Open access journal: http://periodicos.uefs.br/ojs/index.php/sociobiology
ISSN: 0361-6525

DOI: 10.13102/sociobiology.v68i1.6021Sociobiology 68(1): e-6021 (March, 2021)

The vast majority (>83%) of stingless bee species 
(Hymenoptera: Apidae: Tribe Meliponini) occur in the 
Neotropical Region, and they account for about half of the 
pollinators of native tropical plants, also providing pollination 
to important crops (Camargo, 2013).

Stingless bees in Brazil sum almost 300 species 
(Pereira et al., 2017). However, they have been threatened 
by emergent pests and pathogens previously associated only 
with Apis (Teixeira et al., 2020), and also by anthropogenic 
activities such as deforestation, habitat loss, and illegal trade.

Several traits make stingless bees attractive to parasites 
of honey bee colonies (e.g., food storage, production of 
volatile substances from fermenting hive products, protein-
rich larvae). Possibly this is the case of the small hive beetle, 

Abstract  
The small hive beetle (SHB) Aethina tumida, a honey bee colony 
scavenger/parasite native to sub-Saharan Africa, has been 
recorded in Brazil since 2016 in Africanized honey bees. Now 
we detected the intruder parasitizing other susceptible social 
bees. The present study reports the first occurrence of SHB in 
stingless bees in Brazil, and is an alert to authorities and stingless 
beekeepers to prevent infestations.

Sociobiology
An international journal on social insects

Sergio Nogueira Pereira1, Luis Henrique Soares Alves2, Renata Falcão R da Costa1, Fabio Prezoto3, Erica Weinstein Teixeira4

Article History

Edited by
Evandro Nascimento Silva, UEFS, Brazil
Received                     23 November 2020
Initial acceptance      21 January 2021
Final acceptance   26 January 2021
Publication date        03 March 2021              

Keywords 
Nitidulidae; Meliponini; invasive pest; 
pollinator. 

Corresponding author 
      Érica Weinstein Teixeira
https://orcid.org/0000-0003-2141-0650
Laboratório Especializado de Sanidade 
Apícola (LASA)
 Instituto Biológico/APTA/SAA-SP
Pindamonhangaba, São Paulo, Brasil.
E-Mail: erica.teixeira@sp.gov.br

Aethina tumida Murray, 1867 (Coleoptera: Nitidulidae), a 
honey bee parasite native to sub-Saharan Africa, where it 
was first identified, and now present on almost all continents 
(Neumann et al., 2016). In Latin America, this invasive pest 
was first observed in 2012 in Mexico. It was detected in Cuba 
that same year and continued to spread southward, reaching 
El Salvador (2013), Nicaragua (2014), Costa Rica (2015), and 
Brazil in 2015 (Antúnez et al., 2019).

In Africa, SHB is a colony scavenger/parasite 
considered only a minor pest, and, in African subspecies, the 
beetle does not seem to have negative impacts (Neumann & 
Elzen 2004), what seems to be the same on African-derived 
honey bees present on those Latin-American countries. 
European-derived bees, on the other hand, suffer considerable 

1 - Secretaria de Estado de Agricultura, Pecuária e Abastecimento do Rio de Janeiro (SEAPA-RJ). Defesa Agropecuária. Coordenadoria de 
Defesa Sanitária Animal. Niteroi, RJ, Brasil.
2 - Centro Universitário de Valença (UNIFAA). Valença-RJ, Brazil
3 - Universidade Federal de Juiz de Fora (UFJF). Departamento de Zoologia, Laboratório de ecologia comportamental e bioacústica (LABEC). 
Juíz de Fora-MG, Brazil
4 - Laboratório Especializado de Sanidade Apícola (LASA)/Instituto Biológico/APTA/SAA-SP, Pindamonhangaba-SP, Brazil

SHoRT  NoTE

occurrence of the small hive beetle (Aethina tumida) in Melipona rufiventris colonies in Brazil

ID

https://orcid.org/0000-0003-2141-0650
https://orcid.org/0000-0003-2141-0650


SN Pereira, LHS Alves, RFR Costa, F Prezoto, EW Teixeira – Aethina tumida in stingless bees colonies in Brazil2

damage when parasitized by SHB (Neumann & Elzen 2004), 
suggesting a potential threat to other susceptible social bees. In 
Brazil, SHB has been recorded in Rio de Janeiro apiaries since 
2016 (Pereira et al., 2017). Local observations indicate that 
problems may arise when good management practices are not 
adopted and hives are kept in precarious condition, culminating 
in high levels of infestation and a large presence of SHB in 
their immature, destructive stage (Pereira S. N., unpubl. data).

Although almost three hundred native bee species 
are known in Brazil, very few are properly managed. 
Stingless bees of the genus Melipona are important for 
honey production (Pereira et al., 2017). Melipona rufiventris 
(Lepeletier, 1836) is endemic to the Cerrado (savanna) biome, 
where it is designated as an endangered species (Silveira et 
al., 2018). The present study reports the first occurrence of 
SHB in stingless bees in Brazil.

