taxonID	type	description	language	source
03888796FF992E293A3FAD33C5A8F804.taxon	description	New records. 1?, Wu F 3388 / Bu / CJW; 1?, RO my 107; 1?, RO my 191.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF992E293A3FA9BAC269FAF5.taxon	description	New records. 1?, BuB 2658; 1?, BuB 2659; 1?, BuB 2984; 1?, BuB 3028; 1?, RO my 295. Identification. Members of the order Polyxenida are among the easiest Diplopoda to identify. They are the only soft-bodied millipedes whose body is covered by tufts of hair and which carry caudal bundles of trichomes (Enghoff et al. 2015).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF992E293A3FAF48C5C6F995.taxon	description	Identification. These 8 specimens were thankfully determined to the family level by the taxonomic expert of the group, Megan Short, based on photographs (see Acknowledgements). The diagnostic characters include: presence of 10 tergites, 13 pairs of legs, as well as a special arrangement of hairs.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9A2E2A39BAAC60C7F0F7D6.taxon	description	Figure 1 A Identification. Members of the Glomeridesmida, family Glomeridesmidae can be easily identified by the following head characteristics: the absence of ommatidia, a large Tömösváry organ which is circular. Furthermore, their body consists of 19 tergites plus anal shield (Enghoff et al. 2015). The determination can be further confirmed by the presence of well-developed and visible telopods as 2 of the specimens are males. The specimens also fit in all characters to the recent members of the family Glomeridesmidae; the only other family of the Glomeridesmida, Termitodesmidae, is morphologically strongly derived (Enghoff et al. 2015).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9A2E2B3A3EAC60C7D2FE9E.taxon	description	New records. 1 M, CG-My 7276; 1?, CG-BURMA 11119; 1?, CG-BURMA 11127; 3?, BuB 992; 3?, BuB 1821; 1?, BuB 2438; 1?, BuB 2603; 1?, BuB 2604; 1?, BuB 2703; 3?, BuB 2704; 1?, BuB 2705; 1?, BuB 2706; 1?, BuB 2707; 1?, BuB 2718; 1?, BuB 2957; 1?, BuB 2990; 1?, BuB 2995; 1?, BuB 2996; 1?, BuB 3013; 1?, BuB 3014; 1?, BuB 3015; 1?, BuB 3016; 1?, BuB 3053; 1?, BuB 3058; 1 F, BuB 3257; 1?, BuB 3259; 1?, ZFMK MYR 06116; 1?, ZFMK MYR 07365; 1?, ZFMK MYR 07371; 1?, ZFMK MYR 07372; 1?, ZFMK MYR 07376. Figure 1 B Identification. All these pill millipede specimens were determined as members of the Glomerida based on the characteristic head characters of the order. Glomerida can be distinguished from the Sphaerotheriida by the shape of the Tömösváry organ, the insertion point of the antenna and many other characteristics (Oeyen and Wesener 2018). The family classification of the Glomerida is based on the telopods, which currently prevents any more detailed determinations.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B3A3FAF19C5AFF931.taxon	description	Figure 1 E Identification. Members of the order Platydesmida are morphologically variable, the head is only weakly elongated, lacking eyes. The tergites and pleurites are fused, but have dorsally a clearly evident suture (Blanke and Wesener 2014).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B39BAAD5FC2D9FE2A.taxon	description	New records. 