TY - JOUR
T1 - Ocellar spatial vision in Myrmecia ants
AU - Penmetcha, Bhavana
AU - Ogawa, Yuri
AU - Ryan, Laura A.
AU - Hart, Nathan S.
AU - Narendra, Ajay
PY - 2021/10
Y1 - 2021/10
N2 - In addition to compound eyes, insects possess simple eyes known as ocelli. Input from the ocelli modulates optomotor responses, flight-time initiation, and phototactic responses – behaviours that are mediated predominantly by the compound eyes. In this study, using pattern electroretinography (pERG), we investigated the contribution of the compound eyes to ocellar spatial vision in the diurnal Australian bull ant Myrmecia tarsata by measuring the contrast sensitivity and spatial resolving power of the ocellar second-order neurons under various occlusion conditions. Furthermore, in four species of Myrmecia ants active at different times of the day, and in European honeybee Apis mellifera, we characterized the ocellar visual properties when both visual systems were available. Among the ants, we found that the time of activity had no significant effect on ocellar spatial vision. Comparing day-active ants and the honeybee, we did not find any significant effect of locomotion on ocellar spatial vision. In M. tarsata, when the compound eyes were occluded, the amplitude of the pERG signal from the ocelli was reduced 3 times compared with conditions when the compound eyes were available. The signal from the compound eyes maintained the maximum contrast sensitivity of the ocelli as 13 (7.7%), and the spatial resolving power as 0.29 cycles deg−1. We conclude that ocellar spatial vison improves significantly with input from the compound eyes, with a noticeably larger improvement in contrast sensitivity than in spatial resolving power.
AB - In addition to compound eyes, insects possess simple eyes known as ocelli. Input from the ocelli modulates optomotor responses, flight-time initiation, and phototactic responses – behaviours that are mediated predominantly by the compound eyes. In this study, using pattern electroretinography (pERG), we investigated the contribution of the compound eyes to ocellar spatial vision in the diurnal Australian bull ant Myrmecia tarsata by measuring the contrast sensitivity and spatial resolving power of the ocellar second-order neurons under various occlusion conditions. Furthermore, in four species of Myrmecia ants active at different times of the day, and in European honeybee Apis mellifera, we characterized the ocellar visual properties when both visual systems were available. Among the ants, we found that the time of activity had no significant effect on ocellar spatial vision. Comparing day-active ants and the honeybee, we did not find any significant effect of locomotion on ocellar spatial vision. In M. tarsata, when the compound eyes were occluded, the amplitude of the pERG signal from the ocelli was reduced 3 times compared with conditions when the compound eyes were available. The signal from the compound eyes maintained the maximum contrast sensitivity of the ocelli as 13 (7.7%), and the spatial resolving power as 0.29 cycles deg−1. We conclude that ocellar spatial vison improves significantly with input from the compound eyes, with a noticeably larger improvement in contrast sensitivity than in spatial resolving power.
KW - Bull ants
KW - Contrast sensitivity
KW - Flying
KW - Honeybees
KW - Pattern electroretinography
KW - Spatial resolving power
KW - Walking
UR - http://www.scopus.com/inward/record.url?scp=85119089769&partnerID=8YFLogxK
UR - http://purl.org/au-research/grants/ARC/DP150101172
UR - http://purl.org/au-research/grants/ARC/DP200102337
UR - http://purl.org/au-research/grants/ARC/FT140100221
U2 - 10.1242/jeb.242948
DO - 10.1242/jeb.242948
M3 - Article
C2 - 34542631
AN - SCOPUS:85119089769
SN - 0022-0949
VL - 224
JO - Journal of Experimental Biology
JF - Journal of Experimental Biology
IS - 20
M1 - jeb242948
ER -