In the south, and at least as far north as Arkansas, sexual forms are not important. Females continue to produce offspring without mating so long as weather allows feeding and growth. Unlike many aphid species, melon aphid is not adversely affected by hot weather. Melon aphid can complete its development and reproduce in as little as a week, so numerous generations are possible under suitable environmental conditions.
Egg: When first deposited, the eggs are yellow, but they soon become shiny black in color. As noted previously, the eggs normally are deposited on catalpa and rose of sharon.
Nymph: The nymphs vary in color from tan to gray or green, and often are marked with dark head, thorax and wing pads, and with the distal protion of the abdomen dark green. The body is dull in color because it is dusted with wax secretions. The nymphal period averages about seven days.
Adult: The wingless (apterous) parthenogenetic females are 1 to 2 mm in length. The body is quite variable in color: light green mottled with dark green is most common, but also occurring are whitish, yellow, pale green, and dark green forms. The legs are pale with the tips of the tibiae and tarsi black. The cornicles also are black. Small yellow forms apparently are produced in response to crowding or plant stress. Winged (alate) parthenogenetic females measure 1.1 to 1.7 mm in length. The head and thorax are black, and the abdomen yellowish green except for the tip of the abdomen, which is darker. The wing veins are brown. The egg-laying (oviparous) female is dark purplish green; the male is similar. The duration of the adult's reproductive period is about 15 days, and the post-reproductive period five days. These values vary considerably, mostly as a function of temperature. The optimal temperature for reproduction is reported to be about 21 to 27 degrees. C. Viviparous females produce a total of about 70 to 80 offspring at a rate of 4.3 per day.
Stoetzel et al. (1996) published a key for cotton aphids that is also useful for distinguishing melon aphid from most other common vegetable-infesting aphids. One aphid commonly confused with the cotton aphid is the spirea aphid, Aphis spiraecola Patch. One means of identifying them is by examining the cauda.
comparison of A. gossypii and A. spiraecola
The overwintering, or primary, host in cold climates was long thought to be limited to live-forever, Sedum purpureum. However, Sedum is not a host of melon aphid, but a closely related species. Rather, catalpa, Catalpa bignonioides, and rose of sharon, Hibiscus syriacus, were the overwintering hosts in northern locations. In the south, overwintering eggs are not commonly produced and overwintering hosts are more numerous, including dock, Rumex crispus; Lamium amphlexicaule; boneset, Eupatorium petaloiduem; and citrus, Citrus spp. Several researchers have noted the existence of host races; for example, aphids reared on cotton could be transferred successfully to okra but not to cucurbits. This inability to transfer to other hosts has subsequently has been shown for several other combinations.
Melon aphid effectively transmits potyviruses, although it is only one of dozens of species implicated in the spread of plant viruses in cucurbits. Cucumber mosaic virus, watermelon mosaic virus 2, and zucchini yellow mosaic virus are transmitted despite applications of insecticide and oil sprays, probably because the viruses can be transmitted within 15 seconds.
Melon aphids will transmit viruses to crops that they do not colonize. Insecticides have little effect on virus transmission by non-colonizing, transient aphids, though insecticides can prevent secondary transmission within crops where colonization occurs.
Florida Insect Management Guide for vegetables
Florida Insect Management Guides for cotton
Florida Insect Management Guide for woody ornamentals
Florida Citrus Management Guide for aphids
Cultural practices. The wide host range of melon aphid makes crop rotation a difficult tactic to implement successfully. Also, crops grown down-wind from infested fields are especially susceptible because aphids are weak fliers and tend to be blown about. Infested crops should be destroyed immediately after harvest to prevent excessive dispersal, and it may be possible to destroy overwintering hosts if they are weeds. If continuous cropping is implicated in retention of aphid populations then a crop-free period is needed. Row covers can be used to inhibit development of aphid populations. Time of planting may influence potential aphid population increase potential.
Disease transmission. As noted above, it is difficult to disrupt transmission of nonpersistent viruses with insecticides, so total dependence on insecticides is not advised. Row covers, whitewash sprays, and reflective mulches or coarse net covers are helpful in delaying or reducing disease transmission, but this is expensive to implement on a large scale. Both aluminum and plastic mulch are reported to be useful for suppression of watermelon mosaic virus. Elimination of alternate hosts of both aphids and the virus diseases is often key to disease management; both weeds and crop plants can harbor the disease and vectors. Transmission of nonpersistent viruses such as cucumber mosaic virus can sometimes be reduced by coating the foliage with vegetable or mineral oil. Oil is postulated to inhibit virus acquisition and transmission by preventing virus attachment to the aphid's mouthparts, or to reduce probing behavior. Oil seems to be most effective when the amount of disease in an area that is available to be transmitted to a crop is at a low level. When disease inoculum or aphid densities are at high levels, oils may be inadequate protection. Also, some plants may be damaged by oil applications, especially during hot weather.
Author: John L. Capinera, University of Florida
Photographs: Paul Choate, Lyle Buss and J.L. Castner, University of Florida; Graphics: Division of Plant Industry
Project Coordinator: Thomas Fasulo, University of Florida
Publication Number: EENY-173
Date: November 2000. Latest revision: June 2009.
Copyright 2000-2009 University of Florida
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Department of Entomology and Nematology
Division of Plant Industry
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nymphs and wingless adult
winged adult (black)
winged adult (yellow)
wingless adult (yellow)
melon aphids on okra
melon aphids tended by ants