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Spotted lanternfly

The spotted lanternfly (Lycorma delicatula) is an invasive planthopper insect native to parts of Asia, including China, characterized by its distinctive gray forewings spotted with black and vibrant red hindwings marked with black spots, measuring about 1 inch (2.5 cm) in length as adults.^[1] Nymphs, which lack wings, appear black with white spots in early stages and develop red patches later, growing up to 0.6 inches (1.5 cm) long.^[2] This species feeds on the phloem sap of over 100 host plants using piercing-sucking mouthparts, with a strong preference for the invasive tree-of-heaven (Ailanthus altissima), though it also targets economically vital crops such as grapevines, stone fruits, and hops.^[1] Its one-year life cycle begins with egg masses (containing 30–50 eggs) laid in fall on tree trunks or other surfaces, hatching in spring as nymphs that undergo four instars before maturing into adults by late summer, active through fall.^[1]^[3] First detected in North America in Berks County, Pennsylvania, in 2014—likely introduced via imported stone from China—the spotted lanternfly has since spread to 19 U.S. states and the District of Columbia by 2025, driven largely by human-mediated dispersal on vehicles, firewood, and nursery stock.^[1]^[4] As a phloem-feeder, it weakens host plants by depleting sap, excretes sticky honeydew that promotes sooty mold growth, and indirectly fosters secondary pest outbreaks, posing severe threats to U.S. agriculture, particularly the fruit and grape industries, while disrupting forest ecosystems and native wildlife habitats.^[1]^[5] Management efforts, coordinated by federal and state agencies like the USDA's Animal and Plant Health Inspection Service, include quarantines, chemical controls, biological agents, and public reporting to curb its expansion, though complete eradication remains challenging due to its rapid reproduction and broad host range.^[1]^[4]

Biology

Taxonomy

The spotted lanternfly, Lycorma delicatula (White, 1845), is classified within the kingdom Animalia, phylum Arthropoda, class Insecta, order Hemiptera, family Fulgoridae, subfamily Aphaeninae, genus Lycorma Stål, 1863.^[6]^[7] This places it among the true bugs, specifically in the diverse group of planthoppers known for their sap-feeding habits and often striking morphologies. The genus Lycorma was established by Swedish entomologist Carl Stål in 1863. The species was originally described as Aphaena delicatula by British entomologist Adam White in 1845, based on specimens collected near Nanking (present-day Nanjing), China; this description appeared in volume 15 of The Annals and Magazine of Natural History.^[7]^[8] In 1863, Stål transferred it to Lycorma, resolving early taxonomic placements within the Fulgoridae.^[9] While no synonyms are commonly used in modern taxonomy, historical records include misclassifications such as Lycorma jole Stål, 1863, which was later synonymized with L. delicatula.^[9] Phylogenetically, L. delicatula belongs to the planthopper subfamily Aphaeninae within Fulgoridae, a family predominantly native to Asia and characterized by over 700 described species.^[6] Its closest relatives are other Asian genera in the family, such as Pyrops and Aphaena, as revealed by mitochondrial genome analyses.^[10] Genetic studies, including those using 13 protein-coding genes and ribosomal RNA, have confirmed the monophyly of the genus Lycorma, supporting its distinct evolutionary lineage within Fulgoridae.^[10]^[11]

Description

The spotted lanternfly (Lycorma delicatula) is a planthopper characterized by its distinctive and colorful morphology across life stages. Adults measure 25–30 mm in body length and about 12–13 mm in width, with a robust body covered in a hardened exoskeleton.^[12]^[13] The head features prominent bright red compound eyes and piercing-sucking mouthparts adapted for feeding on plant sap.^[12] The forewings are grayish-brown with scattered black spots and a speckled band near the tips, while the hindwings, visible when spread, are bright red with black spots and a yellow-white marginal band bordered in black.^[12]^[14] The scutellum is black with prominent white zigzag lines, and the abdomen displays yellow bands alternating with black stripes.^[15]^[16] Nymphs undergo four instars, growing from 3–12 mm in length overall.^[17] The first three instars are predominantly black with white spots, resembling small ticks in early stages at about 3–6 mm long; wing pads begin to appear in the third instar.^[14]^[18] The fourth instar reaches up to 12 mm and develops red patches on the abdomen along with black and white markings, marking a transition toward adult coloration.^[15]^[16] Eggs are laid in masses containing 30–50 eggs, with each mass measuring approximately 3 cm long and 1.5 cm wide.^[19]^[1] Individual eggs are small, roughly 1–1.5 mm long, cylindrical in shape, and arranged in rows.^[20] The masses are covered by a gray-brown waxy coating that resembles dried mud, providing camouflage and protection.^[1]^[15] Sexual dimorphism is evident in adults, with females slightly larger (up to 25–30 mm) than males (20–25 mm), and females exhibiting swollen red valvifers at the abdomen tip when gravid.^[13]^[14] Males possess more developed hind legs adapted for jumping.^[21] Regional color variations are minimal across populations, though stressed individuals may exhibit faded spots on wings and body due to environmental factors.^[15]

