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Carbon dioxide levels and ventilation in <i>Acromyrmex</i> nests: significance and evolution of architectural innovations in leaf-cutting ants

, , and . Royal Society Open Science, 8 (11): 210907 (2021)
DOI: 10.1098/rsos.210907

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Information Needs at the Beginning of Foraging: Grass-Cutting Ants Trade Off Load Size for a Faster Return to the Nest, and . PLOS ONE, 6 (3): 1-9 (March 2011)Carbon dioxide sensing in an obligate insect-fungus symbiosis: CO2 preferences of leaf-cutting ants to rear their mutualistic fungus, , and . PLOS ONE, 12 (4): 1-17 (April 2017)Carbon dioxide levels and ventilation in <i>Acromyrmex</i> nests: significance and evolution of architectural innovations in leaf-cutting ants, , and . Royal Society Open Science, 8 (11): 210907 (2021)The thermoregulatory function of thatched nests in the South American grass-cutting ant (<i>Acromyrmex heyeri</i>), and . Journal of Insect Science, 10 (1): 137 (2010)Soil temperature, digging behaviour, and the adaptive value of nest depth in South American species of <i>Acromyrmex</i> leaf-cutting ants, , and . Oecologia, 158 (1): 165--175 (Nov 1, 2008)The control of nest climate through building behaviour in South American <i>Acromyrmex species</i>: its adaptive value, and . Biológico, 69, page 209-212. (2007)Leaf-cutting ant workers (<i>Acromyrmex heyeri</i>) trade off nest thermoregulation for humidity control, and . Journal of Ethology, 28 (2): 399--403 (2010)Carbon dioxide sensing in the social context: leaf-cutting ants prefer elevated CO2 levels to tend their brood, , and . Journal of Insect Physiology, (2018)Landscape genomics of an obligate mutualism: Concordant and discordant population structures between the leafcutter ant Atta texana and its two main fungal symbiont types, , , , , , , and . Molecular Ecology, (2019)Biogeography of mutualistic fungi cultivated by leafcutter ants, , , , , , , , , and 19 other author(s). Molecular Ecology, 26 (24): 6921-6937 (2017)