﻿New stenurothripid thrips from mid-Cretaceous Kachin amber (Thysanoptera, Stenurothripidae)

Dawei Guo; Michael S Engel; Chungkun Shih; Dong Ren

doi:10.3897/zookeys.1192.117754

. 2024 Feb 21;1192:197–212. doi: 10.3897/zookeys.1192.117754

New stenurothripid thrips from mid-Cretaceous Kachin amber (Thysanoptera, Stenurothripidae)

Dawei Guo ¹, Michael S Engel ^2,³, Chungkun Shih ^1,⁴, Dong Ren ^1,^✉

PMCID: PMC10902785 PMID: 38425444

Abstract

Hitherto, only two species of the thysanopteran suborder Terebrantia have been reported from mid-Cretaceous Kachin amber (Myanmar). This is here expanded through the discovery of two new genera and species, described and figured as Parallelothripsseparatusgen. et sp. nov. and Didymothripsabdominalisgen. et sp. nov., both of the family Stenurothripidae. Both taxa have key apomorphies of the Stenurothripidae, allowing for a confident assignment as to family. Both species have characteristic comb-like anteromarginal setae, which are discussed along with structural differences between the two sexes. Cycad pollen was found on the thrips’ bodies, providing further evidence that Thysanoptera were pollinators of gymnosperms during the mid-Cretaceous.

Key words: Cenomanian, new genus, new species, pollinating insects, taxonomy, Thysanoptera

Introduction

Thrips, order Thysanoptera, comprise a group of small paraneopteran insects with piercing asymmetrical mouthparts, often a characteristic pretarsal bladder, and bearing simplified, linear wings with reduced or absent venation and fringe cilia on the margins. The right mandible of thrips was lost in their evolution, with the left mandible forming a unique asymmetrical feeding tube with the maxillary stylets. The order comprises more than 6600 species, classified into 14 families and 857 genera, with 187 species and 70 genera known only from the fossil record (ThripsWiki 2023).

Thysanoptera is divided into two extant suborders: the reciprocally monophyletic Terebrantia Haliday, 1836 and Tubulifera Haliday, 1836 (Grimaldi and Engel 2005; Buckman et al. 2013; Johnson et al. 2018). These clades are principally distinguished by the form of the tenth abdominal segment, but also by their wing structure (Ulitzka 2022), behavior and development. Tubulifera, as their name suggests, have an elongate, tubular tenth segment and lay eggs on the plant’s surface, while Terebrantia have a sawlike ovipositor and lay eggs within plant tissue. In addition, Tubulifera have three “pupal” stages, while Terebrantia have two.

Some thrips are important pollinators, and occupied such a role even prior to the rise of angiosperms (Willmer 2011). The earliest record of thrips pollination is from Albian amber, approximately 110–105 million years ago (Peñalver et al. 2012). Thrips feed on pollen or other plant tissues and lay eggs within or on the same plants, and their larvae also feed on the flowers (Bailey 1949); in many species adults transport pollen between plants, thereby completing the plants’ reproduction. Today thrips pollination can lead to higher fruiting success in many plants (Garcia-Fayos and Goldarazena 2008; Eliyahu et al. 2015), and instances of thrips-host plant coevolution have been documented (Brookes et al. 2015). Notable examples of thrips pollination include cycads that attract small pollinators such as thrips and weevils, which can enter their ovulate cones while larger insects are excluded (Terry 2001). Indeed, some flowers emit different odors or regulate their temperature to either attract thrips or encourage them to depart from the plant (Terry et al. 2007).

Up to now, species of Thysanoptera recorded from the Cretaceous include the families of Aeolothripidae, Melanthripidae, Merothripidae, Rohrthripidae, Stenurothripidae and Thripidae, and nearly all of these are based on specimens included in amber and more than half of those from the mid-Cretaceous of Kachin, Myanmar (Table 1). Among fossil insect species reported from Kachin amber, the orders Coleoptera (532 species), Hymenoptera (344 species), Diptera (253 species), and Hemiptera (224 species) account for the greatest numbers (Ross 2023), while only 19 species in seven genera from three families have been reported for Thysanoptera (Ulitzka 2018, 2019, 2022; Tong et al. 2019).

Table 1.

Checklist of thrips reported from Cretaceous amber, with locality and reference indicated.

