Next Article in Journal
Environmental Effects on Taxonomic Turnover in Soil Fauna across Multiple Forest Ecosystems in East Asia
Next Article in Special Issue
Comparative Analysis of Mitogenomes of Chironomus (Diptera: Chironomidae)
Previous Article in Journal / Special Issue
New Mitogenome Features of Philopotamidae (Insecta: Trichoptera) with Two New Species of Gunungiella
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Insects
Volume 13
Issue 12
10.3390/insects13121102
insects-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

The First Study of Mating Mistakes in Stoneflies (Plecoptera) from China, with Remarks on Their Biological Implications

by
Qing-Bo Huo
1,2,
Bin-Qing Zhu
3,
Dávid Murányi
2,
José Manuel Tierno de Figueroa
4,
Meng-Yuan Zhao
1,
Ya-Nan Xiang
1,
Yu-Ben Yang
1 and
Yu-Zhou Du
1,5,*
1
School of Horticulture and Plant Protection & Institute of Applied Entomology, Yangzhou University, Yangzhou 225009, China
2
Department of Zoology, Eszterházy Károly Catholic University, Leányka u. 6, H-3300 Eger, Hungary
3
Nanjing Institute of Environmental Sciences, Ministry of Ecology and Environment, Nanjing 210042, China
4
Departamento de Zoología, Facultad de Ciencias, Universidad de Granada, Campus Fuentenueva s/n, 18071 Granada, Spain
5
Joint International Research Laboratory of Agriculture and Agri-Product Safety, the Ministry of Education, Yangzhou University, Yangzhou 225009, China
*
Author to whom correspondence should be addressed.
Insects 2022, 13(12), 1102; https://doi.org/10.3390/insects13121102
Submission received: 1 October 2022 / Revised: 24 October 2022 / Accepted: 25 November 2022 / Published: 30 November 2022
(This article belongs to the Special Issue A Themed Issue in Honor of Prof. Dr. Xin-Hua Wang on the Occasion of His 70th Birthday: Diversity, Ecology and Evolution of Aquatic Insects)
Browse Figures
Versions Notes

Abstract

:

Simple Summary

Adults of stoneflies have diverse mating behaviors and complex signals for communication, but they are not always able to correctly recognize their mates. With the observations from several provinces of China, we provide the first study on the erroneous mating behaviors of stoneflies from this country. Three different categories of erroneous mating attempts involving 13 species belonging to three stonefly families are reported, and information on their physical competition, the sensorial mechanisms triggering the mating, the conditions favoring the mating mistakes, and the possible consequences of interspecific mating are discussed. Hitting and pushing with the head and abdomen could be the unique method employed in the male–male physical competition. Vibrational signals are considered not a prerequisite for triggering a mating behavior, while vision and/or touch could be a sufficient condition for triggering it, but they are not always efficient for species-specific recognition.

Abstract

Currently, information on the biology of Plecoptera from China is scarce, particularly on mating behavior. In this paper, the existence of mating mistakes (erroneous mating attempts) involving 13 Chinese stonefly species (belonging to nine genera and three families) is reported. These erroneous mating behaviors can be included into three different categories: mating attempts between conspecific males (including the formation of erroneous mating balls), mating attempts between different taxa (including displacement attempts during copulation), and mating-related behaviors with non-living objects. From these behaviors, some aspects of stoneflies during mating, such as the physical competition between males, the sensorial mechanisms implied in triggering a mating behavior, the conditions favoring the mating mistakes, and the possible consequences of interspecific mating in the hybrid production, are discussed.