Life cycle

The spotted lanternfly (Lycorma delicatula) exhibits a univoltine life cycle, completing one generation per year in most regions. Eggs are laid in the fall, typically from September to October, and overwinter in diapause until hatching in the spring, around April to May in temperate areas like the northeastern United States.^[12] This overwintering stage protects the eggs from cold temperatures, with diapause in the eggs triggered by shortening photoperiods in late summer and fall.^[22] Nymphs emerge from eggs and progress through four instars over approximately 2–3 months, typically from late April or May to late July or August, with duration influenced by temperature.^[14]^[15] The first instar is relatively sedentary, crawling short distances after hatching, while later instars (second through fourth) become more mobile and actively feed on plant sap. Development accelerates at higher temperatures, with a base developmental threshold of about 10°C across stages; below this, growth halts.^[23] In warmer climates, such as the species' native range in parts of China, the overall nymphal period is shorter due to higher average temperatures.^[24] Adults emerge in late July to August, living for 4-6 weeks until frost in fall. Mating occurs soon after emergence, with females beginning oviposition on host plant bark, stones, or other surfaces shortly thereafter; each female typically lays 1-2 egg masses containing 30-50 eggs, for a total of up to 200 eggs per female.^[25] Hatching requires accumulated degree-days above the 10°C threshold, often around 600-900 degree-days from egg-lay to eclosion, varying by local conditions.^[26] Host preferences shift across stages, with nymphs favoring a broader range of plants early on before specializing as adults.^[12]

Ecology

Host associations

The spotted lanternfly (Lycorma delicatula) exhibits a broad host range, with over 70 confirmed plant species across more than 25 families in North America, though it displays strong preferences for certain hosts that support its development across life stages. The preferred host is Ailanthus altissima (tree of heaven), an invasive species that provides optimal phloem sap for feeding and bark texture that camouflages egg masses laid on its trunks and branches.^[1] This host enhances survival and reproduction, with all life stages—from eggs to adults—utilizing it, though it is not obligate.^[27] Primary hosts include economically important species such as Vitis vinifera (grapevine), Malus domestica (apple), Juglans spp. (walnut), Acer spp. (maple), and Quercus spp. (oak), particularly within families like Vitaceae, Rosaceae, and Fagaceae. Nymphs are highly polyphagous, feeding on a wide variety of broadleaf plants including tender shoots of maples and walnuts, while changing hosts as they develop through instars.^[28] Adults show greater selectivity, aggregating on high-sap producers like tree of heaven, grapevines, and apple trunks, though they may feed on over 100 species in aggregate observations.^[29] The insect employs piercing-sucking mouthparts to insert stylets into the phloem of host plants, extracting sap primarily from stems, trunks, and vines rather than leaves or fruit.^[30] Nymphs target softer tissues on young growth, while adults prefer lignified structures, leading to direct damage through sap depletion that causes wilting and stress in hosts.^[31] As a byproduct of feeding, spotted lanternflies excrete honeydew, a sugary liquid that accumulates on plant surfaces and promotes the growth of sooty mold fungi, indirectly exacerbating host debilitation by blocking photosynthesis.^[1]