Suborder	Family	Genus species	Locality	Reference
Tubulifera	†Rohrthripidae	†Rohrthripsburmiticus	Kachin amber	Ulitzka 2018
		†Rohrthripslibanicus	Lebanese amber	Nel et al. 2010
		†Rohrthripsbreviceps	Kachin amber	Ulitzka 2019
		†Rohrthripsjiewenae	Kachin amber	Ulitzka 2019
		†Rohrthripsmaryae	Kachin amber	Ulitzka 2019
		†Rohrthripsschizovenatus	Kachin amber	Ulitzka 2019
		†Rohrthripspatrickmuelleri	Kachin amber	Ulitzka 2019
		†Rohrthripsbrachyvenis	Kachin amber	Ulitzka 2022
		†Rohrthripsmultihamuli	Kachin amber	Ulitzka 2022
		†Rohrthripspandemicus	Kachin amber	Ulitzka 2022
		†Rohrthripsrhamphorhynchus	Kachin amber	Ulitzka 2022
		†Rohrthripssetiger	Kachin amber	Ulitzka 2022
		†Sesquithripsmarkpankowskii	Kachin amber	Ulitzka 2022
		†Sesquithripsrostratus	Kachin amber	Ulitzka 2022
		†Adstrictubothripsmirapterus	Kachin amber	Ulitzka 2022
		†Gemineurothripsmicrocephalus	Kachin amber	Ulitzka 2022
		†Gemineurothripspeculiaris	Kachin amber	Ulitzka 2022
		†Paralleloalathripsbivenatus	Kachin amber	Ulitzka 2022
Terebrantia	Aeolothripidae	†Cretothripsantiquus	New Jersey amber	Grimaldi et al. 2004
	Melanthripidae	†Gymnopollisthripsmaior	Spanish amber	Peñalver et al. 2012
	Melanthripidae	†Gymnopollisthripsminor	Spanish amber	Peñalver et al. 2012
	Merothripidae	†Jezzinothripscretacicus	Lebanese amber	zur Strassen 1973
	Merothripidae	†Myanmarothripspankowskiorum	Kachin amber	Ulitzka 2018
	Thripidae	†Tethysthripshispanicus	Spanish amber	Nel et al. 2010
	Thripidae	†Tethysthripslibanicus	Lebanese amber	Nel et al. 2010
	Stenurothripidae	†Cenomanithripsprimus	Kachin amber	Tong et al. 2019
		†Exitelothripsmesozoicus	Lebanese amber	zur Strassen 1973
		†Neocomothripshennigianus	Lebanese amber	zur Strassen 1973
		†Progonothripshorridus	Lebanese amber	zur Strassen 1973
		†Rhetinothripselegans	Lebanese amber	zur Strassen 1973
		†Scaphothripsantennatus	Lebanese amber	zur Strassen 1973
		†Scudderothripssucinus	Lebanese amber	zur Strassen 1973
		†Hispanothripsutrillensis	Spanish amber	Peñalver and Nel 2010

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Stenurothripidae Bagnall, 1923 are a rather small family of Terebrantia, which includes six extant species and 19 extinct species, among which about half of the species were found in Baltic amber (ThripsWiki 2023). The most significant feature of this family is the antenna with nine antennomeres and a broad-based conical sensorium on antennomeres III and IV (Peñalver and Nel 2010; Nel et al. 2012). Extant genera of this family were once placed in Adiheterothripidae (Bhatti 2006), but the family was subsequently resurrected and removed from synonymy (Peñalver and Nel 2010).

Herein we document two new genera and species of Stenurothripidae, Parallelothripsseparatus and Didymothripsabdominalis, from mid-Cretaceous Kachin amber, enriching the number of species of Thysanoptera from the fossil record. We also discuss their potential interactions with cycads, enlarging the available evidence of gymnosperm pollination by Thysanoptera during the Cretaceous.

Materials and methods

The amber fossils studied here were collected from the state of Kachin (Hukawng Valley) of northern Myanmar, located at 26°21'33.41"N, 96°43'11.88"E (Guo et al. 2017). Previous studies have recovered an earliest Cenomanian age for the deposit, approximately 98.79±0.62 Ma (Shi et al. 2012). The amber specimens mentioned in this study were acquired by Mr. Fangyuan Xia before 2015 and donated to us in 2016; both are deposited in the Key Lab of Insect Evolution and Environmental Changes, College of Life Sciences, Capital Normal University, Beijing, China (CNUB, Curator: Dong Ren). The amber specimen is labeled with year of acquisition (e.g., 2016) and specimen accession number (e.g., 116) following the prefix “CNU-THY-MA”.

So as to obtain a better view of specimens, the amber pieces were prepared through a series of steps: initially cut using a razor blade, followed by grinding with Emery papers of different grain sizes, and finally polished with polishing powder. For the current pieces, we produced thin slices, with a thickness of no more than 2 mm.

Specimens were examined and photographed using a Nikon SMZ25 microscope with a Nikon DS-Ri2 digital camera system, illuminated by two or more white-light-LED incident illuminators. White papers were employed as diffusers to prevent reflections on the amber’s surface, and papers with different colors were put under each piece along with transmitting light to create a stronger contrast with the inclusions (as described by Ulitzka 2015). Source images were stacked in Helicon Focus 8 software. Line drawings were prepared with Adobe Illustrator CC 2022 and Adobe Photoshop CC 2020 software.

