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

DOI: 10.13102/sociobiology.v64i3.1266Sociobiology 64(3): 369-372 (September, 2017)

Solenopsis saevissima (Smith) (Hymenoptera: Formicidae) Activity Delays Vertebrate 
Carcass Decomposition

In addition to climatic conditions, such as temperature 
and rainfall, the presence of and ecological interactions 
between insect guilds play a key role in the decomposition 
rate of vertebrate carcasses (Simmons et al. 2010; Santos & 
Alves, 2016). Ants (Hymenoptera: Formicidae) are among 
the insects involved in decomposition processes, and exhibit 
both predatory and necrophagous behavior (Carvalho et al. 
2004; Cruz & Vasconcelos, 2006). Furthermore, they interact 
with other arthropods around decomposing bodies (Rámon & 
Donoso, 2015).

Due to their aggressive behavior, ants from the genus 
Solenopsis can reduce the number of eggs and larvae in 
cadaver-occupying species, impacting carcass colonization 
(Stoker et al., 1995) and either accelerating or delaying the 
rate of decomposition (Andrade-Silva et al. 2015). Therefore, 
these ants may potentially confound interpretation of the post-
mortem interval (PMI).

Abstract

Ants are among the insects involved in cadaveric decomposition processes, 
as they exhibit predatory and necrophagous behavior. Fire ants exhibit an 
aggressive behavior, which impacts carcass colonization, accelerates or delays 
the decomposition rates and potentially confounds interpretation of the post-
mortem interval. Here, we estimated the effects of Solenopsis saevissima (Smith) 
activity on the decomposition rate in domestic pig carcasses. We placed two pig 
carcasses close to S. saevissima nests, and two other pig carcasses (controls) 
in other locations 50 m away from the nest. Decomposition processes were 
delayed by at least three days for carcasses on the nest compared to those 
without direct exposure to ants. Our results showed that predatory activity of S. 
saevissima interfered with carcass colonization by scavenger insects, functioning 
as an ecological barrier to the establishment of immature Diptera. Such results 
highlight the importance of considering ecological processes that may interfere 
with mechanisms determining post-mortem intervals.

Sociobiology
An international journal on social insects

EKC PEREIRA1, J ANDRADE-SILVA 1,2, O SILVA1, CLC SANTOS1,3, LS MORAES1, MCA BANDEIRA1,2, CRR SILVA1, JMM REBÊLO1,2

Article History

Edited by
Evandro do Nascimento Silva, UEFS, Brazil

Received:                  09 December 2016
Initial acceptance    01 May 2017
Final acceptance      20 June 2017
Publication date       17 October 2017

Keywords 
Fire ants, decomposition rate, forensic 
entomology, forensic taphonomy

Corresponding author
Joudellys Andrade-Silva
Universidade Federal do Maranhão
Laboratório de Entomologia e Vetores
Departamento de Biologia
Av. dos Portugueses S/N, 65085-580
São Luís, Maranhão, Brasil
e-mail: andradejoudellys@yahoo.com.br

Despite their relevance in forensic entomology, little 
is known about the effects of Solenopsis spp. on the process 
of cadaveric decomposition. Most studies conclude that 
these ants alter insect succession patterns and decomposition 
processes, but do not indicate specifically how these factors 
are altered (Zara & Caetano, 2010; Andrade-Silva et al. 2015; 
Maciel et al. 2015). Here, we analyzed qualitative effects of 
Solenopsis saevissima (Smith) presence on decomposition 
rates of domestic pig (Sus scrofa L.) carcasses. Also, we sought 
to better understand the ant interactions with other insects, as 
well as the presence of post-mortem lesions throughout the 
decomposition process. This information may help to increase 
the accuracy of PMI estimates, thereby improving the quality 
of crime evidence based on forensic entomology.

The study was conducted between January and 
February 2013 - at the beginning of the rainy season, in an urban 
remnant of Amazon forest located within the Universidade 

SHORT NOTE

1Laboratório de Entomologia e Vetores, Universidade Federal do Maranhão, São Luís–MA, Brasil.
2Programa de Pós-Graduação em Biodiversidade e Conservação, Universidade Federal do Maranhão, São Luís–MA, Brasil.
3Programa de Pós-Graduação em Ecologia e Conservação, Universidade Federal de Mato Grosso do Sul, Campo Grande–MS, Brasil.



EKC Pereira et al. - Solenopsis saevissima influences carcass decomposition370
Federal do Maranhão (02° 33' 36" S, 44° 18' 33" W). This 
area has an altitude of less than 100 m a.s.l., climate tropical 
hot and humid, annual rainfall between 1,900 and 2,200 mm 
and an average annual temperature above 26 °C (Alvares 
et al., 2013). The environmental characteristics indicate 
high degree of anthropogenic intervention in the original 
vegetation (ICMBIO, 2014), which has been reduced to low 
capoeira due to the expansion of the university’s campus.

Four domestic pigs weighing between 20 and 25 kg 
were sacrificed from close range shot (<30cm; pistol .40) to 
the head (carried out by a Criminal Examiner). We placed 
two carcasses (10 m apart) close to S. saevissima nests, 
and the other two (without exposure) were placed about 50 
m from the other carcasses to guarantee the independence 
of the samples. Carcasses were observed daily between 
the hours of 12:00 and 13:00. Decomposition phase was 
determined following classifications by Payne (1965): fresh 
(S1), bloated (S2), active decay (S3), advanced decay (S4), 
and dry/remains (S5).

Throughout the study, the carcasses were protected 
from large animals by metal cages surrounded by wire mesh 
(5 cm diameter) installed into the ground. The ants were 
obtained from carcasses by active collection. Identification 
of subfamily and genera followed Baccaro et al (2015) and 
species were confirmed by the Laboratório de Mirmecologia 
(CPDC) at the Centro de Pesquisa da Lavoura Cacaueira 
(CEPLAC) in Bahia, where voucher specimens were 
deposited.

