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

DOI: 10.13102/sociobiology.v63i1.902Sociobiology 63(1): 645-650 (March, 2016)

Daily Foraging Activity of Acromyrmex (Hymenoptera: Formicidae) Leaf-cutting Ants

Introduction

Leaf-cutting ants (Atta and Acromyrmex, Formicidae) 
are possibly the most important herbivores of terrestrial 
environments throughout the Neotropics, leading to consi-
derable economic losses to a variety of crops (Hölldobler & 
Wilson, 2011). Foragers of these ants cut fragments of leaves 
and other plant parts and carry them to their nests to be used 
as substrate for the cultivation of a mutualistic fungus (Weber, 
1972; Hölldobler & Wilson, 1990). Traditionally, attempts 
to control leaf-cutting ants involve the use of insecticides 
from diverse chemical groups and different formulations 
(liquid concentrates such as nebulizers, fumigants, but mainly 
granulated baits) (Araújo et al., 2003).

Temperature and relative humidity have marked effects 
on the activities of all animal species (Begon et al., 2006) and 
the behavior of leaf-cutting ants is strongly influenced by those 
parameters (Roces & Kleineidam, 2000; Bollazzi & Roces, 
2002). Temperature primarily affects both worker activities 

Abstract  
Leaf-cutting ants are well-known insects due to their remarkable activity as 
herbivores and the considerable economic damage they cause to many crops. 
The identification of season and time of day when leaf-cutting ants are most 
active is an important tool, not just to understand the foraging ecology of these 
ants, but also to optimize their control in plantation areas where they are pests.
Thus, the aims of this study are to evaluate the daily foraging activity of leaf-
cutting ant species of the genus Acromyrmex, which occur in forest plantations 
in Southern Brazil. Foraging activity of Acromyrmex crassispinus (Forel) and 
Acromyrmex subterraneus subterraneus (Forel) were correlated with weather 
conditions, and it was more intense during spring and summer. Workers that 
forage at night are significantly heavier than workers that forage during the day. 
This study showed that A. crassispinus and A. subterraneus subterraneus did 
not forage at temperatures below 10-11°C. Then, the use of granulated baits to 
control these leaf-cutting ants species where they are pests should be done just 
under favorable conditions of temperature for Acromyrmex foraging activity (over 
12°C), to ensure maximum collection of baits by ants and the least left-over baits.

Sociobiology
An international journal on social insects

MA Nickele1, W Reis Filho2, MR Pie1, SRC Penteado3

Article History

Edited by
Evandro Nascimento Silva, UEFS, Brazil
Received                         25August 2015
Initial acceptance          06 March 2016
Final acceptance           15 March 2016
Publication date           29 April 2016

Keywords 
Attini, ecology behavior, forest pests, 
Pinus.

Corresponding author
Mariane Aparecida Nickele
Universidade Federal do Paraná
Departamento de Zoologia
Caixa Postal 19020, CEP 81531-980
Curitiba-PR, Brazil
E-Mail: manickele@ufpr.br

by inhibiting or reducing foraging, as well as the speed of 
brood development, conditions that directly determine the 
growth rate ofa colony (Gamboa, 1976; Porter, 1988; Porter 
& Tschinkel, 1993). Also, the fungus gardens have strict 
demands of high humidity and temperatures between 20 and 
30ºC for proper growth (Powell & Stradling, 1986).

Foraging activity of Atta sexdens (L.) and Atta cephalotes 
(L.) is mainly daytime during the winter and nighttime during 
the summer in Paraguay (Fowler & Robinson, 1979) and 
in Costa Rica (Wetterer, 1990). Foraging activity of Atta 
colombica Guérin-Méneville is more frequent during the 
day in the Republic of Panama (Wirth et al., 1997). Atta 
capiguara Gonçalves shows two daily foraging journeys, 
one in daytime and another one at night, a variation that 
is a function of dry and wet seasons (Caldato, 2014). For 
Acromyrmex species, studies showed that Acromyrmex 
versicolor versicolor (Pergande) is primarily nocturnal during 
the hot summer months, but shifted toward diurnal activity as 
fall progressed in Tempe, Arizona (Gamboa, 1976). Foraging 