Systematic paleontology

Family Stenurothripidae Bagnall, 1923

. Parallelothrips

Guo, Engel, Shih & Ren gen. nov.

0C5A9F67-5F9D-5F4B-9293-5405383FE3AD

https://zoobank.org/889D330E-E93A-4171-A53A-0A3A3F45B90C

Type species.

Parallelothripsseparatus Guo, Engel, Shih & Ren, sp. nov.

Etymology.

The new generic name is a combination of the Ancient Greek adjective πᾰρᾰ́λληλος (parállēlos, meaning, “parallel”) and the Ancient Greek noun θρίψ (thrips, meaning, “woodworm”). The name refers to the two parallel rows of marginal setae on the pronotum. The gender of the name is masculine.

Diagnosis.

Antenna (Fig. 1) with nine antennomeres, antennomeres III and IV asymmetrical inverse cone-shaped, stouter than distal antennomeres, each with a broad-based conical sensorium. Head (Fig. 1C) dorsally with transverse striations basally, cheek rounded behind compound eye. Compound eye prolonged ventrally. Pronotum wider than head, with striate sculpture basally, studded with regular rows of setae on both anterior and posterior margins, posteroangular setae long and stout. Mesonotum (Fig. 1C) not adjoined to pronotum, with distinct separation between segments. Fore wing (Fig. 2A) narrow, with two longitudinal veins and two crossveins visible, wing surface covered with microtrichia (Fig. 2B), fringe cilia of posterior margin longer than those of anterior margin and slightly undulate, wavy duplicated cilia present around wing tip. Hind wing (Fig. 2C) nearly transparent, surface covered with microtrichia, with one distinct longitudinal vein. Abdomen 10-segmented, about as wide as thorax at widest point, with some strong setae near apex; female segments VIII–X coniform, male (Fig. 3D) segment X rounded.

Figure 1. — *Parallelothripsseparatus* gen. et sp. nov.; holotype male (CNU-THY-MA2016116) A dorsal view B ventral view C head and pronotum, dorsal view D left antenna, conical sensorium present on antennomeres III–IV.

Figure 2. — *Parallelothripsseparatus* gen. et sp. nov.; holotype male (CNU-THY-MA2016116) A right fore wing, dorsal view, the foremost fringe cilium lacks a corresponding anteromarginal setae (indicated by black arrows) B microtrichia of anterior wing margin C surface of hind wing, covered with microtrichia D ventral view of left antenna E antennomere V, showing rounded annulation sculpture and microtrichia F dorsal view of hind leg (from metafemur onward).

Figure 3. — *Parallelothripsseparatus* gen. et sp. nov. A female (CNU-THY-MA2016117), dorsal view B fore leg of male (CNU-YHY-MA2016116), vesicle cone-shaped at the tip C mouth cone (CNU-THY-MA2016116), mp indicated: maxillary palpus, lp indicated: labial palpus D distal abdominal segments of male (CNU-THY-MA2016116), spine on segment IX (indicated by a white arrow).

. Parallelothrips separatus

Guo, Engel, Shih & Ren sp. nov.

9ED5768B-CE2B-5F20-9D0C-0EFA25C94D15

https://zoobank.org/B65E3843-59B7-48F1-9757-82F56AD5E1C6

Figs 1 , 2 , 3

Type materials.

Holotype male (CNU-THY-MA2016116) and paratype female (CNU-THY-MA2016117), both as inclusions in Kachin amber piece CNU006122.

Etymology.

The specific epithet is the Latin participle sēparātus, meaning “divided” or “separated” and referring to the distance between the pronotum and mesonotum of the holotype.

Diagnosis.

As for the genus (vide supra).

Description.

Holotype male (CNU-THY-MA2016116). Body, legs, as well as antennae and wing veins uniformly dark brown, right compound eye and wings partly hidden by a shiny reflective layer of air. Antenna (Fig. 1A, C) curved laterally; body fully extended, right forewing spread, some fringe cilia from anterior margin fractured (Fig. 2A); legs (Fig. 1B) extended except right mid and hind legs folded under body.

Head (Fig. 1C) wider than long, dorsally sculptured with transverse striations at base, cheeks rounded behind compound eyes. Compound eye (Fig. 1C) large, with dozens of large ommatidia, front margin protruding over base of antenna, postocular setae as well as ocellar setae short and pointed, directing backward; median ocellus directed forwards, lateral ocelli close to compound eyes. Antenna (Figs 1D, 2D) with nine antennomeres, antennomeres II–IX rounded with transversal annulation, furnished with several microtrichia (Fig. 2E); antennomeres I–IV stouter than distal antennomeres; I broadened basally, III–IV symmetrical inverse cone-shaped and both having a conical sensorium with a broad base; sense cone simple, at least one inner on antennomeres II–VI. Mouth cone (Fig. 3C) short; maxillary palps stout, trimerous; labial palps short and slender.

