TY - JOUR
T1 - Ants regulate colony spatial organization using multiple chemical road-signs
AU - Heyman, Yael
AU - Shental, Noam
AU - Brandis, Alexander
AU - Hefetz, Abraham
AU - Feinerman, Ofer
N1 - Israeli Science Foundation [833/15]; Heineman Foundation through MinervaWe thank Garold Fuks for his assistance in constructing the classification algorithm, Dr Shirley Daube for her assistance in developing the chemical analysis methods, Rya Zeltser for help in dissections, Prof Roy Bar-Ziv and Prof. Shmuel Rubinstein for useful discussions. O.F. is the incumbent of the Shloimo and Michla Tomarin Career Development Chair, was supported by the Israeli Science Foundation grant 833/15, by the Heineman Foundation through Minerva, and would like to thank the Clore Foundation for their ongoing generosity. We thank Garold Fuks for his assistance in constructing the classification algorithm, Dr Shirley Daube for her assistance in developing the chemical analysis methods, Rya Zeltser for help in dissections, Prof Roy Bar-Ziv and Prof. Shmuel Rubinstein for useful discussions. O.F. is the incumbent of the Shloimo and Michla Tomarin Career Development Chair, was supported by the Israeli Science Foundation grant 833/15, by the Heineman Foundation through Minerva, and would like to thank the Clore Foundation for their ongoing generosity.
PY - 2017/6/1
Y1 - 2017/6/1
N2 - Communication provides the basis for social life. In ant colonies, the prevalence of local, often chemically mediated, interactions introduces strong links between communication networks and the spatial distribution of ants. It is, however, unknown how ants identify and maintain nest chambers with distinct functions. Here, we combine individual tracking, chemical analysis and machine learning to decipher the chemical signatures present on multiple nest surfaces. We present evidence for several distinct chemical 'road-signs' that guide the ants' movements within the dark nest. These chemical signatures can be used to classify nest chambers with different functional roles. Using behavioural manipulations, we demonstrate that at least three of these chemical signatures are functionally meaningful and allow ants from different task groups to identify their specific nest destinations, thus facilitating colony coordination and stabilization. The use of multiple chemicals that assist spatiotemporal guidance, segregation and pattern formation is abundant in multi-cellular organisms. Here, we provide a rare example for the use of these principles in the ant colony.
AB - Communication provides the basis for social life. In ant colonies, the prevalence of local, often chemically mediated, interactions introduces strong links between communication networks and the spatial distribution of ants. It is, however, unknown how ants identify and maintain nest chambers with distinct functions. Here, we combine individual tracking, chemical analysis and machine learning to decipher the chemical signatures present on multiple nest surfaces. We present evidence for several distinct chemical 'road-signs' that guide the ants' movements within the dark nest. These chemical signatures can be used to classify nest chambers with different functional roles. Using behavioural manipulations, we demonstrate that at least three of these chemical signatures are functionally meaningful and allow ants from different task groups to identify their specific nest destinations, thus facilitating colony coordination and stabilization. The use of multiple chemicals that assist spatiotemporal guidance, segregation and pattern formation is abundant in multi-cellular organisms. Here, we provide a rare example for the use of these principles in the ant colony.
UR - http://www.scopus.com/inward/record.url?scp=85020215146&partnerID=8YFLogxK
U2 - https://doi.org/10.1038/ncomms15414
DO - https://doi.org/10.1038/ncomms15414
M3 - مقالة
C2 - 28569746
SN - 2041-1723
VL - 8
JO - Nature Communications
JF - Nature Communications
M1 - 15414
ER -