Behavior

The spotted lanternfly, Lycorma delicatula, exhibits locomotion adapted for short-range movement rather than long-distance flight. Nymphs primarily crawl and jump distances up to 2-3 meters (6-9 feet), relying on their strong hind legs for propulsion, while lacking wings until the adult stage.^[32]^[33] Adults prefer walking, hopping, and gliding over sustained flight, though they can fly short distances of a few meters when disturbed or seeking new hosts; their hind legs are specialized for powerful leaps, enabling rapid evasion.^[15]^[32] Aggregation behavior is prominent in both nymphal and adult stages, facilitating feeding and mating. Nymphs form groups that grow larger with each instar, often numbering in the hundreds on host plants, where they compete for feeding sites at high densities through aggressive interactions such as pushing or displacing conspecifics.^[15] Adults cluster in large numbers on preferred "hot trees" for weeks, with aggregation mediated by pheromones; males and females respond to body volatiles and honeydew combinations, showing dose-dependent attraction that peaks during mating and oviposition periods.^[34]^[34] Sensory responses guide the spotted lanternfly's host location and interactions. The insect is attracted to vibroacoustic stimuli, such as 60-Hz vibrations broadcast in laboratory settings, which elicit orientation toward the source in both adults and fourth-instar nymphs, suggesting a role in communication or host detection.^[35] Visual cues from host plant colors and structures also influence orientation, particularly for nymphs navigating to tender growth.^[36] The species poses no direct threat to humans, lacking biting or stinging capabilities, but adults employ a startle display by rapidly flashing their colorful hindwings to deter predators.^[37] Dispersal combines active and passive strategies for survival and spread. Actively, individuals use jumping and short flights for local movement, with adults observed climbing to elevated positions, fluttering upward, and gliding on wind currents to cover distances beyond their flight capacity. Passively, egg masses adhere to vehicles, firewood, and other transported items, enabling human-mediated relocation over long distances.^[21] Reproductive behavior emphasizes mate location and protected oviposition without parental investment. Males court females through wing fanning and pheromone release, synchronizing with peak aggregation in late summer to early fall.^[34] Females then lay eggs secretly in crevices under bark or on smooth surfaces, covering masses with a waxy secretion for camouflage; no post-laying care is provided, with offspring hatching independently the following spring.^[15]

Distribution

Native range

The spotted lanternfly, Lycorma delicatula, is native to parts of East and Southeast Asia, with its primary range encompassing much of China, northern Vietnam, and regions of India. In China, the species is distributed across numerous provinces, including southern areas such as Fujian, Guangdong, Guangxi, and Yunnan, as well as more northern and central regions like Anhui, Hubei, and Sichuan. Northern Vietnam represents a key portion of its Southeast Asian distribution, while in India, confirmed occurrences are limited to northeastern areas, though some reports remain unverified. This indigenous distribution reflects the insect's adaptation to diverse Asian ecosystems prior to human-mediated spread.^[38]^[21]^[39] Within its native range, L. delicatula inhabits temperate to subtropical forests, river valleys, and edges of agricultural landscapes, favoring humid environments with abundant host plants such as Ailanthus altissima (tree of heaven). These habitats provide the woody and herbaceous vegetation necessary for feeding and reproduction, with populations often concentrated near stands of preferred trees that exude high-sugar phloem sap. Elevations typically range up to approximately 1,500 meters, allowing the species to occupy varied topographies from lowland valleys to mid-altitude woodlands. The insect's presence is closely tied to these ecological niches, where it interacts with a broad array of native flora without causing significant disruption.^[38]^[21]^[40] Population dynamics in the native range are characterized by relatively low densities in undisturbed areas, maintained by natural predators including birds, spiders, and parasitoid wasps such as Anastatus orientalis and Dryinus browni. These biotic controls prevent outbreaks, and no major population explosions have been recorded in indigenous habitats prior to introductions elsewhere. Genetic studies indicate the highest diversity in central and southwestern China, suggesting this region as the likely center of origin, with phylogeographic lineages diverging into six distinct groups across Asia. Historical records date back to the 19th century, with the species first described in 1845 based on Chinese specimens, and museum collections confirming its long-standing presence in these areas.^[41]^[38]^[40]^[40]

Introduced ranges

The spotted lanternfly (Lycorma delicatula) was first introduced to South Korea in 2006, likely arriving as egg masses on a stone shipment from China, and rapidly established populations across the country by 2010.^[42] In Japan, the species was detected as early as 2009 in Ishikawa Prefecture, with limited populations noted in subsequent surveys, including ongoing monitoring in areas like Tokyo following a 2020 detection in Kanazawa City.^[43]^[44] In North America, the initial U.S. detection occurred in Berks County, Pennsylvania, in 2014, traced to international cargo containing egg masses on a stone shipment from China.^[1] As of November 2025, established populations had spread to 20 states and the District of Columbia, including Connecticut, Delaware, Georgia, Illinois, Indiana, Iowa, Kentucky, Maryland, Massachusetts, Michigan, New Jersey, New York, North Carolina, Ohio, Pennsylvania, Rhode Island, South Carolina, Tennessee, Virginia, West Virginia, and the District of Columbia.^[1]^[45]^[46] The first Canadian detection was in Ontario in 2022 near the U.S. border, with subsequent interceptions including live adults on Pelee Island and in Fort Erie by September 2025, though no widespread establishment has been confirmed.^[47]^[48] Primary pathways of spread in North America include human-mediated transport via vehicles, rail cars, nursery stock, and outdoor items like firewood and furniture.^[1] In Europe, detections remain sporadic and unestablished as of late 2025, with interceptions reported but no confirmed breeding populations; for instance, egg masses and adults have been found on imported plants, prompting alerts in countries like Germany, the Netherlands, France, and the United Kingdom.^[49]^[50] Trade in ornamental and woody plants serves as the main entry pathway.^[51] No established populations exist in Oceania as of 2025, though interceptions of egg masses and live adults have occurred at Australian ports, including in New South Wales, from 2020 onward, primarily on imported cargo and containers.^[52] Strict biosecurity measures, such as inspections and treatments at borders, have prevented settlement.^[53] Human-assisted long-distance dispersal drives the species' expansion, with radial spread rates in the U.S. estimated at 15–46 km per year based on occurrence data from 2014 to 2021.^[54] Recent 2025 updates include new quarantines in Michigan's Jackson and Lenawee counties following confirmed populations, while Virginia repealed its statewide quarantine in March 2025 after successful containment efforts.^[55]^[56]

