TY - JOUR
T1 - Invasion and spread of the neotropical leafhopper Curtara insularis (Hemiptera, Cicadellidae) in Africa and North America and the role of high-altitude windborne migration in invasive insects
AU - Nartey, Rita
AU - Chamorro, Lourdes
AU - Buffington, Matt
AU - Afrane, Yaw A.
AU - Mohammed, Abdul Rahim
AU - Owusu-Asenso, Christopher M.
AU - Akosah-Brempong, Gabriel
AU - Pambit-Zong, Cosmos M.
AU - Hendrix, Solomon V.
AU - Dao, Adama
AU - Yaro, Alpha S.
AU - Diallo, Moussa
AU - Sanogo, Zana L.
AU - Djibril, Samake
AU - Halbert, Susan E.
AU - Bamou, Roland
AU - Nance, Catherine E.
AU - Bartlett, Charles R.
AU - Reynolds, Don R.
AU - Chapman, Jason W.
AU - Obiri-Danso, Kwasi
AU - Lehmann, Tovi
N1 - Publisher Copyright:
This is an open access article distributed under the terms of the CC0 Public Domain Dedication.
PY - 2024
Y1 - 2024
N2 - Invasive insects threaten ecosystem stability, public health, and food security. Documenting newly invasive species and understanding how they reach into new territories, establish populations, and interact with other species remain vitally important. Here, we report on the invasion of the South American leafhopper, Curtara insularis into Africa, where it has established populations in Ghana, encroaching inland at least 350 km off the coast. Importantly, 80% of the specimens collected were intercepted between 160 and 190 m above ground. Further, the fraction of this species among all insects collected was also higher at altitude, demonstrating its propensity to engage in high-altitude windborne dispersal. Its aerial densities at altitude translate into millions of migrants/km over a year, representing massive propagule pressure. Given the predominant southwesterly winds, these sightings suggest an introduction of C. insularis into at least one of the Gulf of Guinea ports. To assess the contribution of windborne dispersal to its spread in a new territory, we examine records of C. insularis range-expansion in the USA. Reported first in 2004 from central Florida, it reached north Florida (Panhandle) by 2008–2011 and subsequently spread across the southeastern and south-central US. Its expansion fits a “diffusion-like” process with 200—300 km long “annual displacement steps”—a pattern consistent with autonomous dispersal rather than vehicular transport. Most “steps” are consistent with common wind trajectories from the nearest documented population, assuming 2—8 hours of wind-assisted flight at altitude. Curtara insularis has been intercepted at US ports and on trucks. Thus, it uses multiple dispersal modalities, yet its rapid overland spread is better explained by its massive propagule pressure linked with its high-altitude windborne dispersal. We propose that high-altitude windborne dispersal is common yet under-appreciated in invasive insect species.
AB - Invasive insects threaten ecosystem stability, public health, and food security. Documenting newly invasive species and understanding how they reach into new territories, establish populations, and interact with other species remain vitally important. Here, we report on the invasion of the South American leafhopper, Curtara insularis into Africa, where it has established populations in Ghana, encroaching inland at least 350 km off the coast. Importantly, 80% of the specimens collected were intercepted between 160 and 190 m above ground. Further, the fraction of this species among all insects collected was also higher at altitude, demonstrating its propensity to engage in high-altitude windborne dispersal. Its aerial densities at altitude translate into millions of migrants/km over a year, representing massive propagule pressure. Given the predominant southwesterly winds, these sightings suggest an introduction of C. insularis into at least one of the Gulf of Guinea ports. To assess the contribution of windborne dispersal to its spread in a new territory, we examine records of C. insularis range-expansion in the USA. Reported first in 2004 from central Florida, it reached north Florida (Panhandle) by 2008–2011 and subsequently spread across the southeastern and south-central US. Its expansion fits a “diffusion-like” process with 200—300 km long “annual displacement steps”—a pattern consistent with autonomous dispersal rather than vehicular transport. Most “steps” are consistent with common wind trajectories from the nearest documented population, assuming 2—8 hours of wind-assisted flight at altitude. Curtara insularis has been intercepted at US ports and on trucks. Thus, it uses multiple dispersal modalities, yet its rapid overland spread is better explained by its massive propagule pressure linked with its high-altitude windborne dispersal. We propose that high-altitude windborne dispersal is common yet under-appreciated in invasive insect species.
KW - Africa
KW - high-altitude windborne dispersal
KW - invasive species
KW - leafhopper
KW - range-expansion
KW - vehicular transport
UR - http://www.scopus.com/inward/record.url?scp=85210540050&partnerID=8YFLogxK
U2 - 10.3897/NEOBIOTA.96.130615
DO - 10.3897/NEOBIOTA.96.130615
M3 - Article
AN - SCOPUS:85210540050
SN - 1619-0033
VL - 96
SP - 173
EP - 189
JO - NeoBiota
JF - NeoBiota
ER -