taxonID	type	description	language	source
87504AD5384F5E30B65F0D33A3F4A28E.taxon	description	Fig. 9 C – H	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
B1A3FFE360C25789816FFB4478FC02C1.taxon	description	Fig. 9 A, B	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C88F050665775F36952D6743E62AD719.taxon	description	Fig. 9 O – Q	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
CF44E66CF77E5DDE8B109B9166E8AB2A.taxon	description	Fig. 9 I – N	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C4A7B25B00AC56B19C75F9056A205276.taxon	description	Fig. 10 A – D	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
2213D4CCF5115003B3B1BF5BD107650F.taxon	description	Fig. 10 E – H	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
60A8DB8745D95D18BB59CC4E033F9804.taxon	description	Fig. 11 A – S	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C7C0D40A34205B64AD54F122E904E9B0.taxon	description	Fig. 18 I – W	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C7C0D40A34205B64AD54F122E904E9B0.taxon	diagnosis	Diagnosis. This newly identified species exhibits a rectangular, flattened morphology (length: 4.6 – 4.7 mm), characterized by black, spiny pronotum and elytra, as well as a dull yellow ventral surface. The pronotum bears a pair of dull yellow trifurcate anterior spines and three pairs of dull yellow long spines oriented horizontally. Similarly, the elytron exhibits numerous long and short spines along margins and interstices I, II, IV, VI, and VIII. The male genitalia feature an aedeagus resembling a spatula in dorsal view, appearing almost parallel-sided and uncurved in lateral view. The larvae mine the leaves of Rubiaceae, particularly Adina pilulifera. This species resembles Dactylispa nigrodiscalis Gressitt, 1938, a Chinese species. However, it is differentiated from the latter by the widely separated anterior trifurcate spines of the prothorax and the basally separated first and second lateral spines on the prothorax.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C7C0D40A34205B64AD54F122E904E9B0.taxon	description	Description. Male (Fig. 18 I – Q). Habitus. The body is 4.6 – 4.7 mm in length (excluding spines) and is mostly black on the dorsal surface and dull yellow on the ventral surface and head (Fig. 18 I, J). The pronotum is black except for dull yellow margins, spines, and a medial linear area before the posterior margin. The elytra are largely black except for dull yellow margins in the middle. Head. The head is broader than the anterior margin of the prothorax, narrowing behind the eyes and with a black, smooth, and shining occiput. The frons is yellowish-brown and rugose, with a small projection between antennal insertions (Fig. 18 M, arrow). The antennae are moderately long, approximately three-quarters of the body length. The segments do not feature spines and are covered with fine short hairs. Segment 1 is the longest among the 11 segments and is slightly curved outward. Segments 1 and 2 are dark brown, whereas segments 3 – 11 are yellowish brown. Segments 5 – 11 are slightly thicker than segments 3 – 4 (Fig. 18 I). The proportional lengths of antennomeres 1 – 11 are as follows: 1: 0.3: 0.5: 0.5: 0.6: 0.6: 0.6: 0.6: 0.6: 0.6: 0.9. Thorax. The pronotum is transverse, measuring 1.6 - fold as wide as long, with rounded sides that are prominently produced and flattened medially (Fig. 18 I). A pair of dull yellow trifurcate spines appears at the anterior margin of the pronotum (Fig. 18 K, M). The two anterior projections share a long common stem and point upward, whereas the posterior projection points diagonally upward and backward, with black apexes. The lateral margin of the pronotum features three long, dull yellow spines pointed horizontally, with the anterior two being longer than the posterior one and located basally on a common stem. The apexes of the anterior two projections are black (Fig. 18 N). The base of the disc features a transverse impression. The disc is granulated and covered with large punctures between the lateral spines, with a dull yellow, impunctate, longitudinal linear depression before the posterior margin along the median line. The scutellum is finely granulose and broad but narrow and subangulate posteriorly. The elytra are largely parallel-sided and broadly rounded