Impacts

Ecological impacts

The spotted lanternfly (Lycorma delicatula) inflicts direct damage on host plants through its phloem-feeding behavior, which involves piercing plant tissues to extract sap. This feeding activity leads to symptoms such as oozing sap, wilting, leaf curling, branch dieback, and girdling, particularly in severe infestations on preferred hosts like grapevines and certain trees. In vineyards, heavy populations can weaken vines by reducing photosynthesis and sap flow, resulting in loss of winter hardiness, diminished crop yields, and even vine mortality; for instance, one Pennsylvania vineyard reported approximately 10% vine death due to lanternfly feeding. Stressed or young plants are especially vulnerable, with prolonged feeding exacerbating susceptibility to secondary infections and pathogens.^[15]^[57]^[58] Secondary effects arise from the lanternfly's excretion of honeydew, a sugary waste product that promotes the growth of sooty mold fungi such as Aureobasidium species. This black fungal coating accumulates on leaves, stems, and surrounding surfaces, blocking sunlight and substantially reducing photosynthesis in affected plants by limiting light penetration. The honeydew also attracts scavenging insects, including ants and wasps, which feed on it and can alter local arthropod dynamics; for example, studies in eastern Pennsylvania forests show shifts in ant communities, favoring dominant species like Camponotus chromaiodes while reducing populations of seed-dispersing ants such as Aphaenogaster picea, potentially disrupting plant reproduction and pollinator interactions. Additionally, sooty mold and honeydew support increased abundance of terrestrial slugs, with infested sites exhibiting up to 87 slugs per sample and higher biomass (up to 3.5 g per sample), which may intensify seed predation and alter ground-level food webs.^[1]^[15]^[59] In introduced ecosystems, spotted lanternfly infestations disrupt broader community structures by weakening native and ornamental plants, including hardwoods like maples and oaks, and fostering associations with invasive species such as tree-of-heaven (Ailanthus altissima), a preferred host that experiences less mortality from feeding compared to other plants. This can indirectly promote the persistence and expansion of A. altissima stands, as lanternflies aggregate on them without causing widespread die-off, potentially shifting forest compositions toward invasive dominance. High densities in U.S. forests correlate with degraded understory health, where sooty mold buildup on foliage leads to plant death and reduced vigor, impacting herbivores, birds, and other wildlife dependent on these layers for habitat and forage; however, no direct toxicity to non-target animals has been documented. Cascading effects may extend to soil communities through fallen honeydew, influencing microbial activity and nutrient cycling, though long-term data remain limited.^[60]^[5]^[54] In its native range in Asia, ecological impacts are minimal due to established predators and parasitoids that regulate populations, preventing widespread disruption. In contrast, introduced areas like the eastern United States lack these natural controls, allowing unchecked proliferation that alters forest and woodland ecosystems over time, with potential for lasting changes in plant diversity and trophic interactions absent effective management.^[61]^[39]

