Biodiversity Data Journal 11: e101000 OO)
doi: 10.3897/BDJ.11.e101000 open access
Data Paper

Firefly (Coleoptera, Lampyridae) species from the
Atlantic Forest hotspot, Brazil

Stephanie Vaz?, Mariana Mendes*, Gabriel Khattar8, Margarete Macedot, Cristina Ronquillo’,
Alejandra Zarzo-Arias!1, Joaquin Hortal***“, Luiz Silveira”

+ Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil

§ Concordia University, Montreal, Canada

| Museo Nacional de Ciencias Naturales (MNCN-CSIC), Madrid, Spain

q Universidad de Oviedo, Asturias, Spain

# Dept. Biogeography & Global Change, BEI-MNCN-CSIC, Madrid, Spain
= Universidade Federal de Goias, Goiania, Brazil

« Faculdade de Ciéncias da Universidade de Lisboa, Lisboa, Portugal

» Western Carolina University, Cullowhee, United States of America

Corresponding author: Cristina Ronquillo (cristinaronquillo@mncn.csic.es)

Academic editor: Vinicius S. Ferreira

Received: 25 Jan 2023 | Accepted: 18 Mar 2023 | Published: 23 Mar 2023

Citation: Vaz S, Mendes M, Khattar G, Macedo M, Ronquillo C, Zarzo-Arias A, Hortal J, Silveira L (2023) Firefly
(Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, Brazil. Biodiversity Data Journal 11:
e101000. https://doi.org/10.3897/BDJ.11.e101000

Abstract

Background

We compiled a database of firefly species records from the Atlantic Forest hotspot in Brazil
and made it available at GBIF. Data were gathered from literature and from several key
entomological collections, including: Colegao entomologica Prof. José Alfredo Pinheiro
Dutra (DZRJ/UFRJ) and Colegao do Laboratorio de Ecologia de Insetos from Universidade
Federal do Rio de Janeiro (CLEI/UFRJ); Colegao Entomologica do Instituto Oswaldo Cruz
(CEIOC); Museu de Zoologia da Universidade de Sao Paulo (MZSP); Colegao
Entomologica Pe. Jesus Santiago Moure from Universidade Federal do Parana (DZUP/
UFPR); and Colegao Entomologica from Universidade Federal Rural de Pernambuco
(UFRPE). This database represents the largest contribution to a public repository of
recorded occurrences from Neotropical fireflies.

© Vaz S et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0),
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

2 Vaz S et al

New information

This dataset shows the occurrence and abundance of firefly species in the Atlantic Forest
hotspot. Firefly species endemic to this biome are also present and considered in the
study. These data can assist scientific and societal needs, by supporting future research
projects and conservation decision-making.

Keywords

Neotropics, dataset, species occurrences, endemism, rainforest, South America

Introduction

The Atlantic Forest covers seventeen of twenty-six Brazilian States and occupies almost
the whole country's coast (Oliveira and Engel 2017). It is recognised as one of the thirty-six
hotspots in the world and is a global priority for biodiversity conservation (Esser et al. 2019
). Unfortunately, the Atlantic Forest also represents the biome with the highest number of
fauna and flora species threatened by urban sprawl and land-use change. Landscape
modification and climate change are strong drivers of habitat loss and changes in
correlated ecosystem services (Maldaner et al. 2021). Due to this, the Atlantic Forest is
one of the biomes most threatened by climate change (Scarano and Ceotto 2015). The
evident shifts in temperature and precipitation patterns (Pereira et al. 2010) have started to
induce responses on several species of plants and animals (Root et al. 2003, Parmesan
2006, VanDerVWVal et al. 2012). Thus, the Atlantic Forest is one of the habitats highly prone
to the adverse effects of climate change, jeopardising its biodiversity and endemic species
richness. According to the Intergovernmental Panel on Climate Change, the vulnerability to
climate change disruption in a system is extreme (I.P.C.C. 2014). In this scenario, it is
important to anticipate the effects of climate change in the ecosystems, in order to
decrease its damage by building up possible solutions, aligned with mitigation. These
strategies can reduce the vulnerability of species and increase the resilience of natural and
human systems, aiming to avoid or minimise these negative impacts (I.P.C.C. 2014).

