes on the disk, as many as or twice as many as the petals or numerous, usually all fertile in the male flowers
Disk annular, cup-shaped or stipitiform, entire, crenulate or lobed or absent
Ovary, sometimes present and vestigial in the male flowers, (1)3–5(?)-carpous, 1–6-locular, rarely multilocular, loculi 1-ovulate; ovule anatropous; styles free or ± connate
Fruit drupaceous or dry with ± resinous or oleaginous mesocarp and bony or coriaceous endocarp, generally with a 1-plurilocular 1–3-seeded stone
Seeds erect, horizontal or pendulous with membranous or coriaceous testa; endosperm absent or rarely present and very thin

Anacardiaceae, J. O. Kokwaro (University of Nairobi). Flora of Tropical East Africa. 1986

Trees, shrubs, at times sarmentose, or suffrutices, occasionally thorny, producing resins, gums or latex
Leaves alternate, opposite or verticillate, exstipulate, simple, pinnate or palmately (1–)3(–5)-foliolate
Inflorescence of axillary or terminal panicles or spike-like racemes
Flowers dioecious, monoecious or polygamous, small, 3–5-merous, actinomorphic or rarely zygomorphic, rarely lacking tepals
Sepals united or sometimes free, imbricate or valvate
Petals usually free, rarely united and adnate to the disk, imbricate or valvate
Stamens inserted round the disk or sometimes on the disk, as many as or twice as many as the petals or numerous; anthers dorsifixed or basifixed, usually all fertile in ?
Disk annular, cup-shaped or stipitiform, entire, crenulate or lobed, or absent
Ovary, sometimes present and vestigial in ?, (1–)3–5(–many)-carpous, 1–6(–many)-locular; loculi 1-ovulate; ovule anatropous; styles free or ± connate
Fruit drupaceous or dry with ± resinous or oleaginous mesocarp and bony or coriaceous endocarp, usually with a 1–plurilocular 1–5-seeded stone
Seeds erect, horizontal or pendulous with membranous or coriaceous testa; endosperm absent or rarely present and very thin

Pell, S.K. (2009). Neotropical Anacardiaceae.


Trees, shrubs, rarely subshrubs or lianas, frequently with contact dermatitis-causing exudate . Vertical resin canals present in bark and in phloem of petioles and large veins of leaves, also widely present in fruits, flowers, and other tissues. Leaves simple or pinnately compound ; alternate , rarely opposite or whorled ; sessile or petiolate ; leaflets opposite, subopposite, or alternate , entire , serrate , dentate , or crenate ; estipulate. Inflorescences terminal and/or axillary , thyrsoid, paniculate, racemose, or spicate; rarely flowers solitary. Flowers actinomorphic , unisexual or bisexual ; plants dioecious , monoecious , andromonoecious, polygamous, or hermaphrodite ; pedicels often articulate ; hypanthium sometimes present; perianth usually 2- whorled , rarely 1- whorled or absent, imbricate or valvate ; sepals (3-)4-5, usually basally fused, rarely fully connate and cup-shaped; petals (3-)4-5(-8), rarely absent; stamens (1-)5-10, in 1 or 2 (rarely more) whorls, in some genera only 1 or 2 stamens fertile, filaments free , rarely basally connate , anthers dorsi- or basifixed, usually longitudinally dehiscent , introrse, rarely extrorse; disc intra-staminal, rarely extra-staminal or absent; ovary superior , rarely inferior, solitary or of 2-5 connate carpels, ovule solitary, apotropous, basal , apical, or lateral , style apical or lateral , erect or recurved , rarely sigmoid , stigma capitate , discoid , lobate, or spathulate , rarely punctiform. Fruits drupes or samaras (rarely syncarps, utricles, nut -like, or baccates), fleshy or dry, occasionally subtended by a fleshy hypocarp or an accrescent , chartaceous or fleshy calyx ; mesocarp sometimes with prominent black resin canals. Seeds 1-5; endosperm scant or absent; embryo curved or straight (rarely horseshoe-shaped or pyramidal), cotyledons usually planoconvex or flat and free , usually equal in size, rarely fused or ruminate , sometimes bilobed.