In January (summer) and April (autumn) 2019, the 
Rio de Janeiro official veterinary service (OVS) received 
reports of SHB invasion in two meliponaries (M1 and M2) in 
the metropolitan area of the capital (2–3 km from the urban 
center). There were no nearby apiaries. Meliponary M1 kept 
colonies of four stingless bee species: Tetragonisca angustula 
(Latreille, 1811) (n = 4); Melipona quadrifasciata Lepeletier, 
1836 (n = 2); M. rufiventris (n = 2); and Melipona scutellaris 
Latreille, 1811 (n = 1). The hives of M. rufiventris and M. 
scutellaris were on the balcony of a house. The other hives 
were in the orchard on individual stands with ant protection 
and individual roofs. The soil was sandy and well provided 
with organic matter (decomposing leaves) from fruit trees 
(Mangifera indica) and garden shrubs. The stingless bee 
keeper reported finding a beetle inside a M. rufiventris hive 
three weeks after splitting it. Upon inspection, OVS agents 
found that the colony was weak, no signs of population growth 
or queen. One SHB was aspired from the middle of debris at 
the bottom of the hive and fixed in 70% alcohol, as well as the 
specimen captured by the bee keeper. No immature or other 
adult beetles were found.

Meliponary M2 contained hives of M. rufiventris (n = 
17), M. quadrifasciata (n = 14), Nannotrigona testaceicornis 
Lepeletier, 1836 (n = 4), T. angustula (n = 3), and Plebeia 
nigriceps (Friese, 1901) (n = 1). The hives were in the backyard 
on individual stands, under fruit trees (M. indica and Citrus 
spp.) with no fruits on the ground. The soil was moist, sandy-
loamy. The stingless bee keeper had found two beetles in one 
M. rufiventris hive. No larvae were present. The hive was 
weak and the box was precarious. At the time of the visit, 
OVS inspectors did not find any beetles in the hive that had 
been exchanged, which contained food reserves and healthy 
brood combs.

Beetles were confirmed to be A. tumida by the 
Biological Institute, Brazil. These results corroborate previous 
findings indicating that non-Apis bees can serve as alternative 
hosts for the opportunistic parasite SHB, particularly when 
the colony is weak or the beehive is in a poor state.

Even though there was no damage to the colonies 
and the infestation rate was extremely small, the possible 
implications underscore the importance of adopting good 
beekeeping practices in order to maintain strong and stress-
free colonies, especially during the multiplication period, 
whether natural or managed. Some actions to prevent colony 
invaders are suggested: (i) keep beehive boxes in good 
condition, (ii) avoid opening the hive unnecessarily or for 
prolonged periods, (iii) strengthen colonies by providing 
non-Apis-origin supplemental foods, and (iv), whenever 
necessary, transfer workers from other healthy, strong hives. 
Another point worth noting is that the state of Rio de Janeiro 
is mainly covered by Atlantic Forest and is not endemic for M. 
rufiventris. Thus, it can be assumed that the environment may 
also be a predisposing factor for SHB infestation, generating 
stress, a fragilizing factor to health problems.

There are few reports of SHB infestation in colonies of 
stingless bees. In Australia, the strong Tetragonula carbonaria 
colonies quickly eliminated adult beetles, or mummified them 
(Greco et al., 2010). Although the lack of coevolutionary 
history might have prevented the development of defenses 
(Gonthier et al., 2019), some species can have natural 
defensive traits to deal with invading predators. The loss of 
a weak Tetragonula colony after splitting was reported in 
the Philippines (Cervancia et al., 2016). In North America, 
Spiewok and Neumann (2006) reported that Bombus impatiens 
colonies were affected by the infestation of SHB. In Cuba, A. 
tumida was found in natural colonies of M. beecheii (Peña et 
al., 2014). Bobadoye (2019) found SHB infestation in three 
Melipona species in Kenya (Africa) and detected similar 
volatile chemicals attractive to SHB. Gonthier et al. (2019) 
demonstrated that SHBs can complete an entire life cycle in 
association with nests of the solitary bee Megachile rotundata.

It is premature to say whether SHB has the potential to 
wreak havoc on stingless bee colonies in Brazil. Nevertheless, 
this report is an alert to authorities and producers to take 
precautions to avoid infestations. The absence of SHB in a 
meliponary located 40–50 m from infested honey bee hives, 
in São Paulo, Brazil (Al Toufailia et al., 2017), points to 
the importance of careful technical management, and good 
beekeeping practices to reduce vulnerability.

Acknowledgements

We thank the Agricultural Defense Superintendency 
and the Department of Animal Health of the Rio de Janeiro 
State Secretariat for Livestock, Agriculture, and Supply for 
supporting this study. Following the notification process, 
data was sent to the Ministry of Agriculture, Livestock and 
Food Supply.

Authors’ contributions

SNP: conceptualization, investigation and writing;
RFRC: conceptualization, investigation and writing;



Sociobiology 68(1): e-6021 (March, 2021) 3

FP: conceptualization and writing
LHSA: investigation and writing
EWT: writing

Data availability statement

Data sharing not applicable to this article as no data 
sets were generated or analysed during the current study.

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