Fireflies (Lampyridae) are amongst the many organisms threatened by anthropogenic
stressors and climate change in the Atlantic Forest (Vaz et al. 2021, Khattar et al. 2022).
They are a cosmopolitan family of about 2,200 species worldwide (Branham 2010), with
most of its known diversity found in the Neotropics and the Asian Southeast (Lawrence and
Newton 1995). This number of species is largely underestimated due to severe taxonomic
impediments, in addition to a lack of targeted sampling and experts, especially in the
Neotropics (McDermott 1966, Silveira and Mermudes 2013). Indeed, Neotropical fireflies
need massive nomenclatural and curatorial work, which are of utmost importance to
facilitate their research and conservation.

Besides their relevance, fireflies are very charismatic for society (Fallon et al. 2021,
Prischmann-Voldseth 2022). They are present in music, poems, paintings and other kinds

Firefly (Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, ... 3

of arts, being used as a tool to foster conservation of nature through environmental
education (Lenko and Papavero 1997, Faust 2004). Furthermore, they play a significant
role in the economy of many countries as flagship species in ecotourism (Lewis et al.
2020). In addition, they are sensitive to light pollution and other forms of environmental
degradation (Viviani et al. 2010, Owens et al. 2022), being important bioindicators of
ecosystems’ health (Fallon et al. 2021). Lastly, their medical importance is relevant since
they prey on intermediate hosts of waterborne diseases (Viviani 1989).

Even though anthropogenic threats have been investigated, the extent to which climate
and land use changes impact fireflies has never been quantitatively assessed anywhere in
South America. An important way to protect fireflies from these threats is to protect forest
remnants at the Atlantic Forest hotspot, since protected areas act as a shelter for
thousands of species. In this regard, mobilising the biodiversity data currently stored in
natural history collections and literature can be particularly useful to conduct large-scale
analyses in macroecology and conservation, provided that its coverage is adequately
assessed and field inventories are conducted to fill in the gaps that are eventually identified
(Hortal et al. 2007, Ronquillo et al. 2020).

Shortfalls, particularly in species identities and distribution (Linnean and Wallacean
shortfalls, respectively, see Hortal et al. (2015)), hampers the elaboration of predictive
models that could provide information on the needs for management of firefly populations.
In this regard, one of the main concerns about fireflies is the absence of occurrence
records publicly available in repositories; therefore making it difficult to obtain any
assessment on their status. Thus, this work aims to compile and to make a public dataset
of firefly diversity in Brazil, which would be of high relevance to advance our knowledge of
this particular taxa, especially when applying predictive models which could be the base for
new and expert-knowledge-based conservation and management actions. To do this, we
evaluated and gathered data from collections and fieldwork, as well as from a revision of
literature. In addition, this dataset will support the project described below, which aims to
propose conservation policies for the Atlantic Forest, identifying threats and predicting
effects of global change on firefly communities, sustaining and providing a better global
perspective on potential firefly extinctions in South America.

Project description

Title: Keep the forest shiny: mapping threats to provide information for conservation
planning of firefly species endemic to the Atlantic Forest hotspot

Personnel: Stephanie Vaz, Mariana Mendes, Gabriel Khattar, Margarete Macedo, Cristina
Ronquillo, Alejandra Zarzo-Arias, Joaquin Hortal, Luiz Felipe Silveira

Funding: Coordenagao de Aperfeicoamento de Pessoal de Nivel Superior
88887.694716/2022-00

4 Vaz S etal

Sampling methods

Description: Information on lampyrid specimens included in this study was obtained from
scientific collections, literature and unpublished data from fieldwork research over nine
years throughout the Brazilian Atlantic Forest. The samples were evaluated from different
areas in the Brazilian coast, mainly from the south-eastern and south regions (Fig. 1),
which are the most densely inhabited. Our field expeditions were undertaken between
2013 and 2022 and encompassed the Parque Nacional da Serra dos Orgdos, Parque
Nacional da Tijuca, Parque Estadual da Ilha Grande and Parque Estadual da Pedra
Branca, all placed within Rio de Janeiro State. The scientific collections digitised contained
records of fireflies sampled from the 1885s to the present.

Legend
Attantic Forest

South America
* Firefly species

0 8 170 340 Kilometers
| |

Figure 1. EES

Fireflies distribution in the Atlantic Forest hotspot.

Sampling description: Scientific collections

° Universidade Federal do Rio de Janeiro - Colegao entomoldogica Prof. Jose Alfredo
Pinheiro Dutra from Universidade Federal do Rio de Janeiro (DZRJ), Rio de
Janeiro, Brazil.

