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Cicadas

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Common name:  Cicada

Scientific name: Magicicada septendecim and related Magicicada species (perennial cicadas) and Neotibicen species (annual cicadas). There are three species of periodical cicadas with a 17-year life cycle and four species with a 13-year life cycle.

Hosts: A wide range of trees and shrubs can be damaged by the egg-laying process of these insects. Smaller, younger trees and shrubs are more likely to suffer serious damage.

Each year, somewhere in the United States east of the Rocky Mountains, a brood of the periodical cicadas emerges. The northern third of Illinois is in the range of Brood XIII, which last appeared in 2007. Its next appearance is due in spring of 2024. Both the periodical and annual cicadas are native to North America. Annual or ‘dog day’ cicadas emerge every year, but do very little damage. The noise produced by cicadas can be very loud and annoying.

Damage

Adult cicadas have piercing-sucking mouthparts. They feed very little. Any feeding is limited to sucking sap from young twigs. The principal damage suffered by trees and shrubs results from egg-laying by the adult female.

The best way to protect these young trees is to wrap their branches in fine-mesh netting before early May.

Commercial insect netting can be purchased online or from some garden centers and landscape suppliers. Tulle—the nylon or polyester mesh used to make ballerina tutus, sold in fabric and some hobby stores—works well.

Larger, healthy trees do not need to be wrapped. Damage to trees from cicadas is confined mainly to smaller twigs and branches (mostly in the range of 1/8 to 7/16 inch). As many as 600 eggs are laid in numerous, small, elongate slits made by means of a long, knife-like ovipositor. Heavily damaged twigs and branches may wilt and break off.

Tulle netting protects young tree branches from damage

Some injured branches may not die the first year, but the wounded area is a weak site on the plant and may eventually break off in a windstorm. The population of periodical cicadas is much higher than the population of annual cicadas. As a result, more damage is done by the periodical species.

Life Cycle

There are two kinds of cicadas in Northern Illinois, the annual or ‘dog day’ cicada and the periodical cicada. The annual cicadas are green to black in color with transparent wings that have green veins. The eyes are green or black. They appear each year from July to September. The periodical cicadas are black. They have red eyes and transparent wings with red to red-orange veins. They emerge in May and June for about 4 to 6 weeks. Both types of cicadas are harmless to humans. Their sound may be a minor nuisance.

Cicadas overwinter in the soil as nymphs. Periodical cicadas spend 13 or 17 years below ground, depending on the species. After completing this multi-year cycle, the full-grown nymphs make their way up to the surface where they crawl up a convenient vertical object such as a tree trunk. They emerge in Northern Illinois in late spring and are present for about 4 to 6 weeks. The outer covering (exoskeleton) of the nymph splits open, and the winged adult emerges, leaving behind the hollow skin casing. The adult cicada lives for 20-25 days. The adults feed briefly, then mate and lay hundreds of eggs. The eggs hatch in six or seven weeks. The nymphs fall to the ground and burrow into the soil, seeking suitable roots to which they can attach their piercing-sucking mouthparts. The nymphs will remain there for 13 to 17 years. The annual cicada is not truly annual.  It has a similar life cycle to the periodical cicada, but will spend two to five years below ground. Because there are overlapping broods, some adults will emerge every year.

Management

Cultural management:

When planting small trees and shrubs in a year when emergence is expected, protective measures should be exercised. Cover the branches of shrubs and small trees with fine netting, such as tulle, bird netting or insect netting during the egg-laying period. Mesh size should be about 1/4 inch. Secure the netting to the trunk in order to prevent the insects from getting inside the covering. Most evergreens, such as pines and spruces, need not be protected, since the cicadas do not lay eggs in their branches.

Chemical management:

Research has shown insecticides may kill adult cicadas but will not harm deposited egg masses. Since cicadas are a desirable food source for many animals and birds, insecticide use is not recommended.