Economic impacts

The spotted lanternfly (Lycorma delicatula) imposes substantial economic burdens on agriculture, forestry, and associated industries in infested areas, primarily through direct crop damage, reduced yields, and compliance requirements. A 2019 economic analysis estimated that, if unchecked, the pest could result in annual statewide losses of $324.9 million in Pennsylvania, encompassing direct damages of $42.6 million, indirect supply chain effects, and induced spending reductions; adjusted for inflation using U.S. Consumer Price Index data, this equates to approximately $400 million by 2025. These impacts stem from the insect's sap-feeding behavior, which weakens plants and promotes sooty mold, leading to diminished photosynthesis and fruit quality.^[62]^[63]^[64] The grape industry faces the most severe agricultural losses, with untreated vineyards in Pennsylvania experiencing yield reductions of up to 90% due to heavy feeding that reduces carbohydrate reserves and fruit sugar concentrations. In New York, projections for the state's major viticulture regions—the Finger Lakes and Lake Erie—indicate escalating losses from spotted lanternfly infestations: $1.5 million in the first year, $4 million in the second, and $8.8 million in the third, based on Pennsylvania infestation patterns applied to New York production data. Tree fruit sectors, including apples and peaches, suffer milder but notable yield drops of 3–7.5%, with direct losses contributing to the broader $7.7 million expected impact on fruit, nut, and berry crops in Pennsylvania's adjacent counties.^[65]^[66]^[67]^[68] Nursery and timber industries incur over $100 million in annual compliance and best management practice (BMP) costs across Pennsylvania, including $22.9 million for nurseries and $219.6 million for timber operations statewide under worst-case scenarios, driven by inspection, treatment, and quarantine protocols to prevent spread. Job losses amplify these effects, with up to 2,810 positions at risk annually in Pennsylvania, affecting vineyard workers, loggers, fruit harvesters, and compliance inspectors.^[62]^[69] Mitigation expenses further strain resources, with integrated management in vineyards covering insecticides, scouting, and barriers; in Pennsylvania, statewide BMP costs for agriculture alone reach $106.4 million annually. Without effective containment, the spotted lanternfly threatens the $18 billion U.S. fruit industry, factoring in expanded spread to high-value crops in states like New York, Virginia, and Ohio.^[66]^[62]^[70]

Management and control

Prevention and regulatory measures

Quarantine protocols in the United States are primarily implemented at the state level, with coordination from the USDA Animal and Plant Health Inspection Service (APHIS), to restrict the movement of regulated articles that could spread the spotted lanternfly, such as firewood, nursery stock, landscaping materials, and vehicles from infested areas.^[1] As of August 2025, infestations have been confirmed in 19 states and the District of Columbia, prompting quarantines in affected regions to prevent further expansion through human-mediated transport.^[1] For example, in Michigan, the Department of Agriculture and Rural Development confirmed new populations in Jackson County in November 2025, leading to proposed expansions of interior quarantine zones along the state's southern and eastern borders to include additional counties like Lenawee, Macomb, Monroe, Oakland, and Wayne.^[55] Inspection and certification processes are enforced to ensure compliance with these protocols, including mandatory checks at ports of entry and state borders for potential hitchhikers on imported goods or domestic shipments.^[1] APHIS provides training for inspectors on detecting egg masses and other life stages, enabling rapid identification during routine inspections of cargo and vehicles.^[1] Businesses operating in infested zones must enter compliance agreements with state agriculture departments, certifying that regulated articles are inspected and treated if necessary before movement, often through self-inspection records or permits.^[71] Public awareness campaigns play a crucial role in prevention, with initiatives like the "Don't Move Firewood" program educating travelers and campers on the risks of transporting untreated wood, which can harbor egg masses or nymphs.^[72] Hotlines such as 1-888-4BAD-FLY allow for immediate reporting of sightings, while mobile apps like EDDMapS enable citizen-submitted photos for verification by authorities.^[73] Educational materials distributed by APHIS and state agencies focus on identifying egg masses—grayish clusters resembling smudged paint on tree bark—to encourage early reporting and destruction.^[1] Internationally, countries have adopted stringent measures to block entry of the spotted lanternfly via trade routes. In Australia, the Department of Agriculture, Fisheries and Forestry enforces biosecurity protocols at borders.^[52] The European Union requires plant passports for the movement of woody plants and nursery stock within member states, certifying freedom from regulated pests like the spotted lanternfly to prevent accidental introduction through horticultural imports.^[74] Monitoring efforts support these preventive strategies through targeted surveys using circle traps, which encircle tree trunks to capture ascending nymphs and adults, often deployed on preferred hosts like tree-of-heaven and enhanced with baits incorporating host plant volatiles for increased efficacy.^[75] Early detection and rapid response teams operate in high-risk areas, such as California, conducting grid searches and visual surveys to identify and delimit new infestations before they establish.^[76]

