Literature

Authors	Year	Title
F. W. Amorim, Galetto, L., Sazima, M.	2012	Beyond the pollination syndrome: nectar ecology and the role of diurnal and nocturnal pollinators in the reproductive success of Inga sessilis (Fabaceae)
H. G. Baker	1961	The adaptation of flowering plants to nocturnal and crepuscular pollinators
J. R. Barber, Kawahara A. Y.	2013	Hawkmoths produce anti-bat ultrasound
J. R. Barber, Plotkin, D., Rubin, J. J., Homziak, N. T., Leavell, B. C., Houlihan, P., Miner, K. A., Breinholt, J. W., Quirk-Royal, B., Padrón, P. S., Nunez, M., Kawahara, A. Y.	2021	Anti-bat ultrasound production in moths is globally and phylogenetically widespread
D. A. Baum	1995	The comparative pollination and floral biology of baobabs ({IAdansonia} - Bombacaceae)
D. A. Baum, Small, R. L., Wendel, J. F.	1998	Biogeography and floral evolution of baobabs ({IAdansonia}, Bombacaceae) as inferred from multiple data sets
Baker, H. G., Baker I.	1983	A brief historical review of the chemistry of floral nectar. Pp. 126-152
U. M. Diniz, Fischer, N. L. S., Aguiar, L. M. S.	2022	Changing the main course: strong bat visitation to the ornithophilous mistletoe Psittacanthus robustus (Loranthaceae) in a Neotropical savanna
R. Gribel, Hay J. D.	1993	Pollination ecology of {ICaryocar brasiliense} (Caryocaraceae) in Central Brazil cerrado vegetation
B. J. Harris, Baker H. G.	1958	Pollination of {IKigelia africana} Benth
T. Hügel, Goerlitz H. R.	2019	Species‐specific strategies increase unpredictability of escape flight in eared moths
A. Y. Kawahara, Barber J. R.	2015	Tempo and mode of antibat ultrasound production and sonar jamming in the diverse hawkmoth radiation
Minet, J., Surlykke A.	2003	11. Auditory and sound producing organs, pp. 289-323 in
A. Miranda-Jácome, Rodríguez-García, R., Munguía-Rosas, M. A.	2022	Bats and moths contribute to the reproductive success of the columnar cactus Pilosocereus leucocephalus
J. Nattero, Moré, M., Sérsic, A. N., Cocucci, A. A.	2003	Possible tobacco progenitors share long-tongued hawkmoths as pollen vectors
J. A. Queiroz, Diniz, U. M., Vázquez, D. P., Quirino, Z. M., Santos, F. A. R., Mello, M. A. R., Machado, I. C.	2020	Bats and hawkmoths form mixed modules with flowering plants in a nocturnal interaction network
J. J. Rubin	2022	Darwin’s Hawkmoth (Xanthopan praedicta) responds to bat ultrasound at sonar-jamming rates
A. Ruiz, Santos, M., Cavelier, J., Soriano, P. J.	2000	Estudio fenológico de cact ceas en el enclave seco de la Tatacoa, Colombia
L. van der Pijl, Dodson C. H.	1966	Orchid flowers: their pollination and evolution
T. A. Vaughan	1976	Nocturnal behavior of the African false vampire bat ({ICardioderma cor})
C. C. Voigt, Winter Y.	1999	Energetic cost of hovering flight in nectar-feeding bats (Phyllotomidae: Glossophaginae) and its scaling in moths, birds and bats
L. T. Wasserthal	2001	Anpassungen bei Sphingiden zur Vermeidung von Spinnen- und Fledermaus-Attacken