° Universidade Federal do Rio de Janeiro - Colegao do Laboratorio de Ecologia de
Insetos from Universidade Federal do Rio de Janeiro (CLEI), Rio de Janeiro, Brazil.

° Fiocruz/CEIOC - Colegao Entomologica do Instituto Oswaldo Cruz, Rio de Janeiro,
Brazil.

Firefly (Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, ... 5

° Universidade Federal do Parana - Colegao Entomologica Pe. Jesus Santiago
Moure from Universidade Federal do Parana (DZUP/UFPR), Parana, Brazil.

° Museu de Zoologia da Universidade de Sao Paulo (MZUSP), Sao Paulo, Brazil.

° Universidade Federal Rural de Pernambuco - Colegao entomologica da
Universidade Federal Rural de Pernambuco (UFRPE), Pernambuco, Brazil.

Firefly species were analysed under a stereomicroscope and we imaged characters
relevant to species identification. All of them were compared to the species-type material
and original descriptions, when available. For specimens whose identity could not be
confirmed at the species level, we included a morphotype code (“sp1”, “sp2” and so on).
This code was standardised by the first author, so all specimens with the same code in the
database pertain to the same morphotype. Entomological institutions and their collections
are discriminated as provided by GBIF. Museu Nacional/UFRJ institution code holds both
Colegao entomologica Prof. José Alfredo Pinheiro Dutra from Universidade Federal do Rio
de Janeiro (DZRJ) and Colegao do Laboratorio de Ecologia de Insetos from Universidade
Federal do Rio de Janeiro (CLEI) collection codes in this paper.

Fieldwork

The surveys at Parque Nacional da Serra dos Orgdos, Parque Nacional da Tijuca, Parque
Estadual da Pedra Branca and Parque Estadual da Ilha Grande were conducted following
the same protocol. We used Malaise traps (Fig. 2) and active search across all habitat
types and seasons, to enhance the coverage and completeness of our sampling effort.
This fieldwork methodology (Suppl. material 1) increased the overall success of the
surveys (see Silveira et al. (2020)).

Figure 2. EES]

Typical Malaise trap in the Atlantic Forest.

6 Vaz S et al

Literature

Most of the data incorporated into this dataset came from our team, which includes two
leading lampyrid taxonomists: Stephanie Vaz and Luiz Silveira. Together, SV and LS have
been studying and collecting fireflies since 2010 and helped to build one of the most
comprehensive and well-curated firefly collections in the Americas. This work includes: (i)
the original descriptions of many of the endemic species covered in this dataset and (ii)
monographic reviews which confirmed the endemism (to the Atlantic Forest) of several
other species. Data were taken from the original source (Silveira and Mermudes 2013,
Silveira and Mermudes 2014a, Silveira and Mermudes 2014b, Bocakova et al. 2016,
Silveira et al. 2016, Silveira and Mermudes 2017, Silveira et al. 2018, Campello-Gongalves
et al. 2019, Nunes et al. 2019, Silveira et al. 2019, Silveira et al. 2020, Vaz et al. 2020a,
Vaz et al. 2020b, Silveira et al. 2021, Vaz et al. 2021a, Bocakova et al. 2022 and
Campello-Gongalves et al. 2022).

Quality control: All records were validated geographically and taxonomically. Coordinates
were plotted and revised to verify the geographical location and locality. All scientific names
were checked for types and matched to the species information.

Step description: Most specimens deposited in collections were preserved in
entomological drawers under dry conditions. The information contained on the specimens’
labels was collected to build the dataset. Specimens from our fieldwork are preserved in
ethanol > 90% since the date of collection (Fig. 3), which better preserves soft-bodied
insects, such as fireflies and also prevents DNA degradation.

Figure 3. EES

Ethanol > 90% recipient to preserved specimens from our fieldwork.

Firefly (Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, ... A

Geographic coverage

Description: The samples were collected from different areas throughout the Brazilian
Atlantic Forest (Fig. 4). The data obtained from entomological collections was
georeferenced by using the information in specimens’ labels stored in appropriate drawers
Or jars.

Figure 4. EES
The Brazilian Atlantic Forest - (A) Cachoeira do Papel - Trilha da Pedra do Sino, Teresopolis,
Rio de Janeiro - Brazil (B) Mirante - Trilha da Pedra do Sino, Teresdpolis, Rio de Janeiro -
Brazil.