Suppression methods

Mechanical controls for spotted lanternfly (Lycorma delicatula) populations focus on physical removal and trapping to target vulnerable life stages, particularly eggs and nymphs. Egg masses, which contain 30-50 eggs each, can be scraped from host trees using tools like paint scrapers or wire brushes and destroyed by submersion in alcohol, soapy water, or by smashing; this method is most effective when performed in winter or early spring before hatching, potentially reducing local populations by eliminating viable eggs on accessible surfaces, though only about 2% of masses are within reach below 10 feet. Tree banding, involving sticky bands or funnel-style circle traps placed around trunks at about 4 feet high from late April to June, captures climbing nymphs by trapping them on adhesive surfaces, with protective mesh recommended to minimize non-target wildlife impacts; these traps are particularly useful for early instar nymphs but less so for adults. High-pressure water sprays can knock nymphs and adults from plants, followed by collection in soapy solutions for drowning, providing a non-chemical option for small-scale infestations in home gardens. Chemical controls primarily rely on insecticides applied to target nymphs and adults during active feeding periods. Neonicotinoids such as imidacloprid, applied via trunk sprays, soil drenches, or injections, achieve high mortality rates, with studies showing up to 100% kill within 24 hours for exposed individuals, though efficacy varies by application method and residual activity can extend for weeks. Systemic treatments like dinotefuran injections are highly effective against adults, killing them in under 24 hours, and are recommended post-bloom (July-September) to protect pollinators; contact insecticides including bifenthrin and carbaryl offer excellent knockdown for nymphs in May-June, with residuals up to two weeks. Current guidelines from 2024-2025 emphasize integrated pest management (IPM) principles to rotate chemicals and prevent resistance development, prioritizing least-toxic options and scouting before treatment. Biological controls leverage natural enemies to suppress populations, though impacts remain limited without augmentation. Predatory birds such as chickadees and generalist insects like spiders and praying mantises consume nymphs and adults, while native parasitoids including Dryinidae wasps attack various stages; however, these provide inconsistent population-level control. Entomopathogenic fungi like Beauveria bassiana, applied as mycoinsecticides, reduce nymph populations by 48% and adults by 43% after 14 days in field trials, with over 90% adult mortality achievable after 9 days under optimal conditions, though efficacy is variable due to environmental factors and not yet recommended for widespread use. Research on classical biological control from the native range includes evaluation of egg parasitoids such as Anastatus orientalis and Ooencyrtus kuvanae (a naturalized species), with host-range testing ongoing since 2023 to assess safety for U.S. release, though no agents have been approved for field deployment as of 2025. Integrated pest management (IPM) combines these approaches for sustainable suppression, such as girdling or removing preferred hosts like tree-of-heaven (Ailanthus altissima) to limit breeding sites, followed by targeted insecticide applications and mechanical trapping. For example, trap trees baited with preferred hosts can concentrate populations for treatment, reducing overall densities when integrated with area-wide efforts. Efficacy monitoring from the 2025 Spotted Lanternfly Summit highlights the use of soybean oils on egg masses as a low non-target impact option, though less effective on high-placed masses compared to post-hatch treatments; area-wide programs in Pennsylvania, involving egg scraping, banding, and bifenthrin applications timed to 50% hatch, have demonstrated substantial reductions in infestation levels through coordinated public and regulatory actions.