General Description
Notes on delimitation
  • Pell and Mitchell split the family into two subfamilies, Anacardioideae and Spondioideae (Mitchell et al. 2007). However, recent phylogenetic evidence (Pell unpublished data) suggests that subfamily Spondioideae may be polyphyletic.
  • Mangiferaindica L. has naturalized throughout the Neotropics.
  • Toxicodendronsuccedaneum (L.) Kuntze has naturalized in Brazil and possibly elsewhere.
  • Several non-native Anacardiaceae are cultivated in the Neotropics for their edible fruits: Bouea macrophylla Griff., Harpephyllum caffrum Bernh. ex Krauss, Mangifera indica, Schinus terebinthifolia Raddi, Sclerocarya birrea Hochst. subspecies caffra (Sond.) Kokwaro, and Spondias dulcis G.Forst..
Number of genera
  • There are 81 (see list above) genera of Anacardiaceae and ca. 800 species worldwide, of which 31 are native to the Neotropics. Attilaea E.Martínez & Ramos, a recently published genus endemic to the Yucatan peninsula of Mexico, is not included in this list due to a lack of accessible material. Naturalized Mangifera L. is not listed because it is not native to the Neotropics.
Distribution in the Neotropics
  • Actinocheita F.A.Barkley - endemic to south-central Mexico.
  • Amphipterygium Schiede ex Standl. - western Mexico to northwestern Costa Rica.
  • Anacardium L. - Honduras to Paraguay, Brazil and Bolivia.
  • Antrocaryon Pierre - Amazonian Brazil (also found in Africa).
  • Apterokarpos Rizzini - endemic to the Caatinga of northeastern Brazil.
  • Astronium Jacq. - Mexico to Paraguay and northern Argentina.
  • Bonetiella Rzed. - northern to central Mexico.
  • Campnosperma Thwaites - Honduras to Ecuador and Amazonia (also found in the paleotropics).
  • Cardenasiodendron F.A.Barkley - endemic to Bolivia.
  • Comocladia P.Browne - central Mexico to Guatemala, Belize and the Greater and Lesser Antilles.
  • Cyrtocarpa Kunth - southern Baja California, Mexico, and Colombia east to Guyana, Venezuela and northern Brazil.
  • Haplorhus Engl. - endemic to the dry inter-Andean valleys of Peru to northern Chile.
  • Lithrea Hook. - Brazil, Bolivia, Paraguay, Argentina, Uruguay, and Chile.
  • Loxopterygium Hook.f. - Venezuela to Argentina, absent from Amazonia.
  • Malosma Engl. - southern California, USA to central Baja California, Mexico.
  • Mauria Kunth - El Salvador to eastern Venezuela and northern Argentina.
  • Metopium P.Browne - West Indies, southern Florida, USA, Mexico and northern Central America.
  • Mosquitoxylum Krug & Urb. - Jamaica, and southern Mexico to northwestern Ecuador.
  • Myracrodruon Allem. - sub -Amazonian Brazil, Bolivia, Paraguay, and northern Argentina.
  • Ochoterenaea F.A.Barkley - Panama, Andean Venezuela and Colombia to Bolivia.
  • Orthopterygium Hemsl. - endemic to western Peru.
  • Pachycormus Coville - endemic to central Baja California, Mexico.
  • Pistacia L. - Texas, USA, to Nicaragua.
  • Pseudosmodingium Engl. - endemic to central and southern Mexico.
  • Rhus L. - southern Canada to Panama and Cuba (also found in Africa, Asia, and Europe).
  • Schinopsis Engl. - northern Peru, sub -Amazonian and eastern Brazil south to central Argentina.
  • Schinus L. - Ecuador to Patagonia, absent from Amazonia.
  • Spondias L.  - Mexico to Brazil and Bolivia (also found in Asia and the Pacific).
  • Tapirira Aubl. - southern Mexico to Brazil, Bolivia and Paraguay.
  • Thyrsodium Salzm. ex Benth. - Colombia, Peru, Bolivia, Venezuela, the Guianas, and Amazonian and eastern Brazil, absent from the Andes.
  • Toxicodendron Mill. - southern Canada to Bolivia (also found in Asia).
Key differences from similar families
  • Anacardiaceae can be separated from Burseraceae by the latter virtually always having opposite leaflets, whereas Anacardiaceae leaflets are usually alternate or subopposite.
Other important characters
  • Intrastaminal nectariferous disc.
  • Diplostemonous or haplostemonous.
  • Some genera cause contact dermatitis.
  • If compound, usually imparipinnate; or if paripinnate, determinate.
  • Fruit never dehiscent.
Distinguishing characters (always present)
  • Estipulate.
  • Superiorovary.
  • One apotropous ovule per locule.
Useful tips for generic identification