RESEARCH ARTICLE - ANTS

1 - Universidade Federal do Paraná, Departamento de Zoologia, Curitiba-PR, Brazil
2 - Epagri/Embrapa Florestas, Centro Nacional de Pesquisa Florestal, Colombo-PR, Brazil
3 - Embrapa Florestas, Centro Nacional de Pesquisa Florestal, Colombo-PR, Brazil



 MA Nickele  et al. – Daily foraging activity of Acromyrmex646

activity of Acromyrmex crassispinus (Forel) occurred throughout 
the day during April in Paraguay (Fowler, 1979). The annual 
foraging activity of A. subterraneus subterraneus (Forel) was 
exclusively nocturnal in Viçosa, MG, Brazil (Maciel et al., 
1995), while in Acromyrmex balzani (Emery)  (Mendes et al., 
1992) and Acromyrmex laticeps nigrosetosus Forel (Araújo et 
al., 1998) is mainly nocturnal in Minas Gerais, Brazil.

There are suggestions that the micro-weather near 
each nest, or even peculiar to each trail or nest-entrance may 
affect their foraging rhythms. Nocturnal foraging may be 
encouraged by warm nights, by cool or very hot dry days, 
and by full clear moonlight; conversely, diurnal foraging 
is supposedly encouraged by cool nights, warm days and 
moonless or dull nights (Lewis et al., 1974a).

Leaf-cutting ants’ workers are highly polymorphic 
(Wilson, 1980; Endringer et al., 2012). In some leaf-cutting 
ant species, there are dial changes in worker weight. Workers 
that foraged at night were heavier than workers that foraged 
during the day. Heavier leaf cutters do not forage during the 
day in order to avoid diurnal parasitoids that preferentially 
attack larger ants or they might avoid activity outside the nest 
during the day due to greater risks with desiccation or heat 
stress (Wetterer, 1990).

Acromyrmex crassispinus and A. subterraneus sub-
terraneus (Forel) were the most commonleaf-cutting ant species 
in pine plantations in Southern Brazil (Nickele et al., 2009). 
The identification of season and time of day when leaf-cutting 
ants are most active is an important tool, not just to understand 
the foraging ecology of these ants, but also to optimize their 
control in plantation areas where they were pests. Thus, the 
aims of this study are to evaluate the daily foraging activity of 
leaf-cutting ant species of the genus Acromyrmex,  which occur 
in forest plantations in Southern Brazil.

Material and methods

Observations were conducted on one adult colony of 
A. crassispinus (nest size = 1 m²) and one adult colonyof A. 
subterraneus subterraneus (nest size = 6.25 m²) at the same time, 
during all four seasons of 2010 (February, 10, May, 10, July, 
10, and October, 10). Colonies were located in a Pinus taeda 
(L.) plantationin Rio Negrinho city (26º15’16” S; 49º31’06” W; 
alt. 790 m), state of Santa Catarina, Brazil. The colonies were 
monitored during 24 hours in all seasons. Surveys began at 
18:00h and ended at 17:00h the following day. Foraging rates 
were measured at one-hour intervals by counting all ants 
passing a fixed point in the active foraging trail close to the nest 
entrance. Workers leaving the nest and workers returning (either 
laden or unladen) were counted for 3 minutes at each sampling 
period (24 samples per colony per season).

In order to investigate the correlation between ant 
activity and climate parameters, temperature and relative 
humidity of theair were measured usinga thermohygrometer. 
Measurements were made near the monitored nests during the 
first minute of each sampling interval. 

In order to study the ant size variation during the 
activity period (diurnal or nocturnal workers), 20 workers 
were collected at each interval (10 ants per colony per hour) 
following the measurement of foraging rates. Workers were 
stored in individual Eppendorf® vials and they were weighed 
to the nearest 0.1 mg on a Mettler balance. Differences in body 
weight of ants that foraged during the day (ants collected in 
the period from 7:00h until 18:00h) or during the night (ants 
collected in the period from 19:00h until 6:00h) were tested 
using Student’s t tests. 