Coordinates: -29.78 and -4.11 Latitude; -54.95 and -34.88 Longitude.

Taxonomic coverage

Description: The dataset consists in 3010 records, 36 genera and 107 different species.
Additionally, there are 362 records with genus taxonomic status comprising 44
morphotypes which could not be identified at species level with 100% certainty. That
means 153 potential species in this dataset representing 7.65% of the species recorded
worldwide (see Branham (2010)), although it is necessary to bear in mind that the total
number of Lampyridae species worldwide is still underestimated (Silveira and Mermudes
2013).

The most frequently reported species was Photuris femoralis Curtis, 1839, which was
recovered from 377 locations. Photinus frater (Olivier, 1905) was the second most
abundant, found at 334 locations, followed by Lucidota flabellicomis Fabricius, 1781 (122),
Amydetes apicalis Germar, 1824 (104) and Photinus /Juna Curtis, 1932 (101).

The five most abundant species were from the subfamily Photurinae and Lampyrinae. The
full firefly dataset was recorded from 14 ecoregions in the Atlantic Forest.

8 Vaz S et al

Temporal coverage

Notes: 1885-2019

Usage licence
Usage licence: Other

IP rights notes: The dataset in the current work is licensed under a Creative Commons
Attribution (CC-BY) 4.0 License.

Data resources

Data package title: Firefly (Coleoptera: Lampyridae) species from the Atlantic Forest
hotspot, Brazil

Resource link: https:/Awww.gbif.org/dataset/f2fafb08-f21e-4d6c-82f7-ed3463ffa03c
Alternative identifiers: https://ipt.sibbr.gov.br/mnrj/resource?r=af fireflies br 01

Number of data sets: 1

Data set name: Firefly (Coleoptera: Lampyridae) species from the Atlantic Forest
hotspot, Brazil

Download URL: https:/Awww.gbif.org/dataset/f2fafb08-f2 1e-4d6c-82f7-ed3463ffa03c

Data format: Darwin Core Archive format
Data format version: Darwin Core Archive format

Description: The dataset contains information on fireflies (Coleoptera, Lampyridae)
from the Brazilian Atlantic Forest, obtained from our own fieldwork, specimens
deposited in scientific collections and data available in literature. The aims and
objectives of this project are to build and compile a dataset tailored to: (i) evaluate the
coverage and eventual biases of the distributional data available for Atlantic Forest
fireflies; and (ii) develop models to provide further insights on how light pollution, land-
use and climate changes may affect the firefly species endemic to the Atlantic Forest.
The specimens have been lumped into a single dataset, forming the basis of S. Vaz 's
PhD thesis. This dataset will be used to investigate priority areas for conservation in
the Atlantic Forest and assess the connection amongst firefly populations and
communities located in different forest fragments. This dataset is published in GBIF
under the licence CC BY 4.0 and the metadata can be also consulted at Vaz et al.
(2022). If you have any questions regarding this dataset, please do not hesitate to
contact us via the contact information provided in the metadata.

Firefly (Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, ... 9

Column label
datasetName

occurrencelD

basisOfRecord

eventDate

year
month
day

scientificName

higherClassification

kingdom

phylum

class

order

family

genus
specificEpithet
taxonRank
identificationRemarks

identifiedBy

decimalLatitude

decimalLongitude

Column description
The name identifying the dataset from which the record was derived.

An identifier for the Occurrence (as opposed to a particular digital record of the
occurrence). In the absence of a persistent global unique identifier, construct one from a
combination of identifiers in the record that will most closely make the occurrencelD

globally unique.
The specific nature of the data record.

The date-time or interval during which an Event occurred. For occurrences, this is the date-

time when the event was recorded. Not suitable for a time in a geological context.

The four-digit year in which the Event occurred, according to the Common Era Calendar.
The integer month in which the Event occurred.

The integer day of the month on which the Event occurred.

The full scientific name, with authorship and date information, if known. When forming part
of an Identification, this should be the name in lowest level taxonomic rank that can be

determined.

A list (concatenated and separated) of taxa names terminating at the rank immediately

superior to the taxon referenced in the taxon record.

The full scientific name of the kingdom in which the taxon is classified.

The full scientific name of the phylum or division in which the taxon is classified.
The full scientific name of the class in which the taxon is classified.

The full scientific name of the order in which the taxon is classified.

The full scientific name of the family in which the taxon is classified.

