Mortality rates and division of labor in the leaf-cutting ant, Atta colombica

While leaf-cutter ants are thought to collect mainly vegetative plant material, they have also been observed collecting seeds or fruit parts on the forest floor (Alvarez-Buylla & Martínez-Ramos 1990, Kaspari 1996). For example, leaf-cutter ants have been observed carrying considerable numbers of Brosimum alicastrum Sw. and Cecropia spp. seeds into their nests (Wirth 1996) and Leal & Oliveira (1998; pers. comm.) found them foraging on the fruits and seeds of 19 different species of Brazilian cerrado vegetation, including six Miconia species. Under some circumstances, seed removal and relocation by leaf cutter ants might even be sufficient to affect local recruitment patterns of trees. For example, in Costa Rica, Atta cephalotes can remove all fallen fig fruit from beneath a Ficus hondurensis crown in a single night (Roberts & Heithaus 1986), while in Venezuela, seedling recruitment of the savanna tree Tapirira velutinifolia was positively associated with the seed harvesting and seed cleaning activities of the ant Atta laevigata (Farji Brenner & Silva 1996).

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Size-related foraging behaviour of the leaf-cutting ant Atta colombica

Canadian Journal of Zoology ◽

10.1139/z91-214 ◽

1991 ◽

Vol 69 (6) ◽

pp. 1530-1533 ◽

Cited By ~ 11

Author(s):

Dave Shutler ◽

Adele Mullie

Keyword(s):

Body Size ◽

Leaf Litter ◽

Tree Species ◽

Foraging Behaviour ◽

Foraging Theory ◽

Costa Rican ◽

Leaf Cutting ◽

Foraging Trail ◽

Atta Colombica ◽

Load Mass

In a Costa Rican forest adjacent to cattle pasture, larger individuals of the leaf-cutting ant Atta colombica carried heavier loads and foraged farther from the colony, as predicted by foraging theory. Counter to foraging theory, individual ants did not increase their load mass if they foraged farther from the colony. However, the colony avoided this apparent inefficiency by sending larger ants to more distant trees. The colony harvested simultaneously from several individuals of the same tree species, even though distant trees were twice as far from the colony as nearby trees. The reasons for this behaviour require further investigation. In a wide foraging trail, larger ants travelled faster than their smaller counterparts. In addition, ant velocity was reduced when loads were experimentally supplemented, and increased when loads were experimentally reduced. Ants using narrow trails in the leaf litter may all be constrained to travel at the same speed, irrespective of load or body size, simply because they get in each other's way.

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Body size effects on locomotion and load carriage in the highly polymorphic leaf-cutting ants Atta colombica and Atta cephalotes

Behavioral Ecology ◽

10.1093/beheco/11.2.125 ◽

2000 ◽

Vol 11 (2) ◽

pp. 125-131 ◽

Cited By ~ 30

Author(s):

M. Burd

Keyword(s):

Body Size ◽

Size Effects ◽

Load Carriage ◽

Atta Cephalotes ◽

Leaf Cutting ◽

Atta Colombica

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Endophytic fungi reduce leaf-cutting ant damage to seedlings

Biology Letters ◽

10.1098/rsbl.2010.0456 ◽

2010 ◽

Vol 7 (1) ◽

pp. 30-32 ◽

Cited By ~ 32

Author(s):

L. S. Bittleston ◽

F. Brockmann ◽

W. Wcislo ◽

S. A. Van Bael

Keyword(s):

Leaf Area ◽

Plant Communities ◽

Endophytic Fungi ◽

Cordia Alliodora ◽

Neotropical Forests ◽

Ant Colonies ◽

Leaf Toughness ◽

Leaf Tissues ◽

Leaf Cutting ◽

Atta Colombica

Our study examines how the mutualism between Atta colombica leaf-cutting ants and their cultivated fungus is influenced by the presence of diverse foliar endophytic fungi (endophytes) at high densities in tropical leaf tissues. We conducted laboratory choice trials in which ant colonies chose between Cordia alliodora seedlings with high ( E high ) or low ( E low ) densities of endophytes. The E high seedlings contained 5.5 times higher endophyte content and a greater diversity of fungal morphospecies than the E low treatment, and endophyte content was not correlated with leaf toughness or thickness. Leaf-cutting ants cut over 2.5 times the leaf area from E low relative to E high seedlings and had a tendency to recruit more ants to E low plants. Our findings suggest that leaf-cutting ants may incur costs from cutting and processing leaves with high endophyte loads, which could impact Neotropical forests by causing variable damage rates within plant communities.