Results

Foraging activity of A. crassispinus started at 4:00h 
and stopped at 14:00h, on summer. There was significant 
correlation between foraging activity and humidity, in this season. 
On fall, A. crassispinus workers did not foraged from 2:00h 
until 08:00h. In this case, there was significant correlation in 
foraging activity and both climatic parameters (temperature and 
humidity). On winter, A. crassispinus workers did not foraged 
from 3:00h until 07:00h, and there was significant correlation 
in foraging activity and temperature. On spring, A. crassispinus 
workers showed foraging activity all day long and in this season 
there was not significant correlation in foraging activity and 
bothclimatic parameters. Acromyrmex crassispinus workers 
did not forage at temperatures below 10°C (Table 1, Fig 1).

Season
Climate 
parameters

Species r p

temperature
A. subterraneus 
subterraneus

-0.44 0.020

Summer A. crassispinus -0.22 0.300

humidity
A. subterraneus 
subterraneus

0.32 0.124

A. crassispinus 0.61 0.001

temperature
A. subterraneus 
subterraneus

0.52 0.007

Fall A. crassispinus 0.87 0.000

humidity
A. subterraneus 
subterraneus

-0.42 0.038

A. crassispinus -0.90 <0.001

temperature
A. subterraneus 
subterraneus

-0.08 0.695

Winter A. crassispinus 0.40 0.050

humidity
A. subterraneus 
subterraneus

0.31 0.134

A. crassispinus -0.14 0.503

temperature
A. subterraneus 
subterraneus

0.17 0.430

Spring A. crassispinus 0.23 0.269

humidity
A. subterraneus 
subterraneus

-0.02 0.939

A. crassispinus -0.30 0.151

Table 1: Correlation between ant activity and climate parameters.



Sociobiology 63(1): 645-650 (March, 2016) 647

Foraging activity of A. subterraneus subterraneus 
started at 2:00h and continued all day long, on summer. 
There was significant correlation between foraging activity 
and humidity, in this season. On fall, workers did not foraged 
from 22:00h until 09:00h. In this case, there was significant 
correlation in foraging activity and bothclimatic parameters. 
On winter, workers did not foraged from 2:00h until 09:00h, 

Fig 1. Daily foraging activity of the leaf-cutting ant Acromyrmex 
crassispinus in Rio Negrinho, SC, Brazil, 2010.

Fig 2. Daily foraging activity of the leaf-cutting ant Acromyrmex 
subterraneus subterraneus in Rio Negrinho, SC, Brazil, 2010.

and there was significant correlation in foraging activity and 
temperature. On spring, workers did not foraged from 2:00h 
until 07:00h, and there was significant correlation in foraging 
activity and both climatic parameters. Acromyrmex subterraneus 
subterraneus workers did not forage at temperatures below11°C 
(Table 1, Fig 2). 

0

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Leaving Coming back unladen Coming back laden
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Spring

Leaving Coming back unladen Coming back laden
Temperature Humidity



 MA Nickele  et al. – Daily foraging activity of Acromyrmex648

Foraging activity of A. crassispinus was more intense 
during the spring and foraging activity of A. subterraneus 
subterraneus was more intense during the summer. A 
considerable number of workers were observed returning 
unladen to the nest, for both Acromyrmex species in all 
seasons (Fig 1 and 2).

There was variation in body weight during the activity 
period. Workers that foraged at night were significantly 
heavier than workers that foraged during the day. The weight 
of A. crassispinus workers that foraged during the day was 
5.32 ± 0.172 mg (n=219) )( xsx ±  and 6.07 ± 0.264 mg 
(n=154) at night (t = -2.35, p = 0.0193). The weight of A. 
subterraneus subterraneus workers that foraged during the 
day was 7.73 ± 0.246 mg (n=247) and 9.72 ± 0.294 mg 
(n=178) at night (t = -5.46, p <0.001).

Discussion

Foraging activities of A. crassispinus and A. 
subterraneus subterraneus leaf-cutting ants occurred at 
night and during the day, however it was correlated with 
weather conditions, such as temperature and humidity. These 
Acromyrmex species were most active during spring and 
summer, but they have also foraged during fall and winter. 
However, foraging intensity was lower in these two last seasons. 
Similar results were observed for Acromyrmex species in the 
high lands of Santa Catarina state, Brazil, where ants were most 
active during the warmest months (Geisel et al., 2008). 

