Formicinae

These are some of the most common ants in Australia and can be found everywhere, often in large numbers. Many seem to feed principally upon nectar and other plant exudates, directly or indirectly via Homoptera, while others are general scavengers, foraging on the ground or on vegetation. They can be found at all times of the day and night. Nests are usually fairly large, with hundreds or thousands of workers, and range from small and cryptic to large and obvious. They are generally in soil but some species are associated with rotten wood while a few are arboreal (nesting in hollows in tree trunks or branches). Workers are generally active and fast moving and many will defend their nests vigorously, attacking intruders with their large mandibles and formic acid sprays.

Species of formicines are found world wide and are second only to the Myrmicinae in numbers of species, with over 3700 described species and subspecies and 49 genera. In Australia there are just over 400 described species and subspecies in 21 genera, with many species yet to be described. Of the 19 genera, six are found only in Australia. For relationships among these genera see Phylogeny of Formicinae.

Identification
The mesosoma is attached to the gaster by a single distinct segment, the petiole. The gaster is smooth, without constrictions between the segments. The sting is absent and the tip of the gaster has a small circular opening (an acidopore) which is often surrounded by a ring of short hairs. Species of Formicinae are most often confused with species of the subfamily Dolichoderinae because both have a single segmented petiole, lack a sting and are often similar in overall body size and shape. This is especially true for the smaller species such as those in Plagiolepis. However, formicines can always be separated from dolichoderines because the tip of the gaster has a small circular opening while all dolichoderines have a slit-like opening.

Males: Boudinot (2015) - The Formicinae are uniquely identified by the following combination of characters: mandibles never serrate; antennal toruli usually situated posterad posterior clypeal margin; antenna 8–13-merous; oblique mesopleural sulcus present; at most six closed cells present on forewing; jugal lobe absent; petiolar peduncle short to absent; petiole narrowly attached to abdominal segment III; abdominal segment III unpetiolated; abdominal segment IV without cinctus between pre- and postsclerites; abdominal sternum IX unpronged and edentate.

Genus richness
Genus richness by country based on regional taxon lists (countries with darker colours are more genus-rich).



Species richness
Species richness by country based on regional taxon lists (countries with darker colours are more species-rich).



Chemical Ecology
LeBrun et al. (2015) - In studies with Solenopsis species and eight Formicinae species it was found that formic acid serves as a useful antioxidant of fire ant venom. Their results suggest this ability is widespread within the subfamily, at least for those ants that express the specific observed detoxification behavior of acidopore grooming (or other formic acid, self-application behavior) after alkaloid venom exposure. An increased survivorship of ants exposed to venom was found for those species that exhibited acidopore grooming.

Nomenclature
FORMICINAE [subfamily of Formicidae]
 * Formicariae Latreille, 1809: 124 [as family-group name]. Type-genus: Formica.
 * Formicinae: Mayr, 1862: 651 [as subfamily of Formicidae]; Wheeler, W.M. 1920: 53.

Bolton 2003:

The formicomorph subfamilies Subfamilies Aneuretinae, Dolichoderinae, Formicinae.

Diagnosis Clypeus broad from front to back. Antennal sockets inclined upward toward midline of head (note 1) and situated well behind anterior margin of head. Promesonotal suture usually present and flexible, the pronotum and mesonotum capable of movement relative to each other (note 2). Dorsal cuticular flap of metapleural gland reduced anteriorly and extended posteromedially (note 3). Propodeal lobes absent (note 4). Waist of one segment, the petiole, with complete tergosternalfusion (note 5) (also in male). Helcium sternite small and retracted, overlapped by the tergite (note 6) (also in male). Abdominal segment III (first gastral) without or with partial tergostemal fusion (note 7) (also in male), segment IV without tergosternal fusion. Abdominal segments IV - VII without differentiated presclerites (also in male). Stridulitrum absent from abdominal tergite IV. Abdominal tergites IV - VI hypertrophied with respect to their stemites (note 8). Postpygidial glands absent (note 9). Pretarsal claws without a preapical tooth on the inner margin (also in male). Sting apparatus with furcula reduced and fused to sting base, or lost (note 10). Jugal lobe absent from hind wing of alates. [Synopsis, p. 79.]