Key to genera of Neotropical Anacardiaceae

1. Exudate often present and sometimes causing contact dermatitis; leaves simple, unifoliolate, or multifoliolate; carpels 1-3; exocarp usually thin; opercula absent; fruit  sometimes wind dispersed — 2 (Anacardioideae)
1. Exudate often present and not causing contact dermatitis (very rarely causing dermatitis in Spondias ); leaves multifoliolate; carpels (3-) 5; exocarp thick; opercula often present; fruit never wind dispersed — 40 (Spondioideae)

2. Leaves simple or unifoliolate — 3
2. Leaves compound — 14

3. Unicarpellate — 4
3. Bicarpellate or tricarpellate — 5

4. Domatia often present in abaxial secondary vein axils; glandular ridges absent from petals; drupe usually subtended by fleshy hypocarp; mesocarpwoody...Anacardium
4. Domatia absent; glandular ridges on petals; hypocarp absent; mesocarpfleshy or  resinous —Mangifera (naturalised)

5. Fruits with fleshy mesocarp — 6
5. Fruits with waxy, dry, or resinous (not fleshy) mesocarp — 11

6. Leaves linear to lanceolate; perianth of tepals in male flowers, biseriate in female flowers —Haplorhus
6. Leaves various; perianth biseriate in all flowers — 7

7. Leaves with peltate or lobed scales; drupes often incompletely bilocular with only one locule fertile —Campnosperma
7. Leaves without peltate or lobed scales; drupes 1-locular — 8

8. Androecium haplostemonous or less; southwest US south to Panama & Cuba — 10
8. Androecium diplostemonous or greater; El Salvador south to Patagonia — 9

9. Calyx deeply lobed; stylodia usually 3; exocarp generally separating from mesocarp at maturity, endocarp bony — Schinus p. p.
9. Calyx shallowly lobed; stylodia always 3; exocarp generally separating from mesocarp at maturity, endocarp chartaceous —Mauria p. p.

10. Leaves evergreen or deciduous; exocarp red with glandular trichomes —Rhus  subgenus Lobadium p. p. and R. chiangii
10. Leaves always evergreen; exocarp white, glandular trichomes absent —Malosma

11. Fruit with elongated wing-like structure — 12
11. Fruits without elongated wing-like structure — 13

12. Exudate turning black with exposure to air, causes contact dermatitis; leaves entire;  fruit a laterally winged samara; South America —Schinopsis p. p.
12. Exudate milky, nontoxic; leaves serrate; fruit a syncarp subtended by a wingedpeduncle; Mexico to Costa Rica —Amphipterygium p. p.

13. Leaves entire with marginal secondary vein; exocarp readily separating from mesocarp; mesocarp waxy and white with black resin canals; South America — Lithrea p. p.
13. Leaves entire to deeply lobed (both on same plant), marginal secondary vein absent; exocarp and mesocarp not as above; Mexico —Bonetiella

14. Leaves trifoliolate... 15
14. Leaves greater than trifoliolate (multifoliolate) — 18

15. Male flowers in pendent thyrses, female flowers tightly arranged & subtended by an involucre; fruit winged — Amphipterygium p. p.
15. Female and male inflorescences of the same type or if different, not as above; fruit not winged — 16

16. Exudate turning black with exposure to air; exocarp white or grey to yellowish and readily separating from mesocarp, mesocarp waxy with black resin canals — 17
16. Exudate absent; exocarp reddish with glandular trichomes and remaining attached to mesocarp, mesocarp not as above —Rhus subgenus Lobadium p. p.

17. Marginal secondary vein present; hairy tuftdomatia absent; androecium diplostemonous; South America — Lithrea p. p.
17. Marginal secondary vein absent; hairy tuftdomatia sometimes present in secondary vein axils abaxially; androecium haplostemonous; Mexico to Guatemala —Toxicodendron p. p.