The pesticide information presented in this publication is current with federal and state regulations. The user is responsible for determining that the intended use is consistent with the label of the product being used. The information given here is for educational purposes only. Reference to commercial products or trade names is made with the understanding that no discrimination is intended and no endorsement made by The Morton Arboretum.

For more information, contact The Morton Arboretum Plant Clinic (630-719-2424 or plantclinic@mortonarb.org).

Cicadas Due to Emerge All Over Illinois in Spring 2024

Fredric Miller, PhD, senior scientist, entomology, The Morton Arboretum

The spring of 2024 will be a banner year for the periodical cicada: Both the 13- and 17-year broods will emerge, bringing cicadas to most of Illinois in May and June. The central portion of the state (Springfield and south), except for a few extreme southern counties, will welcome Brood XIX of 13-year periodical cicadas. Areas north of Springfield, including the Chicago region and far southern Wisconsin, will experience Brood XIII of 17-year cicadas.

Mathematically, it is a very rare event for both 13- and 17- year broods to emerge in the same year (see Figures 1A and B). It happens in Illinois only every 221 years. In fact, the last time these two broods co-emerged was in 1803, the year Thomas Jefferson bought the Louisiana Purchase from France. When I personally experienced the co-emergence in 1998 of the Missouri Broods IV (17-year) and Brood XIX (13-year), it was quite noisy.

Best Management Practices

What can we do to mitigate or prevent ovipositional damage to our younger and more vulnerable woody plants, while at the same time enjoying this unique biological and ecological event? Here are some practical best management practices for homeowners and members of the forestry, orchard, and green industries:

Enjoy the event. This fascinating natural occurrence will only last for a few weeks, and it will be at least 13 years before another periodical cicada emergence.

Consider waiting to plant very young trees. If possible, avoid spring 2024 plantings of very young trees and whips less than 2 inches in diameter/caliper. Consider waiting to plant until after adult cicada activity has ceased, or until fall.

Cover vulnerable small trees with netting. If you have a limited number of susceptible plants, cover them with fine netting (such as the tulle used for ballet tutus). Make sure to gather the netting around the trunk as near to the ground as possible. Once the emergence event is over, be sure to remove the netting.

Avoid contact insecticides. Studies have not shown that application of contact insecticides is effective and it is not practical for large-scale operations. Contact insecticides can be harmful to beneficial insects, leading to insect and mite outbreaks unrelated to the cicada emergence.

Expect natural pruning. Mature and healthy trees will show some terminal branch flagging later in the season, likely in August. This will only result in some “natural pruning” and is not harmful to the plant

Periodical Cicada Life Cycle 

There are both annual cicadas and periodical cicadas. Both groups spend most of their life cycle underground. The adult annual cicada emerges from the soil and becomes active every July and August. Periodical cicadas emerge all together in late spring and early summer, generally May and early June. Periodical cicadas are only found east of the Rocky Mountains (Figure 1A). They have 13-year life cycles in the southern states and 17-year cycles farther north (Figures 3 and 4).

The 17-year periodical cicada Brood XIII, which is mostly in Illinois, consists of three species, Magicicada septendecim, M. cassini, and M. septendecula. The 13-year cicada Brood XIX, also known as the Great Southern Brood, is made up of four species, M. tredecim, M. neotredecim, M. tredecassini, and M. tredecula (Figure 1B).

Immature and adult periodical cicadas have piercing-sucking mouthparts that are used for extracting plant sap from fine roots and twigs and branches. The immature nymphs feed on roots underground for 13 to 17 years, depending on the brood. Upon emergence from the soil, adult cicadas briefly feed on a variety of woody plants. Feeding damage from the adults is minimal at most. Most plant damage results from the females using their saw-like ovipositors to lay eggs in small twigs and branches.

Once mating has been completed, the adult females, with their saw-like ovipositors, will begin cutting longitudinal slits in the twigs and branches of woody plants. They will lay up to 20 eggs in each of these “egg nests” (Figures 4, 5, and 6). An adult female can lay up to 600 eggs during her lifetime (Brown and Zuefle, 2009).

