New Fossil Tingidae (Hemiptera: Heteroptera) from the Mid-Cretaceous of Myanmar, with Remarks on the Phylogenetic Relationships within the Family

Simple Summary The members of the Tingidae family are generally known as “lace bugs” because of the lacelike network of areoles adorning the pronotum and hemelytra. The family is distributed worldwide and the earliest fossils of lace bugs are from the Early Cretaceous period. A total of 16 species in eight tingids genera have been described from the mid-Cretaceous Burmese (Kachin) amber of northern Myanmar. But the placement of six Cretaceous genera is still uncertain. In this paper, we describe a new genus and species Latidorsum carinbifarium Wang, Tang & Yao gen. et sp. nov., and present remarks on the phylogenetic relationships of Tingidae based on morphological features from extinct and extant genera clarifying the phylogenetic status of six species. Abstract A new genus and species, Latidorsum carinbifarium Wang, Tang & Yao gen. et sp. nov., is assigned to Phatnomatini (Tinginae), which is described from the mid-Cretaceous Burmese amber. A parsimonious analysis based on 50 morphological characters with 26 terminals clarifies the phylogenetic status of the new fossils and examined relationships among the presently analysed genera of the family Tingidae. The resulting cladogram supporting Tingidae are reconfirmed as monophyletic and divided into four main clades, with relationships as follows: (Vianaidinae + ((Burmacader multivenosus + Burmavianaida anomalocapitata) + (Sinaldocader rasnitsyni + (Gyaclavator kohlsi + Tinginae + Cantacaderinae)))). Anterior length of bucculae distinctly projecting in front of head, sometimes in contact is not a synapomorphic character for Cantacaderinae, which evolves in parallel in Tinginae and Cantacaderinae.

The present paper describes a new Phatnomatini (Tinginae) genus and species, Latidorsum carinbifarium Wang, Tang & Yao gen. et sp. nov., from the mid-Cretaceous of Myanmar and present remarks on the phylogenetic relationships of Tingidae based on morphological features from extinct and extant genera. Many well-preserved amber specimens have been collected from the Hukawng Valley, Kachin State, in northern Myanmar, approximately 100 km southwest of the Village of Tanai [25,26]. The strata contain various arthropods, eight classes, 66 orders, 568 families, 1174 genera, 1738 species [24]. Although the geological age of Burmese amber previously has been controversial [27], a recent U-Pb dating of zircons have been established at 98.79 ± 0.62 Ma, equivalent to the earliest Cenomanian [28][29][30].

Materials and Terminology
Analyses were based on the examination of new amber materials stored in the Key Lab of Insect Evolution and Environmental Changes, College of Life Sciences, Capital Normal University, Beijing, China (CNU, Curator: Yunzhi Yao), and collected from Kachin (Hukawng Valley) of Northern Myanmar. The morphological study was performed by examining and photographing specimens under a Nikon SMZ25 microscope with an attached Nikon DS-Ri2 digital camera system. Morphological terminology mainly followed Drake & Ruhoff (1965) [3]. All measurements are in millimeters (mm).

Taxon Sampling and Character Choice
In accordance with the previously published phylogeny of Tingidae [4,5,7], we choose one species of Thaumastocoridae (Xylastodoris luteolus Barber, 1920) and two species of Miridae (Onymocoris izzardi Drake & Slater, 1957, Myiomma kukai Yasunaga & Hayashi, 2002) as our outgroup taxa. The 23 ingroups comprise 14 extant taxa and nine fossil taxa. All terminal taxa are species. For the extant species, the widespread and type-species of each genus were selected. We used the same set of characters coded by Wappler et al. (2015) [7], 50 characters were coded as unordered and with equal weight. The data matrix used in this phylogenetic analysis is presented in Table S1. Missing data were assigned as '?' and inapplicable data as '-'.

Phylogenetic Analysis
The data matrix was constructed using Nexus Data Editor v0.5.0 [31] in File S1. Phylogenetic analysis was performed using maximum parsimony analysis in WINCLADA v1.00.08 [32] with NONA script [32,33]. The analysis was performed setting to keep 10,000 maximum trees, 1000 replications and 100 starting trees per replication, using WINCLADA software. A repeated analysis for verification was run in TNT v1.5 [34] in Figure S1 used 'Traditional Search', the minimum length was set to be found 100 times and Bremer support was calculated through the script 'bremer.run' of the program.  (Figure 1).