1 F, BuB 112; 1 F, BuB 219; 1 F, BuB 913; 8 F, BuB 914; 1 F, BuB 919; 1?, BuB 1031 - B; 1?, BuB 1994; 1?, BuB 1996; 1 F, BuB 2964; 1?, BuB 2965; 1 F, BuB 2980; 1?, BuB 3017; 1?, BuB 3033; 1?, BuB 3044; 3?, Wu F 3167 / BU / CJW; 1?, Wu F 3172 / BU / CJW; 1?, Wu F 3201 / Bu / CJW; 1?, Wu F 3202 / Bu / CJW; 1?, Wu F 3107 / Bu / CJW; 1 F, Wu F 3390 / Bu / CJW; 1?, Wu F 3395 / Bu / CJW; 1?, Wu F 3400 / Bu / CJW; 1 F, Wu F 3401 / Bu / CJW; 1 F, RO my 153; 1 F, RO my 199. Identification. Members of the order Polyzoniida are flat, wide, with a width / length ratio of 1 / 10 to 1 / 3. The head is characteristically elongated into a well-rounded snout, with 2 + 2 to 4 + 4 ommatidia. The tergites lack a dorsal suture (Enghoff et al. 2015).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B39BAAB14C496FC7E.taxon	description	New records. 1 F, BuB 823; 1 M, BuB 977; 1?, BuB 982; 1 M, BuB 905; 1 F, BuB 1835; 1 F, BuB 1951; 1 M, BuB 1959; 1?; Bub 1966 b; 1?, BuB 1970; 1 F, BuB 1971; 1 F, BuB 1977; 1 F, BuB 1978; 1 F, BuB 1980, 1 M, BuB 1981; 1 M, BuB 1991; 1?, BuB 2605; 1?, BuB 2973; 1 F, BuB 3019; 1 M, BuB 3035; 1 M, BuB 3036; 1?, BuB 3037; 1?, BuB 343; 1 F, BuB 3045; 1 F, BuB 3054; 1?, BuB 3057. Figure 1 C Identification. Members of the order Siphonophorida can be easily identified based on the beak-like projection of the head, the absence of eyes, as well as the absence of a dorsal suture (Enghoff et al. 2015). The trunk is usually very slender with a length / width ratio of 1 / 10 or more.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B39BAA9F4C797FA4B.taxon	description	New records. 1 F, RO my 130; 1?, RO my 330; 1 F, BuB 1030; 1 F, BuB 2243; 1 F (broken), BuB 644; 1? (broken), BuB 73; 1?, BuB 828; 1 F, BuB 978; 1 F, BuB 981; 1?, BuB 984; 1?, BuB 986; 1 F, BuB 1143; 1 F, BuB 1159; 1 F, BuB 2963; 1 F, BuB 2973; 1?, BuB 2986; 1 M, BuB 2989; 1?, BuB 2997; 1 M, BuB 3006; 1 M, BuB 3007; 1?, BuB 3010; 1 M, BuB 3034; 1?, BuB 3047; 1 F, BuB 3052; 1 F, BuB 3239; 1?, BuB 3245; 2 F, BuB 3261; 1 F, BuB 3262; 1?, Wu F 3149 / Bu / CJW; 1?, Wu F 3393 / Bu / CJW. Identification. Members of the family Siphonophoridae can be easily identified based on the head characteristics (Enghoff et al. 2015): the antennae is straight, with large sensory pits on the antennomeres 5 and 6. The antennomere 2 is as long as the others.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B39BAAFB9C712F8E1.taxon	description	Identification. Members of the order Siphonorhinidae can be easily identified based on the head characteristics (Enghoff et al. 2015): the antennae is elbowed, the antennomere 2 is twice as long as antennomere 3, lacking any large sensory pits.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9B2E2B3A3FAB9AC5A8FADC.taxon	description	Figure 1 D Identification. Members of the Siphonotidae have the following characters (Enghoff et al. 2015): the posterior tergal margins is “ normal ”, not upturned. The telson is surrounding the anal valves in ventral view. The head is free, not covered by the first tergite. The leg claws carry a paronychium.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9C2E2C39BAAC63C728F891.taxon	description	New records. 1?, BuB 0974; 1?, BuB 1978; 1 M, BuB 2978. Identification. Chordeumatida can be identified based on the presence of 25 – 31 tergites with a dorsal suture, an anal segment carrying 4 spinnerets, and tergites with 3 + 3 characteristic macrosetae (Enghoff et al. 2015). The order has many recent families, which in most cases can only be identified based on a careful examinations of the male copulatory legs.