After about 6 to10 weeks, the eggs will hatch into nymphs that will drop to the soil, burrow in, and begin feeding on the fine roots of the host plant for the next 13 or 17 years (Brown and Zuefle, 2009) (Figures 4, 5, and 6).

How Cicadas Affect Trees

While most cicadas are considered generalists, with a broad range of host plants, they have preferences like all living creatures. Preferred plants for egg-laying including apple (Malus spp.), hickory (Carya spp.), maple (Acer spp.), and oaks (Quercus spp.) (Brown and Zuefle, 2009). Members of the birch (Betulaceae), dogwood (Cornaceae), walnut (Juglandaceae), willow (Salicaceae), linden (Tiliaceae), and elm (Ulmaceae) plant families may also be used.

Additional hosts may include introduced exotic ornamentals such as rose (Rosa spp.), cotoneaster (Cotoneaster spp.), forsythia (Forsythia spp.), ginkgo (Ginkgo biloba), pear (Pyrus spp.), and lilac (Syringa spp) (Brown and Zuefle, 2009).

Cicadas tend not to prefer plants whose sap or gum may prevent egg hatch or keep nymphs from escaping, such as conifers; sumac (Rhus spp.); cherries, peaches, and plums (Prunus spp.); and persimmon (Diospyros virginiana) (Brown and Zuefle, 2009). For a more comprehensive list of host plants, refer to the following references: Forsythe, 1975; White, 1980; Miller, 1997; Miller and Crowley, 1998; Cook et al., 2001.

While adult ovipositional damage on mature trees and shrubs is usually no more than natural pruning, very young woody plants and whips can be more seriously damaged and even killed. The female cicadas’ ovipositing on the young stems can cause wounds that may lead to breakage of the stem or top kill, and also may provide entry for canker-causing fungi and wood-boring insect pests (Figures 6 and 7). A number of studies have found that there appears to be a minimum and a maximum twig/branch diameter that is preferred for oviposition, ranging from 3 to 11 mm (1/8 to 7/16 inch.) (White, 1980, Karban, 1982, Miller, 1997, Miller and Crowley, 1998).

Ovipositional wounds in mature trees may allow for entry of canker-causing pathogens and wood-boring insect pests. Other forms of cicada damage may come between emergences, when heavy populations of nymphs feed on the fine roots of trees and shrubs. Heavy feeding can cause a reduction in overall plant health and depletion of energy reserves, resulting in decreased flower and fruit production..

Which Trees Are Affected

Host preference of the periodical cicada is not fully understood. Cicadas’ preference for native versus exotic plants, leaf arrangement, resin levels, light, and plant architecture may play a role in determining which plants are utilized for egg-laying. For example, a study in Delaware by Brown and Zuefle (2009) found that non-native plants tended to be more favored than native plants. In contrast, a study by Miller and Crowley (1998) at The Morton Arboretum found no significant differences in plant damage between natives and non-natives.

Regarding plant architecture, Brown and Zuefle (2009), in examining 428 plants, found that the probability of oviposition increased with greater branch/twig diameter and also with plant structure. In other words, plants with bushy, dense growth habits or with numerous long branches had higher rates of oviposition but fewer wounds per stem length, compared with plants that had a less dense and a more upright growth habit. Their results suggest that bushy plants or plants with many stems may impede cicada oviposition and also may dilute the number of wounds.

In most situations, conifers are rarely attacked, probably because the arrangement of needles on the twigs impedes the ability of the female to oviposit. The resin also can trap and kill eggs, preventing egg hatch of young nymphs. This also may also be true for gum-producing plants such as Prunus spp. (cherries, peaches, and plums) (White, 1980, Karban, 1983, Cook et al., 2001).

