TY - JOUR
T1 - Diffuse termitinae nests shed light on the affinities of Laetolichnus kwekai (Krausichnidae)
AU - Cantil, Liliana F.
AU - Genise, Jorge F.
AU - Farina, Juan L.
AU - Lupo, Sebastián
AU - Porrini, Darío
AU - Kwekason, Amandus
AU - Harrison, Terry
N1 - Funding Information:
We thank Beatriz Roberto for helping us during the field trip to Reserva Natural Faro Querandí and Fernanda Gonzales Rizzi for the photograph used in Figure 3F. Chris Harrison is acknowledged for discovering EP 2104/19 and for the photograph used in Figure 5. We are grateful to the Tanzania Commission for Science and Technology, Division of Antiquities, and the Ngorongoro Conservation Area Authority for permission to conduct research at Laetoli, and to the National Museum of Tanzania for access to fossil specimens. We also thank editor P.J. Orr, associate editor, M.G. Mángano, T.M. Bown, R. Mikuláš, and an anonymous reviewer for their constructive comments. This research was supported by a grant from Agencia Nacional de Promoción Científica y Tecnológica of Argentina, FONCYT-PICT 2017/0779 to Jorge F. Genise and by grants from NSF (Grants BCS-0309513, BCS-0216683 and BSC-1350023), National Geographic Society, Leakey Foundation, and the University Research Challenge Fund at NYU to Terry Harrison.
Funding Information:
We thank Beatriz Roberto for helping us during the field trip to Reserva Natural Faro Querandíand Fernanda Gonzales Rizzi for the photograph used in Figure 3F. Chris Harrison is acknowledged for discovering EP 2104/19 and for the photograph used in Figure 5. We are grateful to the Tanzania Commission for Science and Technology, Division of Antiquities, and the Ngorongoro Conservation Area Authority for permission to conduct research at Laetoli, and to the National Museum of Tanzania for access to fossil specimens. We also thank editor P.J. Orr, associate editor, M.G. Mángano, T.M. Bown, R. Mikulásˇ, and an anonymous reviewer for their constructive comments. This research was supported by a grant from Agencia Nacional de Promoción Científica y Tecnológica of Argentina, FONCYT-PICT 2017/0779 to Jorge F. Genise and by grants from NSF (Grants BCS-0309513, BCS-0216683 and BSC-1350023), National Geographic Society, Leakey Foundation, and the University Research Challenge Fund at NYU to Terry Harrison.
Publisher Copyright:
Copyright © 2021, SEPM (Society for Sedimentary Geology).
PY - 2021/3
Y1 - 2021/3
N2 - The insect trace fossil Laetolichnus kwekai, which is composed of a small chamber extending to slender cylinders at each end, was tentatively included in the ichnofamily Krausichnidae as termite nests. New evidence presented here provides information to validate these inferences. A more complex structure formed by interconnected Laetolichnus was recently found in the same Pliocene deposits (Laetoli, Tanzania) as the isolated specimens reported previously. Our study confirms inclusion of Laetolichnus in Krausichnidae and supports the inference that it represents a nest of a social insect. Neoichnological field studies in the coastal dunes of Buenos Aires Province, Argentina, were undertaken to refine further the nature of these affinities. Survey of the dune surface revealed abundant loose fragments of termite nests of a size and shape comparable to that of L. kwekai. The fragile nests constructed by Onkotermes brevicorniger, which are described here in detail for the first time, enable us to interpret the fossil structures. They consist of connected chambers similar to the interconnected Laetolichnus. These were frequently exposed and broken by wind action resulting in loose fragments similar to the isolated Laetolichnus. The Celliforma ichnofacies represented at Laetoli, which contains L. kwekai, indicates arid or semiarid shrublands and woodlands. The distribution of O. brevicorniger also corresponds to arid and semiarid shrublands and dry woodlands of Argentina. Although the African termite producer of L. kwekai and the South American Onkotermes would be phylogenetically unrelated, the analogous structures probably reflect convergent nesting behaviors as an adaptation to similar arid to semiarid environmental conditions.
AB - The insect trace fossil Laetolichnus kwekai, which is composed of a small chamber extending to slender cylinders at each end, was tentatively included in the ichnofamily Krausichnidae as termite nests. New evidence presented here provides information to validate these inferences. A more complex structure formed by interconnected Laetolichnus was recently found in the same Pliocene deposits (Laetoli, Tanzania) as the isolated specimens reported previously. Our study confirms inclusion of Laetolichnus in Krausichnidae and supports the inference that it represents a nest of a social insect. Neoichnological field studies in the coastal dunes of Buenos Aires Province, Argentina, were undertaken to refine further the nature of these affinities. Survey of the dune surface revealed abundant loose fragments of termite nests of a size and shape comparable to that of L. kwekai. The fragile nests constructed by Onkotermes brevicorniger, which are described here in detail for the first time, enable us to interpret the fossil structures. They consist of connected chambers similar to the interconnected Laetolichnus. These were frequently exposed and broken by wind action resulting in loose fragments similar to the isolated Laetolichnus. The Celliforma ichnofacies represented at Laetoli, which contains L. kwekai, indicates arid or semiarid shrublands and woodlands. The distribution of O. brevicorniger also corresponds to arid and semiarid shrublands and dry woodlands of Argentina. Although the African termite producer of L. kwekai and the South American Onkotermes would be phylogenetically unrelated, the analogous structures probably reflect convergent nesting behaviors as an adaptation to similar arid to semiarid environmental conditions.
UR - http://www.scopus.com/inward/record.url?scp=85104498758&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85104498758&partnerID=8YFLogxK
U2 - 10.2110/palo.2020.057
DO - 10.2110/palo.2020.057
M3 - Article
AN - SCOPUS:85104498758
SN - 0883-1351
VL - 36
SP - 122
EP - 127
JO - Palaios
JF - Palaios
IS - 3
ER -