18. Fruit likely wind dispersed (samaras, dry drupes with enlarged trichomes, utricles, or drupes subtended by stiffened enlarged sepals) — 19
18. Fruit likely animal dispersed (fleshy drupes or dry but not as above) — 30

19. Plants caudiciform; fruit a utricle; endemic to Baja California, Mexico —Pachycormus
19. Plants not caudiciform; fruit not a utricle (various); not in Baja California — 20

20. Fruit subtended by stiffened enlarged sepals — 21
20. Fruit not as above — 22

21. Pistillodes present and reduced; drupe subglobose; ovule lateral or basal —Myracrodruon
21. Pistillodes absent; baccate or nutlet-like fruit fusiform; ovule apical —Astronium

22. Perianth absent in female flowers; fruit a syncarp subtended by a wingedpeduncle — 23
22. Perianth present in female flowers; fruit not as above — 24

23. Male inflorescence pendant and large; sepals 5-8, longer than stamens; Mexico to Costa Rica — Amphipterygium p. p.
23. Male inflorescence erect and small; sepals 3-8, shorter than stamens; Peru and Colombia —Orthopterygium

24. Gynoecium and fruits with long trichomes on surface and/or margins — 25
24. Gynoecium and fruits glabrous or trichomes inconspicuous if present — 26

25. Leaflets entire; fruit a samara, laterally compressed with trichomes occurring prominently on the margins; inflorescence corymbose; Venezuela and Colombia south to Bolivia —Ochoterenaea
25. Leaflets broadly pinnately lobed (leaf fern-like); fruit a globosedrupe covered with trichomes; inflorescence not corymbose; Mexico —Actinocheita

26. Exudate absent or inconspicuous, harmless; fruit not winged —Apterokarpos
26. Exudate usually turning black upon exposure to air, causes contact dermatitis; fruit winged — 27

27. Fruit with a single elongate wing — 28
27. Fruit compressed and encircled by a winged margin — 29

28. Plants polygamodioecious; leaves usually deciduous; wing chartaceous with conspicuous venation, consisting of exocarp tissue —Loxopterygium
28. Plants dioecious or monoecious; leaves usually evergreen; wing stiffened and thick, lacking conspicuous venation, consisting of exocarp and mesocarp tissue —Schinopsis p. p.

29. Flowers sessile; stylodia 3; ovule basal; drupe with two unequal, narrow lateral wings;  Bolivia —Cardenasiodendron
29. Flowers pedicellate; style 3-branched; ovule apical; drupe with two equal, broad lateral wings; Mexico —Pseudosmodingium

30.  Flowers apetalous; stylodia plumose —Pistacia
30.  Flowers with petals; stylodia not plumose — 31

31.  Leaflets usually spinose; perianth 3-4-merous —Comocladia
31.  Leaflets not spinose; perianth 5-merous — 32

32. Hypanthium present —Thyrsodium
32. Hypanthium absent — 33

33. Androecium haplostemonous — 34
33. Androecium diplostemonous or greater — 38

34. Exudate usually turning black with exposure to air; leaves often with black spots where injured; exudate toxic — 35
34. Exudate not turning black with exposure to air; leaves without conspicuous black spots; exudate not toxic (possibly toxic in Apterokarpos ) — 36

35. Plants polygamodioecious; leaves usually deciduous (rarely evergreen); stylodia 3; exocarp white to grey or yellow, easily separating from mesocarp; mesocarp white or gray with black resin canals — Toxicodendron p. p.
35. Plants dioecious; leaves evergreen; style 1; exocarp orange to brown, not easily separating from mesocarp; mesocarpresin canals not conspicuous —Metopium

36. Drupe dry, with longitudinal grooves; northeast Brazil —Apterokarpos
36. Drupefleshy, lacking longitudinal grooves; not in Brazil — 37

37. Erect or scandent shrubs or small trees (up to 7 m); fruit covered with glandular trichomes; seed fills most of the locule — Rhus p. p.
37. Medium to large trees (up to 20 m); fruit glabrous; seed fills only a small portion of the locule —Mosquitoxylum

38. Leaflets with a prominentmarginal secondary vein; fruits pale grey to whitish — Lithrea p. p.
38. Leaflets lacking marginal secondary vein; fruit color variable but not as above — 39

39. Leaflets petiolulate; corolla valvate or subvalvate; exocarp not easily separating from mesocarp at maturity — Mauria p. p.
39. Leaflets sessile to subsessile; corolla imbricate; exocarp easily separating from mesocarp at maturity —Schinus p. p.