Miller and Crowley (1998) found that conifers and evergreens differed in their susceptibility to ovipositional damage. For example, plants such as hemlock, juniper, arborvitae, and yew with needles or leaf scales that did not completely encircle the twig and twigs that were less stout and flexible did experience some damage, as compared with other conifers that have stouter twigs and needles that completely encircle the branch, such as pines, spruces, and firs. White (1980) found that black walnut (Juglans nigra) and Osage-orange (Maclura pomifera) were rarely used for egg-laying due to their spongy pith, which contributed to egg desiccation.

Stem diameter is also a critical factor. Plants such as tree of heaven (Ailanthus altissima), Kentucky coffeetree (Gymnocladus dioicus), and sumac (Rhus spp.) that had thick, stout stems near or exceeding 10 mm (3/8 inch) in diameter were not attacked. Interestingly, however, female cicadas did attempt to oviposit in the leaf rachis of G. dioicus (diameter 4 mm or 5/32 inch), which is within the range of stem diameters for egg laying.

What about nymphal feeding on plant roots? In a study by Speer et al. (2010), they found no effect from root parasitism (feeding) by cicada nymphs prior to emergence on five Midwestern forest trees: sugar maple (Acer saccharum), white ash (Fraxinus americana),pin oak (Quercus palustris), black oak (Q. velutina), and sassafras (Sassafras albidum). However, three of the species’ chronologies showed a significant reduction in growth the year of or the year after the emergence year, and three chronologies showed an increase in growth five years following the cicada emergence event.

Another interesting phenomenon is that cicadas may use sunlight as a cue in selecting host plants. In field experiments by Yang (2006), it was discovered that female cicadas use the local light environment of host trees during the summer of emergence to select long-term host trees. Light environments may also influence oviposition microsite selection within hosts, suggesting a potential behavioral mechanism for associating solar cues with host trees.

Healing of Egg-Laying Wounds

Once ovipositional damage has occurred, how long is it before the plants “heal up” or callus over the wounds? In two studies by Miller (1997) and Miller and Crowley (1998), examining 140 exotic and native woody plant genera and 14 different urban forest parkway tree taxa, they found that most plants callused over the wounds within one to two years after a cicada emergence. Exceptions were alder (Alnus spp.), black walnut (Juglans sp.), redbud (Cercis sp.), lilac (Syringa spp), linden (Tilia spp.), honey-locust (Gleditsia triacanthos), northern red oak (Q. rubra), hackberry (Celtis occidentalis), Redmond linden (Tilia americana ‘Redmond’), and littleleaf linden (T. cordata), which took at least three years to heal.

Of course, plant health, growing conditions, and level of injury all affect wound healing rates. In spite of heavy ovipositional damage and delayed wound healing on susceptible plants, no significant canker-causing pathogens or insect pest issues were observed on these same woody landscape plants and urban parkway tree taxa.

Use of Insecticides

What about protecting vulnerable plants with insecticides? Miller and Crowley (1998) found that applications of nonsystemic (contact) insecticides were not effective and did not deter adult females from landing on host plants. In a more recent study, Ahern et al. (2005) compared the efficacy of a neonicotinoid systemic insecticide, imidacloprid, and a nonchemical control measure, netting, to reduce cicada injury. They determined that netted trees sustained very little injury, whereas unprotected trees were heavily damaged. Fewer egg nests, scars, and flags were observed on trees treated with imidacloprid compared with unprotected trees. However, the hatching of cicada eggs was unaffected by imidacloprid.

References Cited and Recommended Readings

Ahern, R.G., S.D. Frank, and M.J. Raupp. 2005. Comparison of exclusion and imidacloprid for reduction of oviposition damage to young trees by periodical cicadas (Hemiptera: Cicadidae). Journal of Economic Entomology 98(6):2133–2136.

Brown, W. and M.E. Zuefle. 2009. Does the periodical cicada, Magicicada septendecim, prefer to oviposit on native or exotic plant species? Ecological Entomology 34:346–355.

Cook, W.M., R.D. Holt, and J. Yao. 2001. Spatial variability in oviposition damage by periodical cicadas in a fragmented landscape. Oecologia 127:51–61 .