The full scientific name of the genus in which the taxon is classified.

The name of the first or species epithet of the scientificName.

The taxonomic rank of the most specific name in the scientificName.
Comments or notes about the Identification.

A list (concatenated and separated) of names of people, groups or organisations who

assigned the Taxon to the subject.

The geographic latitude (in decimal degrees, using the spatial reference system given in
geodeticDatum) of the geographic centre of a Location. Positive values are north of the

Equator, negative values are south of it. Legal values lie between -90 and 90, inclusive.

The geographic longitude (in decimal degrees, using the spatial reference system given in
geodeticDatum) of the geographic centre of a Location. Positive values are east of the
Greenwich Meridian, negative values are west of it. Legal values lie between -180 and 180,

inclusive.

10 Vaz S et al

geodeticDatum The ellipsoid, geodetic datum or spatial reference system (SRS), upon which the

geographic coordinates given in decimalLatitude and decimalLongitude are based.

georeferencedBy A list (concatenated and separated) of names of people, groups or organisations who

determined the georeference (spatial representation) for the Location.

georeferenceProtocol A description or reference to the methods used to determine the spatial footprint,

coordinates and uncertainties.

continent The name of the continent in which the Location occurs.

country The name of the country or major administrative unit in which the Location occurs.
countryCode The standard code for the country in which the Location occurs.

stateProvince The name of the next smaller administrative region than country (state, province, canton,

department, region etc.) in which the Location occurs.

county The full, unabbreviated name of the next smaller administrative region than stateProvince

(county, shire, department etc.) in which the Location occurs.

locality Less specific geographic information can be provided in other geographic terms
(higherGeography, continent, country, stateProvince, county, municipality, waterBody,
island, islandGroup). This term may contain information modified from the original to correct

perceived errors or standardise the description.

associatedReferences A list (concatenated and separated) of identifiers (publication, bibliographic reference,

global unique identifier, URI) of literature associated with the Occurrence.

institutionCode The name (or acronym) in use by the institution having custody of the object(s) or

information referred to in the record.

collectionCode The name, acronym, coden or initialism identifying the collection or dataset from which the

record was derived.

recordedBy A list (concatenated and separated) of names of people, groups or organisations
responsible for recording the original Occurrence. The primary collector or observer,

especially one who applies a personal identifier (recordNumber), should be listed first.

Acknowledgements

Permission to undertake research in the protected areas mentioned in this paper was
granted by the Instituto Chico Mendes de Conservagao da Biodiversidade, Ministério do
Meio Ambiente, Brazil. We also thank the staff at Parque Estadual da Pedra Branca and
our dear friend Andre Luiz Diniz Ferreira (PEPB). We thank the staff at the Parque
Nacional da Serra dos Orgdos and Reserva Ecolégica de Guapiacu for supporting our
fieldwork and the staff at Laboratorio de Ecologia de Insetos/UFRJ and Laboratorio de
Entomologia/UFRJ for field assistance. We thank all the curators of DZRJ, DZUP, MZSP,
CLEI, UFRPE and CEIOC, for their support during our visits to their respective institutions
and Programa de Pos-Graduagao em Ecologia for supporting the visitation to the
collections. We would like to thank SIBBr for supporting our dataset and to provide

Firefly (Coleoptera, Lampyridae) species from the Atlantic Forest hotspot, ... 11

precious technical information to provide the firefly assessments online. S.V. was financed
in part by the Coordenagao de Aperfeigoamento de Pessoal de Nivel Superior — Brasil
(CAPES). We acknowledge support of the publication fee by the CSIC Open Access
Publication Support Initiative through its Unit of Information Resources for Research
(URICI).

Author contributions

SV and MMendes collected, counted specimens, compiled data and wrote the manuscript.
GK collected data, CR curation and validation of data and support for submission to GBIF.
SV and LS identified and collected specimens. M Macedo supported the fieldwork in
Parque Nacional da Serra dos Orgdos and provided lab equipment/technology material for
the Lampyridae collection and maintenance and edited the manuscript. AZA and JH helped
with data design and management. SV, GK and LS provided specimen data. SV led the
writing. All authors edited and approved the manuscript.

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Supplementary material

Suppl. material 1: Malaise trap in Atlantic Forest EE)

Authors: Stephanie Vaz et al.

Data type: multimedia

Brief description: How to collect fireflies by using a Malaise trap.
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