Ecdysteroids control eyespot size and wing color pattern in the polyphenic butterfly Bicyclus anynana (Lepidoptera: Satyridae)

Abstract

The strongly polyphenic African butterfly, Bicyclus anynana, shows conspicuous ventral eyespots and a transverse band in the wet-season form and small eyespots and no band in the dryseason form. These forms are produced when larvae are reared at high and low temperatures, respectively. Truncation selection was applied to a stock population (UNSELECTED-LINE) to produce lines which, at a constant intermediate temperature of 20 °C, always produced the dry season form (LOW-LINE) and the wet-season form (HIGH-LINE) in addition to a line of fast development (FAST-LINE). A relationship between wing pattern and development time was apparent: the FAST-LINE displayed larger eyespots and HIGH-LINE pupae developed faster (mean = 12.5 days) than LOW-LINE pupae (14.1 days). Differences were found among the lines in ecdysteroid titers after pupation. Hemolymph ecdysteroids in HIGH-LINE pupae increased earlier and reached twice the level of those in LOW-LINE pupae during the first 3 days after pupation. FAST-LINE pupae developed faster (11.7 days) than UNSELECTED-LINE pupae (12.8 days) and ecdysteroids in the FAST-LINE increased more quickly and reached higher levels. In the four LINES, ecdysteroid titers in 3 day old pupae were in the order UNSELECT ≈ LOW ⪡ FAST ⪡ HIGH. Thereafter the titers overlapped. An injection of 20-hydroxyecdysone (20E) inhibited pupal development at a dose between 2.5 and 5 μg when it was injected into pupae within 24 h after pupation. At lower doses (0.25–0.5 μg 20E) 22–100% of the pupae in different experimental groups in the LOW- as well as in the HIGH-LINE developed successfully. The pupal stage was significantly shortened, especially in the LOW-LINE. Additionally, 0.25 and 0.5 μg 20E injected into 0–12 h LOW-LINE pupae shifted the wing color pattern towards the wet season form: eyespots increased in size and the transverse wing band appeared in the more conspicuous pattern characteristic of the wet season form. The results demonstrate that ecdysteroids appearing early in the young pupa produce the wet season form of the wings. The same hormonal system mediates both developmental time and wing pattern determination.