Cook, W.M. and R.D. Holt. 2002. Periodical cicada (Magicicada cassini) ovipositional damage: visually impressive yet dynamically irrelevant. American Midland Naturalist 147:124–224 .

Forsyth, H.Y. 1975.Ovipositional Host Plants of 17-Year Cicadas. Ohio Agricultural Research and Development Center Research Circular #210. 20 pp.

Karban, R. 1982. Experimental removal of 17-year cicada nymphs and growth of host apple trees. Journal of the New York Entomological Society 90:74–81 .

Karban, R. 1983. Induced responses of cherry trees to periodical cicada oviposition. Oecologia 59:226–231 .

Miller, F. 1997. Effects and control of periodical cicada, Magicicada septendecim and Magicicada cassini oviposition injury on urban forest trees. Journal of Arboriculture 23(6):225–232.

Miller, F. and W. Crowley. 1998. Effects of periodical cicada (Homoptera: Cicadidae: Magicicada septendecim and Magicicada cassini) ovipositional injury on woody plants. Journal of Arboriculture 24(5):248–253.

Smith, F.F. andR.G. Linderman. 1974. Damage to ornamental trees and shrubs resulting from oviposition by periodical cicadas. Environmental Entomology 3:725–732 .

Speer, J.H., K. Clay, G. Bishop, and M. Creech. 2010. The effect of periodical cicadas on growth of five tree species in Midwestern deciduous forests. The American Midland Naturalist 164(2):173–186

White, J. and C.E. Strehl. 1978. Xylem feeding by periodical cicada nymphs on tree roots. Ecological Entomology 3:323–327.

White, J. 1980. Resource partitioning by ovipositing cicadas. American Naturalist 115:1–28 .

White, J. 1981. Flagging: host defenses versus oviposition strategies in periodical cicadas (Magicicada spp., Cicadidae, Homoptera). Canadian Entomologist 113:727–738.

White, J., M. Lloyd, and R. Karban. 1982. Why don’t periodical cicadas normally live in coniferous forests? Environmental Entomology 11:475–482 .

Yang, L.H. 2006. Periodical cicadas use light for oviposition site selection. Proceedings of the Royal Society B, 273:2993–3000.

Figure 1A: Active Midwest periodical cicada broods

Source: U.S. Forest Service

Figure 1B: Active Illinois periodical cicada broods

Figure 2:  Life cycle of the 17-year periodical cicada

Source: Federation of American Societies for Experimental Biology

Figure 3: Adult periodical cicada

Source: Ohio State University Extension

Figure 4:  Periodical cicada egg nest

Source: University of Maryland Extension

Figure 5: Young periodical cicada nymph

Source: University of Maryland Extension

Figure 6:  Ovipositional damage to woody twigs and branches

Source: University of Maryland Extension

Figure 7: Late season flagging due to egg laying by adult female periodical cicadas

Source: Ohio State University Extension

Frequently Asked Questions

Accordion List

  • The 2024 emergence of 17-year periodical cicadas is likely to begin in early to mid-May (earlier in southern Illinois and later in northern Illinois). The exact timing depends on soil temperature, which depends on spring weather. The trigger is when the soil temperature reaches 64 degrees at a depth of 8 inches. As we get closer to May, scientists may be better able to predict the day of the emergence.

  • Brood XIII of 17-year cicadas will emerge in northern Illinois, southern Wisconsin, and northwest Indiana. Cicadas and trees have a long-term relationship, so the biggest crowds of cicadas will emerge in neighborhoods with many old, mature trees or in wooded natural areas. There will be few cicadas in new developments with no old trees, in dense urban neighborhoods with more paving than trees, or in places where the soil has been disturbed by construction. Cicadas evolved with native trees, such as oaks and maples, but nonnative trees can also host them.

  • The presence of cicadas will last only about four to six weeks. An individual cicada dies after three to four weeks, but there are always stragglers.