posteriorly, with distinct rounded punctures on the surface (Fig. 18 I) that are largely black. However, the lateral margins in the middle and apical regions (including spines) are dull yellow. The base of the elytron is wider than the pronotum, with the sides and disc bearing numerous long spines. The lateral margin of the elytron is flattened on each side, featuring 15 or 16 compressed spines, with alternating long and short spines. Each long spine is as long as the first segment of the antenna and slightly curved backward. The apical margin is covered with seven or eight short spines. The elytral interstices are covered with long and short spines (Fig. 18 K, O): interspace I with two short spines, interspace II with four long spines, interspace IV with nine spines of which the fifth and seventh are long, interspace VI with nine spines of which the fifth and seventh are short, and interspace VIII with four spines of which the first and third are long. Punctuation is regular and coarse, with the distance between punctures being smaller than the puncture diameter. The legs are dull yellow and slender. Abdomen. The abdomen is dull yellow. Genitalia. The aedeagus has a spatula-like appearance in dorsal view, with a poorly sclerotized basal region (Fig. 18 P, Q). It measures 3 - fold longer than its width, appearing almost parallel-sided and narrowed to a rounded apex. It is almost uncurved in lateral view. There are V-shaped phallobase apodeme rings around and keeling the median lobe. Female. The body of females is larger than that of males, measuring 4.7 – 5.1 mm in length. Genitalia. The spermatheca is J-shaped and swollen (Fig. 18 R). The cornu is gradually narrowed toward the blunt apex. The ductus spermatheca is thin, exceedingly elongated, and regularly and tightly coiled. Pupa. The body is pale brown, elongated, and flattened dorsoventrally (Fig. 18 S). Abdominal segments I – IV feature acuminate bifurcated lateral processes at the apical region, with the ventral process smaller than the dorsal process. The processes of segment IV are significantly enlarged, and the ventral process is particularly thick and projecting diagonally backward, with a hooked tip. Segments V – VII feature bifurcated processes, with greater bifurcation of the ventral processes. Segments VIII and IX are fused, exhibiting two blunt processes apically.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C7C0D40A34205B64AD54F122E904E9B0.taxon	distribution	Distribution. Around Obi, Southern Miyazaki Prefecture, Japan.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C7C0D40A34205B64AD54F122E904E9B0.taxon	etymology	Etymology. The species name refers to the genus name of the host plant, Adina.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
1578AC17D14650A3AF89DBF1AA12F4EB.taxon	description	Fig. 17 O – X	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
CA68E1103279574791EA37A251D65E30.taxon	description	Fig. 18 A – H	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
5EAA560121995B82AC89A7E0F92C760F.taxon	description	Fig. 19 A – H	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C1B6D22CE9F256E5BA36AD3583FB7124.taxon	description	Fig. 17 E – N	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F54BE6A9D2145229AB89EF02AC07ECEC.taxon	description	Fig. 17 A – D	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
B7DDF71DD6CA5577A75EE8481A7DCDE3.taxon	description	Fig. 4 H – L	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
3CF83FF4F4305FB9BE2F36897A39878B.taxon	description	Fig. 8 U – X	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
2C950025D8EA50DCBE002B8553F881BB.taxon	description	Fig. 8 P – T	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C3DA3799AADD5FA79FA227B85AC4132A.taxon	description	Fig. 8 A – H	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
FF28D89241BB52E48F745A0090CD7F51.taxon	description	Fig. 8 I – O	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
2A706F2C79885682A69F00361CF737C2.taxon	description	Fig. 6 A – F	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
3803BDD86D855A85BC885C1EBEF24EEB.taxon	description	Fig. 4 A – G	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C74E1ADFC9225B719A3D0EC1B2443B1F.taxon	description	Fig. 5 A – I	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