Systematic Paleontology
Etymology. Named after its broad pronotum from the Latin word 'latum' (meaning wide) and dorsum. Gender feminine.
Diagnosis. Macropterous, body moderately oblong-oval. Head projecting anteriorly, with four spines, one pair of jugal, and one pair of clypeal spines (Figure 2A). Bucculae extended half-length of the head, converging and almost touching by their apices ( Figure 2B). Antenna four-segmented, segment III longest, almost six times the length of segments I and II. Paranota broad, median carina elevated with one or two rows of areolae. Hemelytra stenocostal area absent, membrane without veins. wide) and dorsum. Gender feminine.
Diagnosis. Macropterous, body moderately oblong-oval. Head projecting anteriorly, with four spines, one pair of jugal, and one pair of clypeal spines (Figure 2A). Bucculae extended half-length of the head, converging and almost touching by their apices ( Figure  2B). Antenna four-segmented, segment III longest, almost six times the length of segments I and II. Paranota broad, median carina elevated with one or two rows of areolae. Hemelytra stenocostal area absent, membrane without veins.
Remark. The habitus of our fossil is rather close to that of the genus Tingiphatnoma Guilbert & Heiss, 2019. Both genera have one pair of clypeal spines; antennae segment III longest; pronotum without a median triangular projection; median carina foliate and elevated; scutellum distinct; stenocostal area absent; membrane without veins. But our fossil differs from the latter because it has a long head surpassing the apex of the antennal segment I (a short head not surpassing antennal segment I in Tingiphatnoma); bucculae extended half-length of the head (the bucculae not extending in front of clypeus in Tingiphatnoma); paranota broad, with five or six rows of wide areolae and bilobate (vs. paranota extending in front into a spiny process and three areolae wide in Tingiphatnoma).  Remark. The habitus of our fossil is rather close to that of the genus Tingiphatnoma Guilbert & Heiss, 2019. Both genera have one pair of clypeal spines; antennae segment III longest; pronotum without a median triangular projection; median carina foliate and elevated; scutellum distinct; stenocostal area absent; membrane without veins. But our fossil differs from the latter because it has a long head surpassing the apex of the antennal segment I (a short head not surpassing antennal segment I in Tingiphatnoma); bucculae extended half-length of the head (the bucculae not extending in front of clypeus in Tingiphatnoma); paranota broad, with five or six rows of wide areolae and bilobate (vs. paranota extending in front into a spiny process and three areolae wide in Tingiphatnoma).
Locality and horizon. Lowermost Cenomanian, amber deposits from the Kachin State, Northern Myanmar.
Diagnosis. Head longer than wide, with long and curved spines in clypeal and in front of the antennal segment I. Rostrum long, four-segmented, reaching posterior Insects 2021, 12, 887 4 of 9 margin of metasternum. Antennal segments III and IV with sparse pilosity and segment III thinner than first two segments, segment IV elongate spindle-shaped. Paranota with large areolae and bilobate, median carina extending from anterior margin of the collar to posterior margin of pronotum ( Figure 2C). Scutellum exposed, small, triangular. Hemelytra distinctly subdivides by veins into costal, subcostal, discoidal, and sutural areas, cells of costal area larger than subcostal area, subcostal and discoidal areas subdivided by six and one transverse veinlets respectively. Latidorsum carinbifarium sp. nov. (Figure 1). Holotype. CNU-HET-MA2014010. Adult female, well preserved. Etymology. This species name is a combination of the Latin word 'carin-' (meaning carina) and 'bifarius' (meaning two rows), referring the median carina with two rows of areolae. The gender is feminine.
Locality and horizon. Lowermost Cenomanian, amber deposits from the Kachin State, Northern Myanmar.
Diagnosis. Head longer than wide, with long and curved spines in clypeal and in of jugal and a pair of clypeal spines. Bucculae produced in front of clypeus, extending half-length of the head, consisting of two rows of areolate, converging and almost touching by their apices. The eyes are convex, quite well projecting laterad. Antennae slender, about 2.95 times as long as width of head, antennae four-segmented, segments I and II shortest and thickest, first segment approximately the same length as second, segment III longest almost six times the length of segments I and II, and segment IV elongate spindleshaped with sparse pilosity. Rostrum long, four-segmented, reaching posterior margin of metasternum.
Pronotum 2.24 times as wide as long with the areolate surface, the areolae smaller than those of paranota, pronotum with deeply sinuate lateral margins, posterior margin feebly convex without a median triangular projection. Collar areolae bigger than pronotum and inflated forming an inverted trapezoidal hood, partly covering the head, with a median foliate and raised carina with one or two rows of large subquadrate and rounded areolae extending from anterior margin of the collar to posterior margin of pronotum. Paranota broad, with five or six rows of wide areolae and bilobate, lateral margin slightly sinuate at middle and anterior, posterior margin slightly tilted upwards. Metathoracic scent gland orifice not visible. Rostral sulcus distinctly wide, not interrupted by two transverse carinae between meso-and metathorax. Mesosternal carinae slightly sinuate in the middle part, metasternal carinae very slightly elevated, forming very low oval cells and posteriorly a rounded transverse rib closing rostral sulcus. Scutellum exposed, small, triangular.
Hemelytra completely developed, extending far beyond abdomen beneath, hyaline, sharply widened at base, covered by areolae. Clavus wide, with four areolae at the widest part, apex reaching about half of the length of hemelytra, separated from mesocorium by a clear commissure. Costal area wide, with six rows of areolae at the widest part, the number of rows quickly diminishing backward up to five, preserved along most of costal area and near hemelytron apex number of rows of cells diminishing to three and in the very tip to one. Cells of costal area more or less tetragonal, pentagonal, and irregular angled and rounded form, larger than subcostal area. Subcostal area narrower than costal area, separated by six distinct transverse veinlets and located not fixed position in both hemelytra. Discoidal area slightly broader than subcostal area, hemelytron with one elevated transverse veins. R + M delimiting subcostal and discoidal areas slightly elevated and thick, fused with CuA at two thirds of the forewing. Sutural area narrow, one row of areolae wide. Stenocostal area absent. Membrane (zone of hemelytral overlap) not areolate; hind wings membranous.
Venter. Abdominal segments II and III fused; abdominal sternum VII with posterior medial projection ( Figure 2D).
Legs. Long and slender, femora not incrassate, tibiae thin and cylindrical with sparse pilosity, tarsi two-segmented with curved claws, segment I shorter than II. Dimensions

