taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386370	https://doi.org/10.3897/jor.34.145640.fig2	Fig. 2. Holotype (A. Dorsal view, B. Lateral view) and allotype (C. Dorsal view, D. Lateral view) of Amblycorypha monticola, Montane Round-winged Katydid. Scale bars: 5 mm.	Fig. 2. Holotype (A. Dorsal view, B. Lateral view) and allotype (C. Dorsal view, D. Lateral view) of Amblycorypha monticola, Montane Round-winged Katydid. Scale bars: 5 mm.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386375	https://doi.org/10.3897/jor.34.145640.fig7	Fig. 7. Oscillograms showing the fine temporal structure of echemes produced by 4 male A. monticola. The smaller amplitude sounds between each impulse train are from the opening stroke of the tegmina. Opening (O) and closing (C) strokes are indicated for the top oscillogram. Scale bar: 100 ms.	Fig. 7. Oscillograms showing the fine temporal structure of echemes produced by 4 male A. monticola. The smaller amplitude sounds between each impulse train are from the opening stroke of the tegmina. Opening (O) and closing (C) strokes are indicated for the top oscillogram. Scale bar: 100 ms.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386374	https://doi.org/10.3897/jor.34.145640.fig6	Fig. 6. Mean (± SE) syllable rates as a function of temperature during calling by male A. zipticka for clicks (blue fit: rate = 0.059 T- 0.010) and zips (red fit: rate = 0.150 T + 0.052). Numbers beside each mean represent the individual (n = 17) whose mean rate was measured. Individuals whose click rate and zip rate were calculated at the same temperature are from the same recording. The dotted line is the same function for clicks of A. alexanderi from Walker et al. 2003.	Fig. 6. Mean (± SE) syllable rates as a function of temperature during calling by male A. zipticka for clicks (blue fit: rate = 0.059 T- 0.010) and zips (red fit: rate = 0.150 T + 0.052). Numbers beside each mean represent the individual (n = 17) whose mean rate was measured. Individuals whose click rate and zip rate were calculated at the same temperature are from the same recording. The dotted line is the same function for clicks of A. alexanderi from Walker et al. 2003.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386376	https://doi.org/10.3897/jor.34.145640.fig8	Fig. 8. Oscillograms (25 s) of the calling songs of 4 male A. monticola showing the general temporal structure of calling. Songs are continuous slow echemes of 3–8 syllables that transition to short faster series of echemes that include ticks between them in later parts of the series. Multiple short series are often repeated for many seconds. Scale bar: 5 s.	Fig. 8. Oscillograms (25 s) of the calling songs of 4 male A. monticola showing the general temporal structure of calling. Songs are continuous slow echemes of 3–8 syllables that transition to short faster series of echemes that include ticks between them in later parts of the series. Multiple short series are often repeated for many seconds. Scale bar: 5 s.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386377	https://doi.org/10.3897/jor.34.145640.fig9	Fig. 9. A, E. Oscillograms (20 s) of calling songs of 2 male A. monticola. Scale bar: 1 s. B, F. Oscillogram and spectrogram of echemes highlighted by blue in A and E, with 8 syllables (B) and 7 syllables (F) typically produced continuously at slow rates during calling. C, G. Oscillogram and spectrogram of echemes indicated by the red outline in A and E, respectively. D, H. Echemes highlighted in green with one or two ticks produced between echemes during faster portions of calling.	Fig. 9. A, E. Oscillograms (20 s) of calling songs of 2 male A. monticola. Scale bar: 1 s. B, F. Oscillogram and spectrogram of echemes highlighted by blue in A and E, with 8 syllables (B) and 7 syllables (F) typically produced continuously at slow rates during calling. C, G. Oscillogram and spectrogram of echemes indicated by the red outline in A and E, respectively. D, H. Echemes highlighted in green with one or two ticks produced between echemes during faster portions of calling.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386378	https://doi.org/10.3897/jor.34.145640.fig10	Fig. 10. Mean (± SE) syllable rates within echemes as a function of temperature for individuals from different populations of A. monticola in western North Carolina. Numbers beside each mean are the individual (n = 29) whose mean rate was measured. Individuals whose rates were calculated at the same temperature are syllable rates from the same recording but measured during slow (blue fit: rate = 2.41 T- 14.1) and fast (red fit: rate = 2.36 T- 14.2) portions of the song. Dotted line is the rate function for A. rotundifolia (Walker et al. 2003).	Fig. 10. Mean (± SE) syllable rates within echemes as a function of temperature for individuals from different populations of A. monticola in western North Carolina. Numbers beside each mean are the individual (n = 29) whose mean rate was measured. Individuals whose rates were calculated at the same temperature are syllable rates from the same recording but measured during slow (blue fit: rate = 2.41 T- 14.1) and fast (red fit: rate = 2.36 T- 14.2) portions of the song. Dotted line is the rate function for A. rotundifolia (Walker et al. 2003).	