66926E35CC8A5B9CA0A5C113DFDD4DCA.taxon	description	Fig. 5 J – L	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
3BCEB7F977B75ED0B9A456E58F390465.taxon	description	Fig. 1 A – F	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
AE67ED2B92895B4CBA64EC2901FC6073.taxon	description	Fig. 20 A – Y	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
55255663A5AC558E89B73AB096CC8A56.taxon	description	Fig. 21 A – F	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
D62CE5437F555EACA2A6DA5944D53884.taxon	description	Fig. 21 G – O	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
57C3B260E46B5028A2D69C919A668008.taxon	description	Fig. 3 A – I	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
E47EC518EAA55834B80BA48FB3EDF243.taxon	description	Fig. 3 J – M	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
6D753692D1AC548299C2319D014B8B4B.taxon	description	Fig. 19 Q – W	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
1871083BACA45D329BB612C3A7B3024A.taxon	description	Fig. 7 A – P	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
979B4F4163E75873A503C4D9A3674176.taxon	description	Fig. 7 Q – T	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
9A15B03B5D6D55ED8A7925D0A42B0CE5.taxon	description	Fig. 19 I – P	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
7CB09DD1636E5BB4A6D1913F0AD888F0.taxon	description	Fig. 14 A – C	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F90151A6EA305851A57AE69B16CE0006.taxon	description	Fig. 16 A – J	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
D7143DFDE8E25947B5F7A94FFA847433.taxon	description	Fig. 14 M – Q	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
D46F349D326155688F158275E18C838F.taxon	description	Fig. 14 D	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
93A02546038B5996B8CDD597C5387176.taxon	description	Fig. 13 A – C	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F579D9DAE5145EA186C7552BCB3E8B73.taxon	description	Fig. 16 K – Z	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F579D9DAE5145EA186C7552BCB3E8B73.taxon	diagnosis	Diagnosis. The species is a small oblong-oval, strongly convex beetle (length 1.8 – 1.9 mm) with a shiny, completely reddish brown body, elytra, and legs. The head features a pair of distinctly delimited frontal tubercles that contact each other at postero-inner angles. The inter-antennal area is raised and fusiform. The male genitalia exhibit a laterally uncurved aedeagus. The larva mines the leaves of Asteraceae plants including Ixeris japonica, Lactuca indica, and Youngia japonica.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F579D9DAE5145EA186C7552BCB3E8B73.taxon	description	Description. Adult male (Fig. 16 K – Q). Habitus. The body is oblong-oval and strongly convex on the dorsal side, measuring 1.8 – 1.9 mm in length (Fig. 16 K, N). It is reddish brown, with black eyes. The antennae are dark brown, and the four basal segments, pronotum, and elytra are reddish brown (Fig. 16 N). Head. The head has a smooth, shiny, impunctate vertex. The frontal tubercles are transverse and posteriorly delimited by a nearly straight, deep, sharp sulcus, with antero-inner and antero-outer angles produced below, well-delimited behind by a sharp furrow, almost contacting each other at postero-inner angles (Fig. 16 O). The inter-antennal area is raised and fusiform, with the diameter of the raised area narrower than that of the antennal socket. The eyes are strongly convex, with their transverse diameter in frontal view being 0.8 - fold wider than the inter-ocular distance. The clypeus has an entire anterior fringe. The antennae are half as long as the body. The proportional lengths of antennomeres 1 – 11 are as follows: 1: 0.50: 0.38: 0.51: 0.65: 0.65: 0.65: 0.65: 0.69: 0.69: 0.91. Thorax. The pronotum is transverse, 1.7 - fold as wide as long, with the widest point located slightly before basal angles, and broadly arched at the posterior margin, with roundly produced anterior angles. The disc is evenly convex, sparsely covered with small punctures and interspaced with smooth and shining areas. The scutellum is rounded and triangular in shape, flat, impunctate, and as long as wide. The elytra are oblong and strongly convex, each measuring 2.1 - fold as long as wide, widest at the basal one-fourth area and