  • No. They do not have biting mouthparts or stingers. They have piercing-sucking mouthparts that only work on trees and shrubs. Cicadas can be annoying, but they are not any danger to people or pets.

  • No. They might accidentally blunder into you while trying to find a cicada of the opposite sex, but they are not interested in you or your pets. If a cicada lands on you, just brush it off. If you are walking in a cicada-heavy area, you might want to wear a wide-brimmed hat. Dogs and cats like to eat cicadas. The insects are edible and nontoxic. The only danger is if a pet gorges on too many cicadas and gets an upset stomach, just as it would if it ate too much of any food.

  • Yes, they will be very loud in areas where there are a lot of them. The mating call of a male cicada can sometimes be as loud as a lawnmower, and there will be millions of them. The males sing to attract females. They make the sound by vibrating drumlike structures on their abdomens to create a loud, high-pitched buzz. Each of the three local cicada species has a different call, which helps the females locate males of the right species. Only males sing; if a cicada is singing, it’s a male.

  • Scientists estimate that in a forested area, there can be up to 1.5 million cicadas per acre. The density of cicadas in your neighborhood will depend mainly on how many mature trees there are. It will also depend on whether there has been development or construction since the last emergence in 2007. Cicadas spend most of their lives underground as nymphs, so construction that disturbs the soil destroys the cicada nymphs and their habitat.

  • No. Two synchronized periodical cicada groups, or broods, are emerging simultaneously this year. However, the broods mostly inhabit different areas of the United States. In the Chicago area, we will have about the same number of cicadas this year as we do every 17 years.

  • An unusually wide swath of the eastern United States will see an emergence of cicadas this year, although only a small area Downstate may actually see more cicadas than normal. This is the first year since 1803 that two broods will emerge at the same time: Brood XIII of 17-year cicadas, whose range includes the Chicago area, northern Illinois, northwestern Indiana, southern Wisconsin, and eastern Iowa, and Brood XIX of 13-year cicadas, whose range is from central Illinois south to include most of Missouri and parts of Kentucky, Tennessee, Virginia, Maryland, North Carolina, South Carolina, Georgia, Alabama, Mississippi, Louisiana and Arkansas. Since the two broods emerge at different intervals, it is rare that they coincide–only once every 221 years. The two broods overlap only in a small area in central Illinois, which is the only place where there may be extra cicadas. Most areas, including Chicago and its suburbs, will not see more cicadas than is usual for a 17- or 13-year emergence.

  • No. Annual or dog-day cicadas, which you may see and hear every summer, are not the same species as periodical 17- or 13-year cicadas and are not part of the spring emergence. Annual cicadas will be present in late July and August in their usual numbers.

  • It is a large flying insect about 1 ½ inches long, with a black body, burnt orange to red wings with lacy veins, and bulging red eyes. Cicadas are clumsy fliers and can only fly short distances.

  • No. Your garden is safe. Cicadas do not have the mouthparts required to chew leaves or stems.

  • They do no serious harm to any healthy mature tree. When they first emerge, they feed briefly on the sap of woody plants, but not enough to affect a mature plant. The greatest damage they do is when female cicadas cut slits in slender twigs at the ends of tree branches and stems of some woody shrubs to create a place to lay their eggs. The twigs affected are between ⅛ and 7/16 inches in diameter. After the eggs hatch, those twigs may die and break off. A mature tree can spare those twigs and will soon grow new ones. The only trees at risk of significant damage are very young trees that were planted within the last couple of years, or have a trunk diameter of 2 inches or less, and older trees that are unhealthy or stressed. The special organ that female cicadas use to make slits and deposit eggs is called an ovipositor and cannot harm anything other than a twig.

  • Young trees have few branches and many of them are slender twigs with thin bark that make attractive targets for female cicadas to lay eggs. A twig can be killed because a slit made by a cicada ruins too much of the its living tissue. A very young tree may not have enough twigs to spare. The damage can be lasting because trees don’t heal wounds; instead, they seal them over with new wood. A twig that was slit by a cicada will grow into a branch and the tree will live with that damage for the rest of its life, even as it grows new rings of wood over the injury.