References

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Genus Lycorma Stal, 1863 – Planthoppers of North America
Family Fulgoridae Latreille, 1807. Subfamily Aphaeninae Blanchard, 1847. Tribe Aphaenini Blanchard, 1847. Genus Lycorma Stål, 1863: 234.
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[28]
Performance and host association of spotted lanternfly (Lycorma ...
Aug 4, 2021 · Lycorma delicatula (spotted lanternfly) has a broad host range with a strong preference for the invasive host plant from its native range, tree of heaven ( ...
[29]
[PDF] Management of Spotted Lanternfly (Lycorma delicatula ...
May 20, 2024 · The host range of SLF is broad in early development stages, but host preference tends to narrow as they develop (Kim et al. 2011). Host ...
[30]
The impact of host plant species on instar duration and body weight ...
The effect of different host plant species on the development of nymphal Lycorma delicatula. Nymphal rearing in 2020. For this first year, the host plants used ...
[31]
Have you seen Spotted Lanternfly?
Spotted lanternfly do not feed on flowers, leaves or fruit. Instead, they eat phloem or sap from the trunks and stems of their host plants. They are also non- ...
[32]
[PDF] Spotted Lanternfly Control Program in the Mid-Atlantic Region, North ...
Apr 3, 2023 · SLF nymphs have a broad host range and will change hosts while going through developmental stages. They are stem and trunk feeders. 2 ...
[33]
Spotted Lanternfly - Wisconsin Horticulture
Apr 30, 2025 · Tree of heaven (Ailanthus altissima) is a preferred host plant for SLF. Tree of heaven is an invasive, non-native plant that grows in disturbed ...
[34]
Spotted Lanternflies Respond to Natural Pheromone Lures for Mate ...
Jun 13, 2024 · ... sexually dimorphic responses to ... Responses of adult spotted lanternflies to artificial aggregations composed of all males or females.
[35]
Evidence of Receptivity to Vibroacoustic Stimuli in the Spotted ...
Oct 28, 2022 · This report demonstrates that adult and fourth-instar L. delicatula were attracted towards broadcasts of 60-Hz vibroacoustic stimuli directed to a laboratory ...
[36]
Factors Guiding the Orientation of Nymphal Spotted Lanternfly ...
Mar 11, 2023 · A mark–release–recapture experiment was conducted to evaluate the orientation of spotted lanternfly (SLF) Lycorma delicatula White (Hemiptera: ...
[37]
Spotted Lanternfly | USU
Spotted lanternfly (SLF) is an invasive planthopper that was first detected in the U.S. in Pennsylvania in 2014, and is not known to occur in Utah.Missing: George 1858
[38]
Lycorma delicatula (LYCMDE)[Datasheet]| EPPO Global Database
### Summary of Lycorma delicatula Native Geographic Distribution
[39]
Spotted Lanternfly | National Invasive Species Information Center
A native of China, the insect was discovered in Pennsylvania in 2014 and has since spread to 13 other states. Though beautiful as an adult, the insect is a ...
[40]
Global phylogeography and invasion history of the spotted lanternfly ...
Dec 14, 2020 · Phylogenomic analyses revealed that the spotted lanternfly originated from southwestern China, diverged into six phylogeographic lineages, and ...
[41]
Cryptic genetic diversity and associated ecological differences of ...
Lycorma delicatula is native to China (3), where populations are typically relatively low in density, and it is not a significant pest (4). To control the ...
[42]
Spotted Lanternfly - NYIS - New York Invasive Species
May 30, 2019 · It was originally from China and southern Asian countries such as India. It is likely to become a serious agricultural pest without natural ...Missing: etymology | Show results with:etymology
[43]
Evaluating the origin and spread of spotted lanternfly (Lycorma ...
Nov 28, 2024 · Spotted lanternfly Lycorma delicatula is an emergent invasive agricultural pest native to China, and has invaded the Republic of Korea ...
[44]
Ecology and genetic structure of the invasive spotted lanternfly ...
Feb 1, 2022 · Lycorma delicatula has expanded its distribution from China to Japan, Korea, and the USA, causing significant economic damage to vineyards ...Missing: provinces | Show results with:provinces
[45]
Destructive spotted lanternfly found near Canadian border
More than 100 Spotted Lanternfly (SLF) adults have been discovered in the city since September 9, 2022. While spotted lanternfly has not yet been detected ...
[46]
https://www.tn.gov/agriculture/news/2025/9/18/spotted-lanternfly-detected-in-east-tennessee.html
[47]
The spotted lanternfly: a threat for Europe's vineyards and orchards
Nov 28, 2024 · It has not yet been detected in Europe but experts fear that it will arrive. The spotted lanternfly feeds on a large number of plant species ...<|separator|>
[48]
[PDF] Spotted lanternfly - Lycorma delicatula - Defra Plant Health Portal
Geographical Distribution. Spotted lanternfly is native to China, and has been introduced to Japan, South Korea,. Taiwan, Vietnam and the USA. In the USA, it ...Missing: provinces | Show results with:provinces
[49]
Lycorma delicatula (spotted lanternfly) | CABI Compendium
Lycorma delicatula, also known by the common name spotted lanternfly (SLF), is an economically damaging plant pest native to China and Southeast Asia.Missing: etymology | Show results with:etymology