During stage S1, we found little odor caused by the 
decomposition of the carcasses and observed a low number 
of ants in the first hours of decomposition, mainly for the 
carcasses unexposed to the nests. In S2, we observed marks 
on the carcasses resulting from the activity of S. saevissima, 
which also presented eggs and small and punctual (mouth 
and muzzle) masses of Diptera larvae. The S3 phase was 
characterized by masses of large larvae throughout the carcass, 
except for those exposed to the ant nests, where mass was very 
reduced. In addition to the strong odor of decomposition at 
this stage, liquids resulting from this process were perceptible 
around the carcasses, especially for the carcasses not exposed 
to the S. saevissima nests. The S4 phase was characterized by 
a great reduction in the resource offered by the carcass and the 
beginning of its skeletonization. There was also a decrease in 
the size of larval mass seen in the previous phase. In the S5 
phase we observed an absence of larvae mass, and completely 
dry and fragmented carcasses, with exposed bones.

We recorded differences in the duration of the 
decomposition phases between carcasses exposed to ant nests 
and controls. The ant-exposed carcasses lasted three additional 
days in the S3 and S4 phases, and more than 10 days in the 
final phase (Fig 1).  Solenopsis saevissima displayed the 
following behaviors on the carcasses: production of tissue 
lesions visible in early decomposition (Fig 2-A); predation on 
dipteran eggs, larvae, and adults (Figs 2 B-D); and feeding on 

exudates released by the carcass. These ant behaviors likely 
led to differences in fly larval biomass between experimental 
(carcasses on the ant nest) and control groups (Figs 2E-F). 
Although in very small densities, other ant species such as 
Camponotus rufipes (Fabricius), Dorymyrmex brunneus 
Forel, Ectatomma brunneum Smith and Pheidole synarmata 
Wilson, were collected from the carcasses.

Carcasses are a limited and ecologically expensive 
resource, because many organisms (e.g. flies, beetles, bees, 
ants, and others) compete for them (Noll et al., 1996; Alves et 
al., 2014; Santos et al., 2014). The presence of S. saevissima 
reduces fly larval populations and makes  oviposition by 
adults more difficult, which reduces colonization and can 
decrease associated entomofauna, therefore, decreasing the 
rate of decomposition (Wells & Greenberg, 1994; Moura et 
al., 2005). When acting as necrophages, ants, such Solenopsis, 
cause lesions that can lead to errors in criminal investigations 
(Patel, 1994). In the short term these lesions can darken, 
which may lead to the diagnosis of pre-mortem mutilations, 
thereby compromising interpretations by crime experts.

The higher larval biomass from the control carcasses 
suggests that the end of the S3 phase is strongly influenced 
by ecological factors, specifically by the activity of fly larvae.  
Consequently, factors that prevent or delay oviposition by 
adult flies or hatching of immatures can alter the timing of 
carcass decomposition. Some studies have emphasized the 
possibility of variation in decomposition rates and insect 
succession patterns in the same location (Shean et al., 1993; 
Joy et al., 2006; Sharanowski et al., 2008; Santos & Alves, 
2016), as well as visible lesions in the first few weeks of 
decomposition (Campobasso et al., 2009). Although we did 
not observe them here, two genera of ants, Camponotus and 
Pheidole, have been known to remove eggs, larvae, and pupae 

Fig 1 - Average duration (number of days) of decomposition 
phases for domestic pig carcasses with and without exposure to 
Solenopsis saevissima nest in an urban Amazon forest remnant in 
São Luís, Maranhão, Brazil. S1: Fresh; S2: Bloated; S3: Active 
decay; S4: Advanced decay; S5: Dry and remains.



Sociobiology 64(3): 369-372 (september, 2017) 371

from decomposing carcasses (Barros et al., 2008).
Our results showed that the predatory activity of 

S. saevissima interfered with carcass colonization of flies, 
by effectively functioning as an ecological barrier for the 
establishment of immatures. As a consequence, the first 
stages of decomposition were extended by three days, when 
ants were present on carcasses. We emphasize the importance 
of considering ecological processes (e.g. interspecific 
interactions) and abiotic factors on decomposition when 
estimating the postmortem interval. Studies of this nature 
will limit underestimation and improve the accuracy of PMI 
estimates, as well as reinforce the importance of investigating 
ant behavior on carcasses within the field of forensic 
entomology. 

Acknowledgements
We would like to thank Fundação de Amparo à Pesquisa 

e ao Desenvolvimento Científico e Tecnológico do Maranhão 
(FAPEMA) for the financial support and scholarship of 
scientific initiation for EKC Pereira. The Coordenação de 
Aperfeiçoamento de Pessoal de Nível Superior (CAPES) for 
providing a master’s fellowship to J Andrade-Silva. We are 
grateful to Jacques HC Delabie (UESC/CEPLAC, Ilhéus-
BA) for ant species identification. We also thank Emília Z de 
Albuquerque, Lívia P Prado, Rony PS Almeida (MPEG) and 
anonymous reviewers for considerations and improvements 
to this manuscript. This project was approved by the Animal 
Research Ethics Committee of the Universidade Federal do 
Maranhão (Protocol N°. 23115.004032/2012-34). 

Fig 2 - Marks (A), predation to eggs (B), larvae (C) and adults (D) of Diptera caused by Solenopsis saevissima activity and 
difference in mass of fly larvae present in Sus scrofa carcasses with (E) and without (F) exposure to Solenopsis saevissima nest.



EKC Pereira et al. - Solenopsis saevissima influences carcass decomposition372
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