  • Cicadas are not particular and will use many kinds of trees and some shrubs as hosts. However, only very young trees or older trees that are unhealthy or stressed are at any risk. The insects are known to lay eggs in oak, maple, hickory, apple, birch, dogwood, linden, willow, elm, ginkgo, and pear trees. Cicadas also may lay eggs in some shrubs, such as rose, lilac, and forsythia. They tend to avoid conifers such as pine, spruce, and fir. According to Arboretum records, during the last emergence 17 years ago some of the plants most affected were maples, cherries, ashes, hawthorns, willows, mountain ashes, oaks, pears, roses, privets, poplars, serviceberries, and beeches.

  • First, make sure all your trees, old or young, are well watered and healthy, with no unaddressed disease problems. Healthy trees are always better able to withstand any pests and diseases. For young trees, wrapping their branches in netting will keep cicadas out so they can’t lay eggs in twigs, while still allowing air and sunlight to reach the tree. Wrap the tree by early May and before the insects emerge. Keep the netting on for about six weeks, until the insects have died.

  • Tulle–the nylon or polyester mesh used to make ballerina tutus–works well. It is sold in fabric and some hobby stores. Landscape supply companies also sell insect netting. The netting needs to have a fine enough mesh to keep out cicadas, with holes ¼ inch wide or less. The fabric must also be strong enough to last for several weeks on the tree. Don’t use netting with holes ½ inch wide or more; that won’t stop a cicada.

  • Wrap the entire branching area of the tree. It will likely take at least several yards of fabric. Where sheets of fabric meet, overlap the edges, tuck them under once or twice, and secure the roll with binder clips, clothespins, or staples. Below the branches, gather the netting around the trunk or the base of the shrub and clip it, staple it or tie it with twine. Make sure there is no gap more than ¼ inch. Do not tie anything around the trunk so tightly that it damages the bark. Netting must stay on the tree for about six weeks, beginning in late April or early May. Be sure to remove the netting and any string or rope tied around the trunk once the cicadas have died.

  • The Arboretum does not advise that homeowners use insecticides to attempt to control cicadas. There are too many and it would be futile. Insecticides also can be harmful to beneficial insects that control other pests, leading to insect and mite outbreaks unrelated to the cicada emergence.

  • Be aware that any tree you plant this spring will be vulnerable to cicada damage. To avoid damage, you can plan to wrap the new tree in netting or wait to purchase and plant the tree until June or the fall, from the end of September through mid-October. Avoid planting trees and shrubs in July or August, when high temperatures will stress the plants.

  • Yes. Plan to plant your young trees as soon as possible after the sale and cover them with fine-mesh netting to protect them from egg-laying cicadas before the insects emerge in the middle of May. If you are not able to plant trees before mid-May, cover them in netting in their pots and keep them outside, regularly watered, until the cicadas have subsided.

  • Wait until the cicadas have subsided to prune out any visible damage. It is often not necessary; dead twigs will likely fall off a tree, and larger branches are not affected. Studies have shown that most wounds left in twigs by cicadas callus over with new wood in one to two years.

  • The Arboretum will use netting to cover very young trees with a trunk diameter of 2 inches or less, rare species, or young trees that have few developed branches. For these young or rare trees, staff will cover the entire tree in a tulle fabric, gathering and securing the ends to each tree’s trunk. Most larger trees can tolerate cicadas’ egg-laying. Any branches that are damaged can be pruned out, if needed, after the emergence event is complete

  • Yes. When the cicada nymphs first emerge, they will shed their exoskeletons. After a few weeks, once they have mated and laid eggs, the insects will all die. There will be dead cicadas everywhere. You may need to clean cicadas off sidewalks and patios or out of gutters. When you are walking or driving in cicada-affected neighborhoods, take care, because crushed cicadas on pavement can be slick.