Notes (1) Antennal sockets that are horizontal and in the plane of the transverse axis of the head, such as are present in the dorylomorphs and leptanillomorphs, are perhaps best regarded as the plesiomorphic condition. The proceratiines exhibit this feature but there it appears secondary. Inclined to vertical antennal sockets are universal in formicomorphs, myrmeciomorphs, myrmicomorphs and many poneromorphs. (2) In a few Formicinae the promesonotal suture may be present but fused and immobile; very rarely the suture may be vestigial or even absent (Echinopla, a few Polyrhachis species). For distribution of the character through the family see notes under myrmicomorph subfamilies. (3) Metapleural gland is secondarily absent in some Formicinae; for distribution of the character in the subfamily see under Camponotini. (4) Propodeal lobes are present only in Oecophylla and are regarded as independently evolved in that genus. (5) Tergosternal fusion of the petiole is universal in the formicomorph subfamilies, the myrmicomorphs, and the subfamilies Leptanillinae and Leptanilloidinae. In the poneromorphs it occurs in Paraponerini, Proceratiini, Typhlomyrmecini and some Ectatommini; it is partial (anterior) in Amblyoponini. The fusion is regarded as independently acquired in each of these. (6) This is the usual, and probably plesiomorphic, condition in most formicid groups. For different helcium structures, in which the sternite bulges ventrally, see notes under dorylomorph subfamilies and under Myrmicinae. (7) In many dolichoderine genera and in the formicine tribe Plagiolepidini the basal part of abdominal segment III, close to the helcium, has tergosternal fusion with complete obliteration of the suture, but posterior to this the sclerites are not fused and the tergite regularly overlaps the sternite. For distribution of this character through the family see notes under dorylomorph subfamilies. (8) The sternites of abdominal segments IV - VI are small relative to the tergites, and often are entirely ventral; the tergites comprise most of the sides and usually also lap extensively onto the ventral surface of each segment. A similar hypertrophy of abdominal tergite IV occurs in some myrmicine tribes. In Tatuidris (ppAgroecomyrmecini]]), Proceratiini, Loboponera (Ponerini) and some species of Gnamptogenys (Ectatommini), abdominal sternite IV is reduced, but in all these the reduction is associated with a corresponding expansion and strong vaulting of the fourth tergite and reduction of succeeding segments. (9) Postpygidial glands are also absent in Myrmicinae. (10) Fusion or loss of the furcula from the sting apparatus is also found in the dorylomorph subfamilies, some leptanillomorphs and in those Myrmicinae that have reduced stings. It is probably apomorphic in each case.

Comments (i) The three formicomorph subfamilies form a monophyletic group but there is still ambiguity concerning the phylogenetic relationships among them, and concerning the identity of their sister-group. It is suspected, but still remains to be conclusively proved, that the myrmeciomorphs constitute the sister-group, though the extinct *Formiciinae may also be a candidate for this status. (ii) Dolichoderinae and Formicinae are certainly monophyletic but some slight uncertainty must remain about Aneuretinae because there is only one extant monotypic genus that can be intensively studied and all other genus rank taxa are fossils; see comments under Aneuretinae. (iii) With some exceptions (Dolichoderus, many camponotines and particularly Echinopla) the cuticle of formicomorphs is thin and flexible, much more so than in any other group. (iv) The males of many individual dolichoderine and formicine genera can be recognised, but as yet no characters have been found to distinguish male Formicinae as a group from male Do1ichoderinae as a group.

FORMICINAE

Diagnosis With characters of formicomorph subfamilies. Metacoxal cavities fully closed by a slender bar of cuticle, without a suture in the annulus (note 1) (also in male). He1cium usually attached low on anterior face of abdominal segment III (first gastral) (note 2) (also in male). Helcium tergite dorsally with an extensive U-shaped emargination in its anterior margin (note 3) (also in male). Pygidium simple. ''Acidopore present at apex ofhypopygium. Formic acid producing glands present. Sting vestigial to absent, not functional; lancets disarticulated from sting.'' Proventriculus sclerotised (note 4). Pavan I s gland absent. Pygidial gland absent. Cloacal gland usually present (note 5). Pupal cocoons absent or present (note 6). [Synopsis, p. 93.]

Notes (1) Closure of the metacoxal cavities in this way is duplicated only in Dolichoderinae; see note (1) there. (2) Helcium is attached relatively high on abdominal segment III only in Oecophylla. The change from the low position otherwise universal in Formicinae is secondary and is associated with the ability to reflex the gaster over the alitrunk. This is unique to Oecophylla in this subfamily; elsewhere the ability is found only in the myrmicines Crematogaster and, to a lesser extent, Recurvidris. (3) Some species or species groups in genera Polyrhachis and Echinopla (Camponotini) have the emargination of the anterior margin of the helcium tergite reduced, vestigial, or even absent; this is certainly a secondary adaptation. A similar and probably synapomorphic emargination of the helcium is present throughout the Dolichoderinae but does not occur anywhere else in the family Formicidae. (4) Proventriculus is also sclerotised in many Dolichoderinae. (5) Cloacal gland is absent only in Oecophylla, perhaps secondarily so. (6) Formicinae is polymorphic in terms of pupal cocoons. They are regularly absent in nest-weaving forms and sporadically also absent elsewhere in the subfamily.

Comments (i) This is one of the most easily diagnosed and longest-established of the formicid subfamilies. The taxonomic history of Formicinae has recently been extended back to the Cretaceous (Grimaldi & Agosti, 2000). (ii) The earlier higher classifications of Formicinae (Forel, 1912f; Emery, 1925b), which were more or less adhered to until relatively recently, were largely founded on the morphology of the proventriculus. There are now serious doubts about the assumption that the sepalous proventriculus has arisen only once in the subfamily, and about the evolution and distribution of other aspects of the organ's morphology, so that a proventriculus-based classification has become unstable and cannot be maintained (see also comments under Melophorini). The outline of an alternative system has been proposed by Agosti (1991) and is adapted and expanded here.