[50]
Spotted lanternfly - DAFF
Mar 21, 2025 · Spotted lanternfly is most likely to enter Australia in the egg stage on smooth surfaces of containers and cargo. Look for egg masses with a ...Missing: interception | Show results with:interception
[51]
[PDF] Spotted lanternfly | Plant Health Australia
The spotted lanternfly is an invasive planthopper pest from Asia that feeds on many plants, causing wilting and dieback. It is not known to be in Australia.Missing: interception 2025
[52]
Spatial dynamics of spotted lanternfly, Lycorma delicatula, invasion ...
Dec 6, 2021 · Estimated spread rates varied from 15–46 km per year among our three methods. Spread rate estimated by effective range radius was 46.2 km/year ...
[53]
https://www.planthealthaustralia.com.au/wp-content/uploads/2024/01/Spotted-lanternfly-FS.pdf
[54]
Spotted Lanternfly (Lycorma Delicatula)
The Spotted lanternfly is an invasive insect pest in Virginia that damages grape vines, fruit trees, maples, and a wide variety of other plants by feeding on ...Missing: Lycorminae | Show results with:Lycorminae
[55]
Spotted Lanternfly Damage - Cornell CALS
The combination of honeydew and sooty mold production has a negative effect on the quality of life for residents in areas with high populations of spotted ...
[56]
So Long Spotted Lanternfly — Ag Science Magazine
Apr 19, 2021 · Despite its name, the spotted lanternfly is not a frequent or strong flyer, a weakness that may hinder its ability to travel long distances, at ...Missing: assisted | Show results with:assisted
[57]
https://cals.cornell.edu/integrated-pest-management/outreach-education/whats-bugging-you/spotted-lanternfly/spotted-lanternfly-damage
[58]
Spotted Lanternfly in Perspective (U.S. National Park Service)
Feb 18, 2021 · Spotted lanternfly (SLF) adults prefer tree-of-heaven, but can complete their life cycle by using more than 100 other species. SLF alone rarely ...
[59]
Lycorma delicatula | INFORMATION - Animal Diversity Web
Scientific Classification ; Class, Insecta insects ; Order, Hemiptera ; Family, Fulgoridae ; Genus, Lycorma.
[60]
[PDF] Potential Economic Impact of the Spotted Lanternfly on Agriculture ...
From this data, it is estimated that the expected overall annual direct economic impact of SLF damage on. Pennsylvania agriculture is $13.1 million in the ...
[61]
Inflation Calculator | Find US Dollar's Value From 1913-2025
Easily calculate how the buying power of the U.S. dollar has changed from 1913 to 2025. Get inflation rates and U.S. inflation news.Current US Inflation Rates · Historical Inflation Rates · FAQ's · Inflation and Prices
[62]
CPI Inflation Calculator - Bureau of Labor Statistics
No information is available for this page. · Learn why
[63]
This Voracious, Unstoppable Bug Is Killing Off Vineyards | WIRED
Aug 2, 2019 · Some Pennsylvania wine growers have reported losing 90 percent of their grapes due to damage from the invasive spotted lanternfly.
[64]
https://www.bls.gov/data/inflation_calculator.htm
[65]
Spotted lanternflies could cost NYS grape industry millions
Jan 27, 2025 · Researchers found that losses could reach $1.5 million, $4 million and $8.8 million in the first, second and third years of infestation, respectively.Missing: untreated | Show results with:untreated
[66]
Fulgoridae) infestations on grape production in New York State
Jan 20, 2025 · Grape growers in Pennsylvania have reported yield reductions attributed to inadequate control of spotted lanternfly (Leach and Leach 2020a).
[67]
Assessing Economic Impact — Research
The spotted lanternﬂy—an invasive nonnative insect—feeds on the sap of fruit, ornamental, and woody plants, posing a signiﬁcant threat to the state's economy.
[68]
[PDF] Plant Protection Act Section 7721 Fiscal Year 2025 Spending Plan
The U.S. Department of Agriculture (USDA) Animal and Plant Health Inspection Service (APHIS) is allocating more than $70 million ($70.725 million) to support ...
[69]
Spotted Lanternfly - SLF - CT.gov
As of July 2025, SLF has been seen in all counties, but sustaining populations have not been confirmed in every county.Missing: Australia | Show results with:Australia
[70]
Spotted Lanternfly - Don't Move Firewood
Mar 19, 2025 · APHIS has never established a federal quarantine for the spotted lanternfly. ... State agencies and APHIS will jointly coordinate Federal, state ...
[71]
Spotted Lanternfly Quarantine and Reporting Information - Stop SLF
Call 1-888-4BAD-FLY (1-888-422-3359) with questions on spotted lanternfly management or to report a sighting, or report a sighting online.Missing: 2025 | Show results with:2025
[72]
Plant passports | EFSA - European Union
May 7, 2025 · By using plant passports, authorities and traders can monitor the movement of plants, helping to prevent the spread of harmful organisms and ...
[73]
Developing Traps for the Spotted Lanternfly, Lycorma delicatula ...
Jan 28, 2020 · The spotted lanternfly, Lycorma delicatula (White), is a phloem-feeding fulgorid generalist from China, which was recently discovered in the ...
[74]
CDFA - PDCP - PD/GWSS Board - Spotted Lanternfly
Origin: The spotted lanternfly is an invasive plant hopper that is native to China and likely arrived in North America hidden on goods imported from Asia.