  • The nymph exoskeletons and the bodies of dead adults will be collected mainly in the most formal areas of the Arboretum. They will be disposed of in our compost pile, since they are rich in nutrients and minerals that can improve the compost. In areas where there are large numbers of cicada carcasses on hard surfaces such as roads, walks, or parking lots, they will be removed with a blower, broom, or shovel so that visitors and staff from don’t slip on them and in order to reduce the odor from the decaying insects. In places where there are not large numbers or on wood-chipped trails, the cicada remains will be left to break down naturally and enrich the soil.

  • Sweep or shovel them onto your garden beds or your lawn or under trees, where they will decompose and be valuable fertilizer. They will feed soil microbes and provide nutrients such as nitrogen that encourage plants’ growth. Spread them out so they will decay more quickly. If you put cicadas in your compost, make sure they are mixed with plant matter. Turn and water the compost frequently to encourage decomposition.

  • Yes. As the cicadas decay, there will be an odor of decaying cicadas for a couple of weeks.

  • Close the windows and doors or use window screens and a screen door. Keep your car windows closed too.

  • Eggs laid in twigs of trees or shrubs hatch into nymphs, which fall to the ground and burrow into the soil under the tree. For years, the nymphs live underground, feeding on tree roots and sap. They are active and growing, not hibernating. After 17 years (or 13 years for southern broods), the nymphs in each brood emerge from the soil all at once. Each nymph finds a vertical surface, usually a tree, where it sheds its exoskeleton and emerges as an adult cicada. The males begin singing to attract females for mating. They can fly short distances to find each other. Once the cicadas mate, about a week or 10 days after they emerge, the female finds an appropriate twig and uses an organ called an ovipositor to make a slit where she lays about 20 eggs. A single adult female cicada may lay up to 600 eggs in a number of twigs. Then all the adult cicadas die. Cicadas only live three to four weeks as adults aboveground; they spend more than 99 percent of their lives as nymphs in the soil.

  • They aren’t invading. They live here. Periodical cicadas are native to eastern North America and have evolved with native tree species over millions of years. They were here, mostly living underground and occasionally emerging, long before cities, suburbs, or gardens came to be.

  • When millions of cicadas are all active at the same time, their many predators, such as squirrels, can’t possibly eat them all. This ensures that enough of the cicadas will escape to mate and lay eggs, continuing the species. Cicadas have no defenses except their sheer number: They are slow, clumsy fliers that do not sting, bite, or hide. Scientists call this kind of survival strategy “predator satiation.” It’s similar to a mast year of oak trees, when there is a huge crop of acorns–too many for squirrels and blue jays to eat them all.

  • Scientists still aren’t sure. However, it’s believed that the underground nymphs have an internal molecular clock that may track the yearly life cycle of the trees they live with. They may respond to chemical changes in the root sap they feed on.

  • Some woody plants have probably developed thicker bark at a younger age. They likely have also developed mechanisms to seal off or compartmentalize the damage more efficiently to prevent decay from entering the tree.

  • A cicada emergence is a bonanza for animals. You may see many kinds of animals feeding on them, including squirrels, raccoons, skunks, foxes, coyotes, and dozens of bird species. The feeding frenzy can have complicated ripple effects on the local ecosystem. For example, with an ample food supply, more songbird hatchlings survive, so populations of some bird species increase. At the same time, birds that have plenty of cicadas to eat may not bother to hunt caterpillars of other insect species, allowing more of those insects to survive. Meanwhile, the blast of fertilizer from the decay of the cicadas causes a burst of tree and plant growth the next year.

  • No. They may be weird and annoying, but they are harmless to people and pets. Their emergence is a fascinating natural phenomenon that we only get to see every 17 years. It still has many mysteries for scientists. Periodical cicadas are so amazing that their scientific genus name is Magicicada. There are three species in Brood XIII: Magicicada septendecim, Magicicada cassini, and Magicicada septendecula, each with a different mating call.

  • Yes. People can eat them just like raccoons can. You can find recipes for cicadas on the internet.