Temperature and humidity fluctuations might cause 
changes in ant respiration and water loss, as well as affect the 
water balance of the plants being cut, which indirectly affect 
handling time and nutritional quality of the plants as fungal 
substrate (Fowler, 1979). Acromyrmex crassispinus and A. 
subterraneus subterraneus did not forage at temperatures 
below 10°C and 11°C, respectively. In Viçosa, MG, Brazil, 
it was observed that A. subterraneus subterraneus cease their 
foraging activity at temperatures below 14°C (Maciel et al., 
1995). Atta sexdens (L.) and Atta mexicana (F. Smith) do not 
forage at temperatures below 10°C and 12°C, respectively 
(Fowler & Robinson, 1979; Mintzer, 1979). Foraging activities 
of the leaf-cutting ant Atta sexdens piriventris Santschi were 
concentrated during the night in the summer, in the afternoon 
and in the winter, allowing ants to forage under favorable 
temperature conditions (Geisel et al., 2013).

A considerable number of workers were observed 
returning unladen to the nest in both studied Acromyrmex 
species. A similar pattern was reported for Acromyrmex 
heyeri Forel, in which a large proportion of workers returned 
to the nest unladen at the initial foraging phase, which could 
represent a response to the high needs for information at the 
beginning of a daily foraging process (Bollazzi & Roces, 
2011). However, in this study we observed a great number 
of unladen workers returning to the nest not only at the initial 
foraging phase. These workers could be scouts (Lewis et 

al., 1974b), workers involved in trail clearing (Lewis et al., 
1974b; Howard, 2001), transport of plant sap (Stradling, 
1978), reinforcement of the chemical trail (Evison et al., 
2008), or in a combination of recruiting and food transport, 
where these workers cut no fragments, but return to the nest 
displaying recruiting behavior (Jaffé & Howse, 1979).

Workers that foraged at night were significantly heavier 
than workers that foraged during the day. The same pattern 
was observed in Atta cephalotes (L.) (Wetterer, 1990; Feener 
& Brown, 1993). However, daytime A. sexdens foragers were 
not significantly smaller than nighttime foragers (Tonhasca, 
1996; Tonhasca & Bragança, 2000). One explanation is that 
heavier leaf cutters do not forage during the day in order to 
avoid diurnal parasites that preferentially attack larger ants 
(Wetterer, 1990). Atta cephalotes colonies shifted the size 
distribution of workers on foraging trails as a second line of 
defense against parasitism by Neodohrniphora curvinervis 
(Malloch) (Feener & Brown, 1993). However, it seems not 
to be an effective defense against phorids in Acromyrmex, 
because a study reported that Acromyrmex phorids selected 
ants from all sizes available outside the nests. Phorids did 
not have preference to attack larger Acromyrmex workers 
as in Atta (Elizalde & Folgarait, 2011). Another possible 
explanation for the diel changes in forager size is that larger 
ants might avoid activity outside the nest during the day due to 
greater risks with desiccation or heat stress (Wetterer, 1990).

This study showed that A. crassispinus and A. 
subterraneus subterraneus were most active during spring 
and summer and they did not forage at temperatures below 10-
11°C. This result is an important tool, not just to understand the 
foraging ecology of these ants, but also to infer in leaf cutting 
ants control. The use of granulated baits to control these leaf-
cutting ants species where they were pests should be done just 
under favorable conditions of temperature for Acromyrmex 
foraging activity (over 12°C), to ensure maximum collection 
of baits by ants and the least left-over baits.

Acknowledgements

We thank Elisiane de Castro Queiroz, Mila Ferraz de 
Oliveira Martins and Priscila Strapasson for their assistance 
during field work. We also thank the Coordenação de 
Aperfeiçoamento de Pessoal de Nível Superior (CAPES) for 
granting fellowship to M.A.N and Battistella Florestal for 
financial support and granting the study area.

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