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9C2E2C39BAADEEC2CDF8C7.taxon	description	1 F, BuB 3051; 1?, BuB 3056; 1 M, ZFMK MYR 05545; 1 M, ZFMK MYR 06123; 1 M, ZFMK MYR 06624; 1 M, ZFMK MYR 07367. Figure 2 A Identification. Species of the family Heterochordeumatidae are among the most unusual Chordeumatida, with wide paranota resembling some species of Platydesmida (which also share the dorsal suture) and Polydesmida. The collum partly conceals the head.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9C2E2D3A3FAD3DC726FE78.taxon	description	New records. 1 M, BuB 994; 1 F, BuB 1961; 1?, BuB 1968; 1?, BuB 2998; 1?, BuB 3009; 1 F, BuB 3038; 1?, BuB 3241; 1 M, ZFMK MYR 07378. Figure 2 B Identification. Members of the Stemmiulida have a very characteristic appearance. The body is cylindrical, carrying spinnerets at the telson. The head has laterally 1 – 3 large ommatidia. The order has only 1 recent family (Enghoff et al. 2015), but we hesitate to place these fossils in the recent family without a more detailed morphological investigation.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9D2E2D39BAABF6C718FC17.taxon	description	New record. 1 F, ZFMK MYR 07366. Figure 2 C Identification. Members of the order Callipodida have a characteristic habitus, the head has numerous omma- tidia, the segments are cylindrical, with free sternites, lacking a dorsal suture. The telson is carrying spinnerets. The surface is often with characteristic crests (like in numerous Spirostreptida and Cambalidea, which, however, lack free sternites and spinnerets). The telson has divided anal valves (paraprocts), a unique character (Enghoff et al. 2015). The female vulva often extended into an elongated ovipositor, which is sometimes heavily modified resembling a clasping organ in recent species. The extended ovipositor is clearly visible in our single female specimen.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9D2E2D39BAAD68C468F7D6.taxon	description	Identification. This 1 specimen among the numerous samples of Spirostreptida differs from the others in the absence of frontal setae on the head, in being more similar to recent Cambalidea. The specimen has the gonopods visible, showing anterior gonopods with a flagella and allowing us to place this specimen in a recent family, the Cambalidae (Enghoff et al. 2015).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9D2E2D39BAAE5FC49EF91A.taxon	description	New records. 1?, BuB 1115; 1?, BuB 1144; 1 F, BuB 1165; 1?, BuB 1824; 1 F, BuB 1825; 1 F, BuB 1826; 1 F, BuB 1990; 1 F, BuB 1955; 1 M, BuB 1962; 1?, BuB 2981; 1?, BuB 3005; 1?. BuB 3012; 1?, BuB 3250; 1 M, BuB 3255; 1 M, ZFMK MYR 06121; 1 M, ZFMK MYR 07368; 1 M, ZFMK MYR 07369; 2 F, ZFMK MYR 07370. Figure 2 D Identification. The tergites, pleurites and sternites are completely fused into body rings. The head is lacking a median suture. The anterior legs have a characteristic gap between leg 3 and 4, as legs 4 and 5 are on the posterior end of body ring 5. The specimens listed here are a bit unusual as they have frontal setae on their head, a character absent in all recent Spirostreptida. The presence of 2 pairs of gonopods in the males identify those specimens as members of the suborder Cambalidea, as species belonging to the other suborder, Spirostreptidea, only have one pair of gonopods (Enghoff et al. 2015).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9D2E2D3A3FAAC9C315FD18.taxon	description	New records. 