Fighting the spread of the spotted lanternfly with a new data science tool

“The lydemapr package will aid researchers, managers and the public in their understanding, modelling and managing of the spread of this invasive pest,” says Dr. De Bona, the lead author of the study.

“Stomp, squash, smash” has been the accompanying soundtrack to the expansion of an odd-looking bug through the Eastern US. The spotted lanternfly, a large planthopper native to Asia, has been popularized in media outlets as the most recent enemy one ought to kill on sight.

Spotted lanternflies. Photo by Matthew Helmus

This charismatic insect was first discovered in the US in Berks county, Pennsylvania, in 2014, likely the result of an accidental introduction alongside shipments of landscaping materials. Since then, the invasive pest has spread throughout the country, fueled by its ability to hitch rides undetected on cargo and passenger vehicles, and aided by the widespread presence of one of its favorite food sources, the tree of heaven, another invasive in North America. As of 2023, it has been found in 14 US states.

Unfortunately, this species is not picky when it comes to the plants it consumes, favoring both crops and ornamentals, and showing a particular preference for cultivated grape. This dietary choice has impacted several wine-making areas throughout Pennsylvania and New York state, and is threatening important wine hubs on the Western coast of the US.

When it comes to controlling the spread of this pest, two of the main challenges for researchers and field managers alike are to 1) know where this species is today so that eradication campaigns can be targeted and 2) predict where it will be tomorrow, to invest in prevention practices. Both efforts rely on accurate and extensive knowledge of its past and present distribution.

Many state and federal agencies, as well as individual research institutions, have been involved in conducting surveys to detect this bug in the field. In addition, a campaign to raise public awareness has fostered the development of self-reporting tools citizens can use to track sightings of this insect. Unfortunately, given the different practices adopted by these parties, the data on the presence of spotted lanternfly are scattered and hard to access, which makes it harder to assess and manage its spread.

Spotted lanternflies. Photo by Matthew Helmus

The need to put together a current, comprehensive, consistent and openly available dataset pushed researchers at Temple University to take action. A research group led by Dr. Matthew Helmus has been closely monitoring the spread of this invasive pest since its inception, contacting institutions and collecting data. In a recent work published in the journal NeoBiota, Dr. Helmus and Dr. Sebastiano De Bona, together with collaborators across several agencies, put together an anonymized and comprehensive dataset that collected all records of spotted lanternfly in the US to date. These records come from a plethora of sources, from control actions, citizen-science projects, and research efforts. The resulting dataset contains highly detailed data (at 1 km2 resolution) with yearly information on the presence or absence of spotted lanternflies, the establishment status of this pest, and estimated population density, across over 650,000 observations.

“The lydemapr package will aid researchers, managers and the public in their understanding, modelling and managing of the spread of this invasive pest,” says Dr. De Bona, the lead author of the study.

The scientists hope that this package will make forecasting the spread of the spotted lanternfly easier and foster more effective collaboration between agencies and researchers.

Research article:

De Bona S, Barringer L, Kurtz P, Losiewicz J, Parra GR, Helmus MR. 2023. lydemapr: an R package to track the spread of the invasive Spotted Lanternfly (Lycorma delicatula, White 1845)(Hemiptera, Fulgoridae) in the United States. NeoBiota 85: 151–168, DOI: 10.3897/neobiota.86.101471

Follow NeoBiota on social media:

New blind and rare planthopper species and genus dwells exclusively in a Brazilian cave

This cave planthopper species new to science is only the second dwelling exclusively in the subterranean depths of Brazil from its family. Surviving without seeing the light of the day at any point of its life, this species has neither the eyes, nor the vivid colouration, nor the functional wings typical for its relatives.

Yet, these are only part of the reasons why the new planthopper needed to have a separate new genus established for itself. The new species is described by a research team from the Center of Studies on Subterranean Biology, Brazil, in the open access journal Deutsche Entomologische Zeitschrift.

The planthopper is called Iuiuia caeca, with the genus name (Iuiuia) referring to the locality, where it was found, and its species name (caeca) translating to ‘blind’ in Latin. It is predominantly yellowish insect that measures only 3 mm, which is small even by planthopper standards.

At first glance, the new cave planthopper appears as if it has been hiding from human eyes all along. So far, it has been located in a single cave in the Iuiú municipality, Bahia state, Brazil, where the team of Prof. Rodrigo Ferreira, Federal University of Lavras (UFLA), Brazil, spotted the insect. He then contacted cave planthopper specialist at the Museum für Naturkunde, Berlin, Prof. Hannelore Hoch, and collaboratively they decided to document and describe the new species. The limestone cave is yet to be fully explored since it floods during the rainy periods.Image 2

In the meantime, the cave’s only entrance is a small opening, which, on the other hand, clearly imposes a huge stability to the atmosphere. Moreover, although the researchers visited the cave on five occasions, they managed to find the species on two of them only. The planthopper was nowhere to be find in the neighbouring subterranean habitats either, which strongly suggests that it is a rare short-range endemic.

Being such a rarity, the blind new planthopper ought to be on the conservation radar. Although the scientists did not notice any signs of the cave having ever been visited by humans before; and its immediate surroundings have not been impacted by mining activities, yet, such threat is not to be excluded. In fact, the area is being currently evaluated for its potential for limestone extraction.

“It is to be hoped that legal measures for the conservation of the subterranean fauna of Brazil – which constitutes one of the country’s unique biological resources – will be developed and consequently reinforced,” conclude the authors.

###

Original source:

Hoch H, Ferreira RL (2016) Iuiuia caeca gen. n., sp. n., a new troglobitic planthopper in the family Kinnaridae (Hemiptera, Fulgoromorpha) from Brazil. Deutsche Entomologische Zeitschrift63(2): 171-181. doi: 10.3897/dez.63.8432