Phylogenetic Analysis
The maximum parsimony analysis provides two equally parsimonious trees of 105 steps with a CI = 60 and a RI = 81. The strict consensus tree has 106 steps (CI = 59, RI = 80) and is shown in Figure 3, with unambiguous characters mapped. Bremer Supports are shown in Figure 3. The results of our phylogenetic analysis are as follows: Tingidae were reconfirmed as monophyletic based on five synapomorphies: ocelli absent (character 1:state 1), labial groove on thoracic sternum present (10:1), ostiole of metathoracic glands anterior on metepisternum (33:1), parempodia absent (39:2), female abdominal sternum VII with posterior medial projection (45:1). Tingidae were subdivided into four clades, Vianaidinae are considered to be the most plesiomorphic clade among extant and extinct lace bugs, and placed as sister to the remaining Tingidae, as proposed by Schuh et al. (2006) [5]. steps with a CI = 60 and a RI = 81. The strict consensus tree has 106 steps (CI = 59, RI = 80) and is shown in Figure 3, with unambiguous characters mapped. Bremer Supports are shown in Figure 3. The results of our phylogenetic analysis are as follows: Tingidae were reconfirmed as monophyletic based on five synapomorphies: ocelli absent (character 1:state 1), labial groove on thoracic sternum present (10:1), ostiole of metathoracic glands anterior on metepisternum (33:1), parempodia absent (39:2), female abdominal sternum VII with posterior medial projection (45:1). Tingidae were subdivided into four clades, Vianaidinae are considered to be the most plesiomorphic clade among extant and extinct lace bugs, and placed as sister to the remaining Tingidae, as proposed by Schuh et al. (2006) [5].
The Tinginae is also monophyletic and supported in this analysis by four apomorphic characters: hemelytra with larger areolae (29:2), abdomen (lateral sclerites) with a double set of lateral sclerites (43:1), pseudospermatheca present (47:1), vagina (genital chamber) small (49:0). The tribe Phatnomatini are as sister group to the Tingini, which are also monophyletic based on one synapomorphy: clypeal spine present (4:1). The tribe Tingini is also characterized by a single synapomorphy: clavus weakly developed and depressed below level of mesocorium (28:1). Latidorsum carinbifarium Wang, Tang & Yao gen. et sp. nov. has two synapomorphies: hemelytra with larger areolae (29:2), clypeal spine present (4:1), and an autapomorphic character: paranotum bilobed (17:1). Hence, we believe that Latidorsum carinbifarium should place in the Tinginae tribe Phatnomatini and be recognized as a new genus. The result also supported that Tingiphatnoma bispinosa Guilbert & Heiss, 2019, Spinitings ellenbergeri Heiss & Guilbert, 2013, Paraphatnomacader huarongcheni, Cucullitings biacantha are included in the Tinginae supported by one synapomorphic character and in tribe Phatnomatini by one synapomorphy as for Latidorsum carinbifarium, but the relationships among 6 genera need further study. The present analysis does not offer a well-supported phylogenetic classification within the Phatnomatini, because characters dealing with the shape of the scent gland peritreme, ventral and genital morphology are not visible and limit on the fossil species, and the fossil taxa are not representative in Phatnomatini. So, future studies would be to improve Phatnomatini phylogeny with a bigger taxa sample and more scent gland peritreme, ventral and genital morphology characters using modern documentation technics, such as micro-CT and electron microscope. In addition, the oldest fossil record of Tingidae was Archetingis ladinica Montagna, Strada & Tintori, 2018 from the Middle Triassic of the Swiss side of Monte San Giorgio [36], but the identification of this poorly preserved specimen is doubtful [2] and in our view an areolate margin of the hemelytron more likely belongs to connexivum of abdomen based on the photograph and some reported features (i.e., antennae and eyes) in the line drawing not preserved in the fossil, so we treat Archetingis ladinica as of this doubtful placement.