1 F, BuB 830; 1 M (head missing), BuB 916; 1 M, BuB 1795; 1 F, BuB 1840; 1?, BuB 2616; 1?, BuB 3020; 1 M, BuB 3000; 1 F, BuB 3260; 1 M, ZFMK MYR 7373. Figure 2 E Identification. The tergites, pleurites and sternites are completely fused into body rings. The head has a median suture, a character allowing for these specimens to be distinguished from the 2 other recent orders with complete body rings: Julida and Spirostreptida. A detailed analysis of the male gonopods (Enghoff et al. 2015) is necessary to determine those specimens even to suborder level (e. g. the absence or presence of a tiny sternite connecting the posterior telopods, which are hidden within the anterior telopods), which is beyond the scope of this checklist.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9D2E2E3A3FA897C471FDF4.taxon	description	New records. 1?, BuB 600; 1?, BuB 672; 1?, BuB 818; 6?, BuB 902; 2?, BuB 909; 1 M, BuB 911; 4?, BuB 912; 1?, BuB 915; 1?, BuB 966; 1 M, BuB 975; 1 M, BuB 976; 1 M, BuB 980; 1 F, BuB 983; 1 M, BuB 993; 1?, BuB 995; 1 M, BuB 1029; 1 M, BuB 1031 - A; 1 M, BuB 1035; 1 F, BuB 1084; 1 F, BuB 1085; 1 M, BuB 1146; 1 F, BuB 1148; 1 M, BuB 1149; 2 M, 5 F, BuB 1154; 1 F, BuB 1155; 1 F, BuB 1156; 1?, BuB 1414; 1 F, BuB 1548; 1 F, BuB 1794; 2 F, BuB 1830; 1 F, BuB 1832; 1 F, BuB 1836; 1 M, BuB 1844; 1 M, BuB 1847; 1 M, BuB 1848; 1 M, BuB 1849; 3?, BuB 1850; 1 M, BuB 1852; 1?, BuB 1954 A; 3 F, BuB 1957; 1?, BuB 1958; 2 F, BuB 1964; 1?, BuB 1967; 1 M, BuB 1975; 1 F, BuB 1985; 1?, BuB 1986; 1 F, BuB 1987; 1?, BuB 1989 B; 1?, BuB 1992; 1?, BuB 1993; 1?, BuB 2436; 1?, Bub 2437; 1?, BuB 2613; 1?, BuB 2622; 1?, BuB 2624; 1?, BuB 2631; 2 F, BuB 2632; 1?, BuB 2639; 1?, BuB 2640; 1?, BuB 2645; 1?, BuB 2646; 1 F, BuB 2647; 1 F, BuB 2648; 1?, BuB 2653; 1 F, BuB 2672; 1 F, BuB 2683; 1?, BuB 2684; 1?, BuB 2686; 1 F, BuB 2687; 1 F, BuB 2688; 1?, BuB 2960; 1?, BuB 2967; 1?, BuB 2968; 1 F, BuB 2969; 1?, BuB 2970; 2?, BuB 2972; 1 M, BuB 2976; 1 F, BuB 2982; 2 F, BuB 2983; 1?, BuB 2987; 1 F, BuB 2988; 1 M, BuB 2992; 1 M, BuB 2994; 1?, BuB 2999; 1 F, BuB 3001; 1 F, BuB 3002; 1 M, BuB 3003; 1 F, BuB 3004; 1 M, BuB 3008; 1?, BuB 3011; 1?, BuB 3021; 1?, BuB 3023; 1 F, BuB 3025; 1? BuB 3029; 1?, BuB 3032; 1 M, BuB 3034; 1 M, BuB 3039; 1 F, BuB 3040; 1?, BuB 3028; 1 M, BuB 3049; 1 M, BuB 3055; 1 M, BuB 3238; 1 F, BuB 3246; 1 F, BuB 3251; 1 F, BuB 3252; 1 F, BuB 3253; 1 F, BuB 3254; 1 M, BuB 3256; 1?, BuB 3265; 2 F, BuB 3267; 1?, BuB 3269; 1? (posterior half), BuB 3270; 1?, BuB 3274; 2?; BuB 3275; 1?, BuB 3276; 1 F, BuB 3277; 1?, BuB 3278; 1?, BuB 3279; 1?, BuB 3285; 1 F, BuB 3286; 1 M, BuB 3293; 1 M, ZFMK MYR 06118; 1 F, ZFMK MYR 06120; 1 F, ZFMK MYR 07374; 1 M, 1?, ZFMK MYR 07377; 1?, ZFMK MYR 07375; 1 M, ZFMK MYR 07379; 1 F, Wu F 2817 / Bu / CJW; 1?, Wu F 3385 / Bu / CJW; 1?, Wu F 3396 / Bu / CJW; 1?, Wu F 3397 / Bu / CJW; 1 F, RO my 249; 1 F, RO my 301; 1 F, RO my 304. Figure 2 F Identification. These millipedes are flat-backed; the tergites, pleurites and sternites are completely fused into body rings, triangular shaped with extended side wings (paranota). The head is lacking eyes, the tergites are lacking a dorsal suture. The body consists of 18 or 19 rings, the telson carries more or less evident spinnerets (Enghoff et al. 2015). Suborders and families are only determinable after a careful analysis of the male gonopods, which is beyond the scope of this study.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E39BAAD7EC720F7D6.taxon	description	New records. 1?, BuB 1997; 1?, BuB 2660; 1?, BuB 3063; 1?, BuB 3065; 1?, BuB 3287; 1?, BuB 3288; 1?, BuB 3290; 1?, Wu F 3402 / Bu / CJW; 1?, RO my 35. Identification. Legs 30 to more than 100. The stigma openings are pleural, the animals are blind (Bonato and Zapparoli 2011).