40. Leaflets with an intramarginal vein (rarely a marginal secondary) —Spondias
40. Leaflets without an intramarginal or marginal secondary vein — 41

41. Drupe depressed-globose — 42
41. Drupeoblong, (ob)ovoid, or globose but not depressed — 43

42. Plants polygamodioecious; leaves deciduous; drupe radially symmetric (pedicel scar on stone usually centered); fruit maturing yellow or light orange, endocarp surface pitted —Antrocaryon
42. Plants hermaphrodite; leaves evergreen; drupeoblique (pedicel scar on stone markedly excentric); fruit maturing black or brown, endocarp surface relatively smooth —Dracontomelon

43. Female flowers usually solitary; stamens 10-16(23); pistillode absent —Sclerocarya
43. Female flowers, if present, not solitary; stamens usually 10; pistillode present, or absent and flowers hermaphroditic — 44

44. Leaves evergreen; anther connective eglandular; pistil(ode) sparsely to densely pubescent; endocarp cartilaginous to crustaceous (rarely bony, e.g. Tapirira mexicana )—.Tapirira
44. Leaves deciduous; anther connective usually glandular; pistil(ode) usually glabrous; endocarp bony —Cyrtocarpa

Important literature

Mitchell, J. D., and S. A. Mori. 1987. The cashew and its relatives (Anacardium: Anacardiaceae). Memoirs of the New York Botanical Garden 42: 1-76.

Mitchell, J. D. 1990. The poisonous Anacardiaceae genera of the world. Advances in Economic Botany 8: 103-129.

Mitchell, J. D. 2004. Anacardiaceae. In Smith, N., S. A. Mori, A. Henderson, D. W. Stevenson, and S. V. Heald (eds.) Flowering Plants of the Neotropics. pgs. 14-16, Princeton  University Press, Princeton, NJ, USA.

Pell, S. K., J. D. Mitchell, T. Lobova, and A. J. Miller. In press. Anacardiaceae. In K. Kubitzki (Ed.), The Families and Genera of Vascular Plants. Springer.

Ribeiro, J.E.L.S., Hopkins, M.J.G., Vicentini, A., Sothers, C.A., Costa, M.A.S., Brito, J.M., Souza, M.A.D., Martins, L.H.P., Lohmann, L.G., Assunção, P.A.C.L., Pereira, E.C., Silva, C.F., Mesquita, M.R. & Procópio, L.C. 1999. Flora da Reserva Ducke: Guia de identificação das plantas vasculares de uma floresta de terra firme na Amazônia Central. INPA, Manaus. 816 pp.

Wannan, B. S., and C. Quinn. 1990. Pericarp structure and generic affinities in the Anacardiaceae. Botanical Journal of the Linnean Society 102: 225-252.

Wannan, B. S., and C. Quinn. 1991. Floral structure and evolution in the Anacardiaceae. Botanical Journal of the Linnean Society 107: 349-85.

Various Neotropical floras are important as well. These include, among others: Flora de Nicaragua, Guide to the Vascular Plants of Central French Guiana, Flora of Baja California, and Flora of the Venezuelan Guayana.


Anacardiaceae R.Br. appears in other Kew resources:

First published in Narr. Exped. Zaire 431. 1818 [5 Mar 1818] (as "Anacardeae") (1818)

Accepted by

  • APG IV (2016) http://dx.doi.org/10.1111/boj.12385


Flora Zambesiaca
Flora Zambesiaca

Flora of Tropical East Africa
Flora of Tropical East Africa

Flora of West Tropical Africa
Flora of West Tropical Africa

Kew Names and Taxonomic Backbone
The International Plant Names Index and World Checklist of Selected Plant Families 2019. Published on the Internet at http://www.ipni.org and http://apps.kew.org/wcsp/
© Copyright 2017 International Plant Names Index and World Checklist of Selected Plant Families. http://creativecommons.org/licenses/by/3.0

Milliken, W., Klitgard, B. and Baracat, A. (2009 onwards), Neotropikey - Interactive key and information resources for flowering plants of the Neotropics.