then rounded and narrowed toward the apex (Fig. 16 K). The disc is densely covered with 11 partially irregular, longitudinal striae of small punctures. The epipleura are wide at the base, with gradual narrowing and disappearance before the apex. The epipleural disc is impunctate and smooth. The prosternum is narrow with a stout longitudinal carina as wide as the length of the 10 th antennal segment (Fig. 16 L). Abdomen. The fifth visible abdominal sternite is densely covered with punctures bearing long hairs and is weakly concave apically, with a dark median longitudinal line. The legs are stout, with the first tarsal segments being moderately enlarged but distinctly narrower than the third segment. The hind legs have significantly enlarged femora. Genitalia. (Fig. 16 P, Q) The aedeagus is lanceolate in dorsal view, 3.6 - fold longer than its width, almost parallel-sided, and narrowed to a rounded triangular apex. Slightly curved in lateral view, with the ventral surface almost flat. The ostium is membranous, containing an inverted V-shaped sclerotized area. Female. The body is slightly enlarged, ~ 2.0 – 2.2 mm in length. Genitalia. (Fig. 16 R) The spermatheca is brown and sclerotized, consisting of a proximal swollen receptacle and a distal strongly curved slender pump, with the apex attenuated and curved inward. The receptacle and pump exhibit many transverse wrinkles. The spermathecal duct is proximally sclerotized, connecting to a thin transparent duct. The distal portion of the sclerotized spermathecal duct carries a globular ramus.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F579D9DAE5145EA186C7552BCB3E8B73.taxon	distribution	Distribution. The only known distribution is on Iriomote Island, Japan.	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
F579D9DAE5145EA186C7552BCB3E8B73.taxon	etymology	Etymology. The species name refers to the village name of the type locality, which is also the original name of Iriomote Island (Komi).	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
E3542A3CC80051BFBD268046AC0F4712.taxon	description	Fig. 12 A – O	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
5580FCC1C83258DABB2B0B6D2D19DD2F.taxon	description	Fig. 15 S – Z	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
CC7B707BEFDD5CFD963976061E7E27E4.taxon	description	Fig. 15 A – G	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
0A2B5252B02952B8AC5EF3DDBD44C4A8.taxon	description	Fig. 14 E – L	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
B91FA7A49F9E5B8F9F759E8DE1B58AD9.taxon	description	Fig. 14 R – V	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
C6A481CE356052CF92CB38D28E7F7745.taxon	description	Fig. 13 M – P	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
2043D58A4285579FBDE8A53696A667CE.taxon	description	Fig. 13 D – L	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
6C1FB0F6B2955518A89CC7168BC8900D.taxon	description	Fig. 15 M – R	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
E8BC6C9E138E585C8D5C1EF1359589DA.taxon	description	Fig. 15 H – L	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
1815AF3760B15689BB690C3626FB9ED5.taxon	description	Fig. 1 G – I	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
0D5C15D509E75E7583120BB791EBA2AD.taxon	description	Fig. 2 N – Q	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
19F7DD9EBC3459009C1CEF331BE3772B.taxon	description	Fig. 2 F – I	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
BDE06BADF2C651C58BF1A386EF1984F9.taxon	description	Fig. 2 J – M	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
DBE888AD23FD5D62AF7F6C5C2F140703.taxon	description	Fig. 2 T – V	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
9861A8A910485893BF21C99E21F2DF55.taxon	description	Fig. 2 W – Z	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
B6C5DBBDBD755272B54E55022F53A3E2.taxon	description	Fig. 2 C – E	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
0A80E343CF8C5414A7468F66C9AB7B5C.taxon	description	Fig. 2 A, B	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
B21F7B4145165A728F234E163359BA0E.taxon	description	Fig. 2 R, S	en	Kato, Makoto, Imada, Yume (2025): Diversity and host plant utilization of leaf-mining beetles of Chrysomeloidea (Coleoptera) in Japan. ZooKeys 1238: 209-268, DOI: 10.3897/zookeys.1238.124514