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E3A3FAD32C358F7D6.taxon	description	“ Glomeridella sp. ” (Zhang 2017: 150 – 151) = Polyzoniida sp. The figured specimen is clearly not a member of Glomeridella, a European genus of dwarf pill millipedes (Enghoff et al. 2015, Oeyen and Wesener 2018).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E39BAA9BDC79EFB58.taxon	description	New records. 1?, RO my 340; 1?, BuB 3289. Identification. With 15 legs The stigma openings are located laterally, and the eyes consist of few ommatidia (Bonato and Zapparoli 2011).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E3A3EAF68C3F1F8BC.taxon	description	“ Unixenus sp. “ (Zhang 2017: 144) = Polyxenidae sp. The figure shows a polyxenid. Diagnostic characters of the genus Unixenus are not visible. “ Propolyxenus sp. “ (Zhang 2017: 144) = Polyxenidae sp. The figure shows a polyxenid. Diagnostic characters of the genus Propolyxenus are not visible. “ Polyxenus sp. “ (Zhang 2017: 145) = Polyxenidae sp. The figure shows a polyxenid. Diagnostic characters of the genus Polyxenus are not visible. In fact, the single tuft of caudal setae is more of an indication of Unixenus.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E3A3FA877C3F9FD40.taxon	description	Identification. The antennae are consisting of more than 20 articles, the scuta of the tergites are well-rounded, the leg bases carry styli (see Moritz and Wesener 2018).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9E2E2E39BAA8DEC696FC46.taxon	description	New records. 1?, BuB 63; 1?, BuB 120; 1?, BuB 625; 1? RO my 111; 1?, RO my 168. Identification. With 15 legs, all of them long. The stigma openings are located dorsally, and the large eyes consist of numerous ommatidia (Bonato and Zapparoli 2011).	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9F2E2F3A3FAAC9C2D7FD5D.taxon	description	“ Tingupa sp. 2 ” (Zhang 2017: 177) = undetermined, possibly Polydesmida or Platydesmida.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9F2E2F39BAA858C40FFBC2.taxon	description	“ Brachycybe sp. 1 ” = Siphonophorida. The head morphology and the absence of a dorsal suture clearly identify the pictured specimen as a member of the Siphonophorida and not a Platydesmida (Blanke and Wesener 2014, Enghoff et al. 2015). “ Brachycybe sp. 2 ” = undetermined. This specimen lacks a distinct dorsal suture, and can therefore not be a Platydesmida (Blanke and Wesener 2014, Enghoff et al. 2015). The head is missing, which makes a clear identification impossible, but this specimen otherwise shows characters observed in species of the Siphonophorida.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
03888796FF9F2E2F3A3FA9AFC309F9C3.taxon	description	“ Scytonotus sp. ” (Zhang 2017: 180) = Polydesmida. Scytonotus is a genus of Polydesmida currently endemic to North America. Species can only be assigned to this genus based on gonopod characteristics. Families and subfamilies of Cretaceous Polydesmida can only be determined after a careful observation of the male gonopods. Unfortunately, the gonopods are not visible in the specimen, and therefore, it might be any Polydesmida.	en	Wesener, Thomas, Moritz, Leif (2018): Checklist of the Myriapoda in Cretaceous Burmese amber and a correction of the Myriapoda identified by Zhang (2017). Check List 14 (6): 1131-1140, DOI: 10.15560/14.6.1131, URL: http://dx.doi.org/10.15560/14.6.1131