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386379	https://doi.org/10.3897/jor.34.145640.fig11	Fig. 11. Mean (± SE) echeme rate as a function of temperature for A. monticola males from different North Carolina populations. Numbers beside each mean are the individual (n = 29) whose mean rate was measured. Individuals whose rates were calculated at the same temperature are echeme rates from the same recording but measured during slow (blue fit: rate = 0.086 T- 0.526) and fast (red fit: rate = 0.157 T- 0.828) portions of the song.	Fig. 11. Mean (± SE) echeme rate as a function of temperature for A. monticola males from different North Carolina populations. Numbers beside each mean are the individual (n = 29) whose mean rate was measured. Individuals whose rates were calculated at the same temperature are echeme rates from the same recording but measured during slow (blue fit: rate = 0.086 T- 0.526) and fast (red fit: rate = 0.157 T- 0.828) portions of the song.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386382	https://doi.org/10.3897/jor.34.145640.fig14	Fig. 14. Oscillograms of portions of duets between 3 A. monticola pairs (female upper trace, male lower trace). Echemes of the male are highlighted in red and the males’ ticks are highlighted in green. Female tick replies are highlighted in purple. Males’ songs are seen at lower amplitudes in the females’ traces (grey). Scale bar: 100 ms.	Fig. 14. Oscillograms of portions of duets between 3 A. monticola pairs (female upper trace, male lower trace). Echemes of the male are highlighted in red and the males’ ticks are highlighted in green. Female tick replies are highlighted in purple. Males’ songs are seen at lower amplitudes in the females’ traces (grey). Scale bar: 100 ms.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
7BF35A0BB0165D99B12765DD63EBA8CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386383	https://doi.org/10.3897/jor.34.145640.fig15	Fig. 15. Distributions of male (green) and female (purple) ticks in A. monticola as a function of the proportion of time between an echeme and the next echeme when a single tick or two ticks were emitted, (0.0–1.0) and (1.0–2.0), respectively. A. Schematic of the final portion of the calling song sequence with ticks (green) between groups of syllables (red) representing the echemes in the song. B. Overall distribution of male ticks in the song (green) including the mean ± SE (green circles) of single ticks (0.0–1.0) and double ticks (1.0–2.0). C. Same as in B but measured during duets with females. D. Distribution of female tick responses during the duets in C.	Fig. 15. Distributions of male (green) and female (purple) ticks in A. monticola as a function of the proportion of time between an echeme and the next echeme when a single tick or two ticks were emitted, (0.0–1.0) and (1.0–2.0), respectively. A. Schematic of the final portion of the calling song sequence with ticks (green) between groups of syllables (red) representing the echemes in the song. B. Overall distribution of male ticks in the song (green) including the mean ± SE (green circles) of single ticks (0.0–1.0) and double ticks (1.0–2.0). C. Same as in B but measured during duets with females. D. Distribution of female tick responses during the duets in C.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386369	https://doi.org/10.3897/jor.34.145640.fig1	Fig. 1. Holotype (A. Dorsal view, B. Lateral view) and allotype (C. Dorsal view, D. Lateral view) of Amblycorypha zipticka, the Zip Ticker Round-winged Katydid. Scale bars: 5 mm.	Fig. 1. Holotype (A. Dorsal view, B. Lateral view) and allotype (C. Dorsal view, D. Lateral view) of Amblycorypha zipticka, the Zip Ticker Round-winged Katydid. Scale bars: 5 mm.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386371	https://doi.org/10.3897/jor.34.145640.fig3	Fig. 3. Oscillograms (25 s) of the calling songs of 4 male A. zipticka showing the general temporal structure of calling. Songs consist of two syllable types, clicks and zips. Above portions of each oscillogram, colored bars indicate clicks (blue), zips (red), and ticks (green). Clicks are emitted at slower rates and transition to a faster series of zips that are then followed by a series of brief impulses (ticks). Scale bar: 5 s.	Fig. 3. Oscillograms (25 s) of the calling songs of 4 male A. zipticka showing the general temporal structure of calling. Songs consist of two syllable types, clicks and zips. Above portions of each oscillogram, colored bars indicate clicks (blue), zips (red), and ticks (green). Clicks are emitted at slower rates and transition to a faster series of zips that are then followed by a series of brief impulses (ticks). Scale bar: 5 s.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386372	https://doi.org/10.3897/jor.34.145640.fig4	Fig. 4. A, E. Oscillograms (12.5 s) of calling songs of 2 male A. zipticka. Scale bar: 1 s. Three different sound elements of the song are highlighted (blue: clicks, red: zips, and green: zip (s) followed by ticks and then a click); B, F. Oscillogram and spectrogram of clicks highlighted by blue in A and E, respectively; C, G. Oscillogram and spectrogram of zips outlined by red in A and E; D, H. Sections of A and E outlined in green showing the transition between last zip to a series of ticks followed by a click.	