Pronotum (Fig. 1C) wider than long, dorsally sculptured with transverse striations, lateral margin rounded, tightly adjoined to head; anteromarginal and posteromarginal setae comb-like; anteroangular setae not visible, posteroangular setae long and stout. Mesonotum fan-shaped; sculptured with transverse striations, slightly separated from pronotum. Metanotum sculptured with light longitudinal striations. Fore wing (Fig. 2A) narrow, slightly wider at basal third, distally slightly bent forwards. Wing venation pale in color, anterior vein ending at apex, with seven small setae; posterior vein with six setae distributed evenly, ending near wing tip, one crossvein (r-m) present between them, other above it; membrane (Fig. 2B) covered with microtrichia. Fringe cilia fine and long, those located near duplicated cilia slightly undulate; wavy duplicated cilia present near apex and apical part of posterior wing margin, stouter than other cilia. Anteromarginal setae long and fine, running parallel to direction of fringe cilia and spaced in pairs; foremost fringe cilia lack paired anteromarginal setae, and position of first fringe cilium quiet distant, near base of wing (Fig. 2A). Some microtrichia densely arranged along anterior wing margin, extending from base to apex (Fig. 2B). Clavus with a pair of setiform processes at tip. Hind wing (Fig. 2C) almost transparent, membrane covered with microtrichia, with one longitudinal vein ending nearly at wing apex; fringe cilia from posterior margin longer than that of anterior margin, and both straight. Legs (Figs 2F, 3B) furnished with many microtrichia, hind leg (Fig. 2F) with two spines on femora and a stout spine at the end of tibiae, tarsi dimerous, no hamus present, vesicles cone-shaped.

Abdomen with ten segments, dorsally sculptured with lines of transverse striations; some small setae present on posterior margin of each segment; segment I partly hidden by metanotum, not narrower than thorax at basal segments, slightly bent upwards at apex; with a pair of spines and a pair of short stout setae on segment IX (Fig. 3D); segment X round, pleurite protrudes on both sides, aedeagus protrudes medioapically.

Paratype female (CNU-THY-MA2016117, Fig. 3A). Body, antennae, and legs uniformly dark brown, wing surface as well as veins and fringe cilia light brown. Body slightly inclined to left, antennae curved to both sides, pronotum bent downwards, abdomen extended; wings spread; right fore and mid legs spread, other legs bent under head and body.

Nearly identical to male (CNU-THY-MA2016116) in size, but lighter in color. Compound eye protruding over front margin of head, ocellus large. Forewing narrow, duplicated cilia extending from mid-wing to tip, clearly undulate near apex. Fore legs with femora stout, mid and hind legs slender; vesicles rounded at apex of each tarsus. Abdomen slenderer than thorax and gradually broadening before segment VI; latero-tergites protruding on segments III–VI; segments VIII–X cone-shaped, curved downwards, narrow and elongate; surrounded with several long and strong setae apically.

Measurements.

Male CNU-THY-MA2016116 (in microns): Body length 946 (antennae not included). Head, length 108; width 155. Eye, length 43; width 44. Prothorax, length 74; width 203. Anteromarginal setae, length 17; posteromarginal setae, length 24; posteroangular setae, length 54. Pterothorax, length 146; largest width 215. Abdomen, length 548; largest width 205 (segment V). Antenna, length 285; lengths of segments: I 20, II 38, III 43, IV 44, V 33, VI 37, VII 25 VIII 16, IX 29. Forewing, length 555, width 40 at crossvein. Hind wing, length 554, largest width 29. Fore leg, length 341; mid leg, length 336; hind leg, length 340.

Female CNU-THY-MA2016117 (in microns): Body length 1010 (antennae not included). Head, length 110; width 122. Eyes, length 61; width 49. Hind ocelli, diameter 8. Prothorax, length 110; width 161. Anteromarginal setae, length 19; posteromarginal setae, length 19; posteroangular setae, length 61. Pterothorax, length 206; largest width 222. Abdomen, length 553; largest width 231 (segment V). Antenna, length 236; lengths of segments: I 22, II 32, III 43, IV 34, V 30, VI 22, VII 14, VIII 13, IX 26. Forewing, length 580, width 31 at crossvein. Hind wing, length 599, largest width 26. Fore leg, length 254.

Syninclusions.

Some cycad pollen (Fig. 4) was found around and on the body of the male.

Figure 4. — Cycad pollen found in the CNU-THY-MA2016116 A pollen distributed around the thrips B pollen attached on the fringe cilia and legs C enlarged details of the cycad pollen.