Fig wasp

 ( Agaonidae ) 

The non-pollinating fig wasps have developed several impressive morphological adaptations in order to oviposit eggs within the fig syconium. Many species have extremely long ovipositors, so that they can deposit eggs from the outside of the syconium (Subtribe Sycoryctina of Pteromalinaevan Noort, S. & Rasplus, JY. 2024. Sycoryctina. www.figweb.org (Accessed on 19 Dec 2024) and Subfamily Sycophaginaevan Noort, S. & Rasplus, JY. 2024. Sycophaginae. www.figweb.org (Accessed on 19 Dec 2024)). Others have evolved to enter the syconium in the same way as the Agaonidae, and now resemble the pollinators morphologically (Subtribe Sycoecina of Pteromalinae).van Noort, S. & Rasplus, JY. 2024. Sycoecina. www.figweb.org (Accessed on 19 Dec 2024) Less is known about the evolution of non-pollinating fig wasps who form different clades from various lineages, each independently colonized the syconium. These wasps work around the mutualistic relationship, exploiting fig fruits as parasitoids.

Most figs (more than 600 species) have syconia that contain three types of : male, short female, and long female. Female fig wasps can reach the ovaries of short female flowers with their ovipositors, but not long female flowers. Thus, the short female flowers grow wasps, and the long flowers only seeds. Contrary to popular belief, ripe figs are not full of dead wasps and the "crunchy bits" in the fruit are only seeds. The fig actually produces an enzyme called ficain (also known as ficin) which digests the dead wasps and the fig absorbs the nutrients to create the ripe fruits and seeds. Several commercial and ornamental varieties of fig are parthenocarpic and do not require pollination to produce (sterile) fruits; these varieties need not be visited by fig wasps to bear fruit.Roy, D. (2019). Tropical/subtropical fruit crops: Fig. In Breeding of fruit crops (pp. 113-115). Alpha Science International Ltd.

Though the lives of individual species differ, a typical pollinating fig wasp life cycle is as follows. At the beginning of the cycle, a mated mature female pollinator wasp enters the immature "fruit" (actually a stem-like structure known as a syconium) through a small natural opening (the ostiole) and oviposition her eggs in the cavity.

Forcing her way through the ostiole, the mated mature female often loses her wings and most of her antennae. To facilitate her passage through the ostiole, the underside of the female's head is covered with short spines that provide purchase on the walls of the ostiole.

In depositing her eggs, the female also deposits pollen she picked up from her original host fig. This pollinates some of the female flowers on the inside surface of the fig and allows them to mature. After the female wasp lays her eggs and follows through with pollination, she dies.

After pollination, there are several species of non-pollinating wasps that deposit their eggs before the figs harden. These wasps act as parasites to either the fig or possibly the pollinating wasps.

As the fig develops, the wasp eggs hatch and develop into . After going through the pupal stage, the mature male’s first act is to mate with a female - before the female hatches. Consequently, the female will emerge pregnant. The males of many species lack wings and cannot survive outside the fig for a sustained period of time. After mating, a male wasp begins to dig out of the fig, creating a tunnel through which the females escape.

Once out of the fig, the male wasps quickly die. The females find their way out, picking up pollen as they do. They then fly to another tree of the same species, where they deposit their eggs and allow the cycle to begin again.