Fig. 4. A, E. Oscillograms (12.5 s) of calling songs of 2 male A. zipticka. Scale bar: 1 s. Three different sound elements of the song are highlighted (blue: clicks, red: zips, and green: zip (s) followed by ticks and then a click); B, F. Oscillogram and spectrogram of clicks highlighted by blue in A and E, respectively; C, G. Oscillogram and spectrogram of zips outlined by red in A and E; D, H. Sections of A and E outlined in green showing the transition between last zip to a series of ticks followed by a click.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386373	https://doi.org/10.3897/jor.34.145640.fig5	Fig. 5. Fine temporal structure of a click (left) and a zip (right) from the same recording of 4 male A. zipticka. Scale bar: 100 ms.	Fig. 5. Fine temporal structure of a click (left) and a zip (right) from the same recording of 4 male A. zipticka. Scale bar: 100 ms.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386375	https://doi.org/10.3897/jor.34.145640.fig7	Fig. 7. Oscillograms showing the fine temporal structure of echemes produced by 4 male A. monticola. The smaller amplitude sounds between each impulse train are from the opening stroke of the tegmina. Opening (O) and closing (C) strokes are indicated for the top oscillogram. Scale bar: 100 ms.	Fig. 7. Oscillograms showing the fine temporal structure of echemes produced by 4 male A. monticola. The smaller amplitude sounds between each impulse train are from the opening stroke of the tegmina. Opening (O) and closing (C) strokes are indicated for the top oscillogram. Scale bar: 100 ms.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386374	https://doi.org/10.3897/jor.34.145640.fig6	Fig. 6. Mean (± SE) syllable rates as a function of temperature during calling by male A. zipticka for clicks (blue fit: rate = 0.059 T- 0.010) and zips (red fit: rate = 0.150 T + 0.052). Numbers beside each mean represent the individual (n = 17) whose mean rate was measured. Individuals whose click rate and zip rate were calculated at the same temperature are from the same recording. The dotted line is the same function for clicks of A. alexanderi from Walker et al. 2003.	Fig. 6. Mean (± SE) syllable rates as a function of temperature during calling by male A. zipticka for clicks (blue fit: rate = 0.059 T- 0.010) and zips (red fit: rate = 0.150 T + 0.052). Numbers beside each mean represent the individual (n = 17) whose mean rate was measured. Individuals whose click rate and zip rate were calculated at the same temperature are from the same recording. The dotted line is the same function for clicks of A. alexanderi from Walker et al. 2003.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386380	https://doi.org/10.3897/jor.34.145640.fig12	Fig. 12. Oscillograms of portions of duets between 3 A. zipticka pairs (female upper trace, male lower trace). The final zip of each male’s song is highlighted in red, subsequent clicks are highlighted in blue, and the intervening ticks of the male are highlighted in green. Female tick replies are highlighted in purple. Lower amplitude male songs (grey) are seen in the female traces. Scale bar: 500 ms.	Fig. 12. Oscillograms of portions of duets between 3 A. zipticka pairs (female upper trace, male lower trace). The final zip of each male’s song is highlighted in red, subsequent clicks are highlighted in blue, and the intervening ticks of the male are highlighted in green. Female tick replies are highlighted in purple. Lower amplitude male songs (grey) are seen in the female traces. Scale bar: 500 ms.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
40DBB90268AB5CDA9ECCD217E996BDEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1386381	https://doi.org/10.3897/jor.34.145640.fig13	Fig. 13. Distributions of male (green) and female (purple) ticks in A. zipticka as a function of the proportion of time between the zip and click (0.0–1.0) and between the first click and next click (1.0–2.0). A. Schematic of the final portion of the calling song sequence with 3 song components, zip (red), clicks (blue), and ticks (green). B. Overall distribution of male ticks in the song (green) including the mean ± SE (green circles) of individual ticks in the sequences (1–10) between the zip and click. C. Same as in B but measured during duets with females. D. Distribution of female tick responses during the duets in C.	Fig. 13. Distributions of male (green) and female (purple) ticks in A. zipticka as a function of the proportion of time between the zip and click (0.0–1.0) and between the first click and next click (1.0–2.0). A. Schematic of the final portion of the calling song sequence with 3 song components, zip (red), clicks (blue), and ticks (green). B. Overall distribution of male ticks in the song (green) including the mean ± SE (green circles) of individual ticks in the sequences (1–10) between the zip and click. C. Same as in B but measured during duets with females. D. Distribution of female tick responses during the duets in C.	2025-08-01	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate		Zenodo	biologists	Forrest, Timothy G.;Hamel, Jennifer A.;Holbrook, C. Tate			
