taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03C487B3FE5E931EFE5DFEA3FE96E35A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3673590/files/figure.png	http://doi.org/10.5281/zenodo.3673590	Figure 1. Oscillographs (lower of each pair of traces) and sonographs (upper traces) of (a) a solo vibrational song (shortest repeated unit or SRU) of Chrysoperla duellii sp. nov. from Kyrgyzstan in central Asia and (b) a solo vibrational song of Chrysoperla downesi from northeastern North America, illustrating convergent song phenotypes in these two completely allopatric species. Each song was recorded at 25 ± 1°C and is drawn to the same timescale of 6.25 s. For C. duellii (a), each of the four distinctly different types of volleys characteristic of this species is labelled, while for C. downesi (b), each of its two distinctive volley types is noted. Within-volley vibrational frequency declines in each type of volley of C. duellii but increases in each type of volley of C. downesi – an important diagnostic (and plainly audible) difference between the two species.	Figure 1. Oscillographs (lower of each pair of traces) and sonographs (upper traces) of (a) a solo vibrational song (shortest repeated unit or SRU) of Chrysoperla duellii sp. nov. from Kyrgyzstan in central Asia and (b) a solo vibrational song of Chrysoperla downesi from northeastern North America, illustrating convergent song phenotypes in these two completely allopatric species. Each song was recorded at 25 ± 1°C and is drawn to the same timescale of 6.25 s. For C. duellii (a), each of the four distinctly different types of volleys characteristic of this species is labelled, while for C. downesi (b), each of its two distinctive volley types is noted. Within-volley vibrational frequency declines in each type of volley of C. duellii but increases in each type of volley of C. downesi – an important diagnostic (and plainly audible) difference between the two species.	2019-08-09	Henry, Charles S.;Taylor, Katherine L.;Johnson, James B.		Zenodo	biologists	Henry, Charles S.;Taylor, Katherine L.;Johnson, James B.			
