taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364255	https://doi.org/10.3897/zookeys.899.46779.figure2	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364257	https://doi.org/10.3897/zookeys.899.46779.figure4	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364258	https://doi.org/10.3897/zookeys.899.46779.figure5	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364263	https://doi.org/10.3897/zookeys.899.46779.figure10	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364259	https://doi.org/10.3897/zookeys.899.46779.figure6	Figure 6. Genitalia of Campiglossa misella A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G Spermatheca.	Figure 6. Genitalia of Campiglossa misella A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G Spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FBEF9957A3F65D22B6F46AC8C9BC681F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364256	https://doi.org/10.3897/zookeys.899.46779.figure3	Figure 3. The habitat of Campiglossa coei. CHINA: Yunnan, Mengsong, Manlvcunhanzudazhai, small hilltop, 22 ° 07 ' 44.0 " N, 100 ° 28 ' 51.7 " E, 1,690 m, 12 July 2011. Many more than 100 individuals of C. coei were collected along with at least ten other species of the subfamily Tephritinae.	Figure 3. The habitat of Campiglossa coei. CHINA: Yunnan, Mengsong, Manlvcunhanzudazhai, small hilltop, 22 ° 07 ' 44.0 " N, 100 ° 28 ' 51.7 " E, 1,690 m, 12 July 2011. Many more than 100 individuals of C. coei were collected along with at least ten other species of the subfamily Tephritinae.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
51392B10E9C05350A5C28799AB9AEE3A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364258	https://doi.org/10.3897/zookeys.899.46779.figure5	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
51392B10E9C05350A5C28799AB9AEE3A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364262	https://doi.org/10.3897/zookeys.899.46779.figure9	Figure 9. Male genitalia of Campiglossa melaena A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus.	Figure 9. Male genitalia of Campiglossa melaena A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
51392B10E9C05350A5C28799AB9AEE3A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364260	https://doi.org/10.3897/zookeys.899.46779.figure7	Figure 7. A-E Campiglossa paramelaena sp. nov. A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female, wing G-K C. melaena G male, lateral view H male, dorsal view I male, wing J holotype male, wing K female, wing J, K Reproduced from Korneyev and Ovchinnikova (2004) with permission from Valery Korneyev.	Figure 7. A-E Campiglossa paramelaena sp. nov. A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female, wing G-K C. melaena G male, lateral view H male, dorsal view I male, wing J holotype male, wing K female, wing J, K Reproduced from Korneyev and Ovchinnikova (2004) with permission from Valery Korneyev.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
51392B10E9C05350A5C28799AB9AEE3A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364254	https://doi.org/10.3897/zookeys.899.46779.figure1	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
51392B10E9C05350A5C28799AB9AEE3A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364255	https://doi.org/10.3897/zookeys.899.46779.figure2	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
5B77CD35419B514EAD7019DF951ED515.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364257	https://doi.org/10.3897/zookeys.899.46779.figure4	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
5B77CD35419B514EAD7019DF951ED515.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364259	https://doi.org/10.3897/zookeys.899.46779.figure6	Figure 6. Genitalia of Campiglossa misella A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G Spermatheca.	Figure 6. Genitalia of Campiglossa misella A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G Spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
5B77CD35419B514EAD7019DF951ED515.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364263	https://doi.org/10.3897/zookeys.899.46779.figure10	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
5B77CD35419B514EAD7019DF951ED515.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364254	https://doi.org/10.3897/zookeys.899.46779.figure1	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
5B77CD35419B514EAD7019DF951ED515.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364255	https://doi.org/10.3897/zookeys.899.46779.figure2	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364258	https://doi.org/10.3897/zookeys.899.46779.figure5	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	Figure 5. Genitalia of Campiglossa coei A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364261	https://doi.org/10.3897/zookeys.899.46779.figure8	Figure 8. Genitalia of Campiglossa paramelaena sp. nov. A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	Figure 8. Genitalia of Campiglossa paramelaena sp. nov. A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus D female postabdomen with aculeus and eversible membrane pulled out, ventral view E magnified view of aculeus tip F magnified view of oviscape and eversible membrane G spermatheca.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364260	https://doi.org/10.3897/zookeys.899.46779.figure7	Figure 7. A-E Campiglossa paramelaena sp. nov. A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female, wing G-K C. melaena G male, lateral view H male, dorsal view I male, wing J holotype male, wing K female, wing J, K Reproduced from Korneyev and Ovchinnikova (2004) with permission from Valery Korneyev.	Figure 7. A-E Campiglossa paramelaena sp. nov. A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female, wing G-K C. melaena G male, lateral view H male, dorsal view I male, wing J holotype male, wing K female, wing J, K Reproduced from Korneyev and Ovchinnikova (2004) with permission from Valery Korneyev.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364257	https://doi.org/10.3897/zookeys.899.46779.figure4	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364254	https://doi.org/10.3897/zookeys.899.46779.figure1	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	Figure 1. The genus Campiglossa portion of the neighbor-joining tree based on the Kimura 2 - parameter distances of 7,223 tephritid DNA barcode sequences mostly extracted from BOLD Systems (www. boldsystems. org, as of Jan 2019), including 55 newly obtained Campiglossa sequences (names prefixed with Z). All 211 Campiglossa, Homoeotricha, and Dioxyna (regarded to be the genus Campiglossa, sensu lato, in this study) sequences were recovered as a monophyletic clade in this analysis. Putative species group names (in red) are marked on the respective branches.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364255	https://doi.org/10.3897/zookeys.899.46779.figure2	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	Figure 2. MEGA X analysis produced a maximum-likelihood (ML) phylogram of the 76 selected Campiglossa (ingroup) and ten Tephritis (outgroup) DNA barcode sequences using the general time reversible model. The first number on each branch is the bootstrap support from ML analysis (pb); the second number represents posterior probability (pp) from Bayesian inference (BI). Samples in green letters were extracted from BOLD systems (www. boldsystems. org).	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
FE17C433902A54FBAB671BABB1966A88.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364262	https://doi.org/10.3897/zookeys.899.46779.figure9	Figure 9. Male genitalia of Campiglossa melaena A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus.	Figure 9. Male genitalia of Campiglossa melaena A epandrial complex, lateral view B epandrial complex, caudal view C glans and preglans of distiphallus.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
ABE72D58B47D5B5D8A382F490B029997.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364263	https://doi.org/10.3897/zookeys.899.46779.figure10	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
ABE72D58B47D5B5D8A382F490B029997.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364257	https://doi.org/10.3897/zookeys.899.46779.figure4	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	Figure 4. A-F Campiglossa coei A male, lateral view B male, dorsal view C male wing D female, lateral view E female, dorsal view F female wing G-K C. misella G male, lateral view H male, lateral view I male, dorsal view J female, lateral view K female, dorsal view.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
F1E231881B0F54C9AEC10B0DB01AD52B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/364263	https://doi.org/10.3897/zookeys.899.46779.figure10	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	Figure 10. A Holotype male of Campiglossa favillacea Ito, 2011 (new synonym of C. coei, UOPJ) B from left, two paratype females and holotype of C. favillacea [UOPJ] C holotype female of C. roscida Ito, 2011 (new synonym of C. misella) D ditto E holotype or paratype male wing of C. pishanica F holotype male wing of C. propria E, F reproduced from Wang (1998) with permission from Xing-Jian Wang.	2019-12-31	Han, Ho-Yeon;Ro, Kyung-Eui		Zenodo	biologists	Han, Ho-Yeon;Ro, Kyung-Eui			