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Energetics of Locomotion and Load Carriage and a Model of the Energy Cost of Foraging in the Leaf-Cutting Ant Atta colombica Guer

Physiological Zoology ◽

10.1086/physzool.60.5.30156127 ◽

1987 ◽

Vol 60 (5) ◽

pp. 524-537 ◽

Cited By ~ 97

Author(s):

John R. B. Lighton ◽

George A. Bartholomew ◽

Donald H. Feener

Keyword(s):

Energy Cost ◽

Load Carriage ◽

Leaf Cutting ◽

Atta Colombica

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Do Leaf Cutting Ants Cut Undetected? Testing the Effect of Ant-Induced Plant Defences on Foraging Decisions in Atta colombica

PLoS ONE ◽

10.1371/journal.pone.0022340 ◽

2011 ◽

Vol 6 (7) ◽

pp. e22340 ◽

Cited By ~ 12

Author(s):

Christian Kost ◽

Martin Tremmel ◽

Rainer Wirth

Keyword(s):

Plant Defences ◽

Foraging Decisions ◽

Leaf Cutting ◽

Atta Colombica

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Optimality in a partitioned task performed by social insects

Biology Letters ◽

10.1098/rsbl.2008.0398 ◽

2008 ◽

Vol 4 (6) ◽

pp. 627-629 ◽

Cited By ~ 13

Author(s):

Martin Burd ◽

Jerome J Howard

Keyword(s):

Social Insects ◽

Social Insect ◽

Leaf Tissue ◽

Leaf Fragment ◽

Ant Colonies ◽

Tissue Processing ◽

Leaf Cutting ◽

Laboratory Colonies ◽

Atta Colombica ◽

Behavioural Adaptations

Biologists have long been aware that adaptations should not be analysed in isolation from the function of the whole organism. Here, we address the equivalent issue at the scale of a social insect colony: the optimality of component behaviours in a partitioned sequence of tasks. In colonies of Atta colombica , a leaf-cutting ant, harvested leaf tissue is passed from foragers to nest workers that distribute, clean, shred and implant the tissue in fungal gardens. In four laboratory colonies of A. colombica , we found that the highest colony-wide rate of leaf tissue processing in the nest was achieved when leaf fragment sizes were suboptimal for individual delivery rate by foragers. Leaf-cutting ant colonies appear to compromise the efficiency of collecting leaf tissue in order to increase their ability to handle the material when it arrives in the nest. Such compromise reinforces the idea that behavioural adaptations, like adaptations in general, must be considered within the context of the larger entity of which they are a part.

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Leaf processing behaviour in Atta leafcutter ants: 90% of leaf cutting takes place inside the nest, and ants select pieces that require less cutting

Royal Society Open Science ◽

10.1098/rsos.150111 ◽

2016 ◽

Vol 3 (1) ◽

pp. 150111 ◽

Cited By ~ 12

Author(s):

Ryan W. Garrett ◽

Katherine A. Carlson ◽

Matthew Scott Goggans ◽

Michael H. Nesson ◽

Christopher A. Shepard ◽

...

Keyword(s):

Energy Cost ◽

Metabolic Energy ◽

Conservation Of Energy ◽

Leaf Material ◽

Leafcutter Ants ◽

Leaf Processing ◽

Laboratory Colony ◽

Leaf Cutting ◽

Atta Colombica ◽

Foraging Energetics

Leafcutter ants cut trimmings from plants, carry them to their underground nests and cut them into smaller pieces before inoculating them with a fungus that serves as a primary food source for the colony. Cutting is energetically costly, so the amount of cutting is important in understanding foraging energetics. Estimates of the cutting density, metres of cutting per square metre of leaf, were made from samples of transported leaf cuttings and of fungal substrate from field colonies of Atta cephalotes and Atta colombica . To investigate cutting inside the nest, we made leaf-processing observations of our laboratory colony, A. cephalotes . We did not observe the commonly reported reduction of the leaf fragments into a pulp, which would greatly increase the energy cost of processing. Video clips of processing behaviours, including behaviours that have not previously been described, are linked. An estimated 2.9 (±0.3) km of cutting with mandibles was required to reduce a square metre of leaf to fungal substrate. Only about 12% (±1%) of this cutting took place outside of the nest. The cutting density and energy cost is lower for leaf material with higher ratios of perimeter to area, so we tested for, and found that the laboratory ants had a preference for leaves that were pre-cut into smaller pieces. Estimates suggest that the energy required to transport and cut up the leaf material is comparable to the metabolic energy available from the fungus grown on the leaves, and so conservation of energy is likely to be a particularly strong selective pressure for leafcutter ants.

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