1. Introduction

In the mating of Plecoptera (stonefly), male and female adults exhibit diverse behaviors, some of them not yet well known [1]. More or less complex vibrational signals (mainly produced by drumming, but also by rubbing, tremulation, or a combination of them) are considered to be the main mechanism for mate recognition and encounter in stoneflies [2,3,4], but the use of these signals is not an indispensable prerequisite for mating [1,5]. Other mechanisms as the existence of encounter sites can play an important role in aggregating sexes [1,6] and, probably, the employment of other intersexual communication channels (tactile, visual, olfactory) could be also useful for the recognition [1,4,7]. Nevertheless, adults, particularly males, are sometimes poorly selective, and they can attempt to mate with other conspecific males, different species, or even dead individuals [8,9,10,11,12].
The mating behavior of stoneflies has been documented since the past century mostly in Europe and North America, but in China, the existing studies on Plecoptera are mostly taxonomic [13,14,15,16,17,18], and there is poor knowledge of the stonefly biology, especially on mating behavior, of which only the drumming signal of only one species has been recorded [19].
Recently, we observed multiple cases of erroneous mating behaviors in stoneflies from China (observed in natural and artificial environments). The aim of this study is to report erroneous mating behaviors document for Chinese species for the first time.

2. Materials and Methods

This study was conducted without harming protected or endangered species, and all research activities were authorized. In the process of observation and recording, all kinds of artificial optical and sound interference were excluded as much as possible, except the street lights nearby the stream, the noise of passing vehicles, and the flash of the camera.
The specimens observed and studied were collected in the Anhui, Fujian, Shaanxi, and Qinghai provinces of China. The exact localities are detailed in Table 1, Table 2 and Table 3. All observations were carried out from April 2020 to July 2021. Some behaviors were detected directly in the field with specimens on natural substrates, while in other cases specimens collected by hand or light traps were observed inside the dry, clean and empty (sometimes with few tissue paper) bottles (size: ca. 220 mm high, 500 mL, or 400 mm high, 1500 mL) or plastic boxes (size: 290 × 190 × 100 mm) used to take them to the laboratory. Soft crumpled paper was used into a mass for stuffing into the narrow bottleneck when adult stoneflies were collected and introduced inside the bottles.
After recording the observations in natural or artificial substrates, all specimens were transferred to the laboratory and preserved in 75% ethanol. In the laboratory, the identification of specimens was confirmed under a KEYENCE VHX-5000 system. Photos were taken with Canon cameras (EOS 5D Mark IV, PowerShot SX730 HS) and optimized by Adobe Photoshop CS6. The materials are deposited in the Insect Collection of Yangzhou University (ICYZU).

3. Results

Erroneous mating attempts involving three families, nine genera, and thirteen species of stoneflies were recorded (Table 1, Table 2 and Table 3). These behaviors can be included into three different categories: mating attempts between conspecific males (including the formation of erroneous mating balls), mating attempts between different taxa (including displacement attempts during copulation), and mating-related behaviors with non-living objects.

3.1. Mating Attempts between Conspecific Males

Mating attempts between intraspecific males have been observed in three Perlidae species (Claassenia magna Wu, 1948, Claassenia sp., Togoperla tricolor Klapálek, 1921) and only one Perlodidae species, Perlodinella epiproctalis (Zwick, 1997) (see Table 1). These erroneous mating behaviors of Claassenia magna and Perlodinella epiproctalis only occurred in artificial environments (plastic box or bottle).
In addition, Claassenia sp. from the Qinling Mountains of Shaanxi were observed attempting to mate with a conspecific dead male (Figure 1A,B), while Togoperla tricolor from Fujian were recorded forming erroneous mating balls composed of multiple males but without any females (Figure 1C,D).

3.2. Mating Attempts between Different Taxa

Erroneous mating attempts between different species, genera, or families, involving seven genera and nine species of Perlidae (Flavoperla biocellata Chu, 1929, Hemacroneuria violacea Enderlein, 1909, Kiotina sp., Claassenia sp., Kamimuria tienmushanensis Wu, 1938, Kamimuria sp., Neoperla sinensis Chu, 1928, Togoperla perpicta Klapálek, 1921, Togoperla totanigra Du & Chou, 1999) and one genus and species of Styloperlidae (Styloperla inae Chao, 1947) were recorded (see Table 2, Figure 2 and Figure 3).
All the cases involving Flavoperla biocellata, Neoperla sinensis, and Kamimuria sp. occurred in an artificial environment (plastic box or bottle), and the process often only took from a few seconds to a dozen seconds. Individuals targeted by mating attempts showed strong resistance and always kept running until these males attempting to mate with them were dissuaded.
An outstanding example of mating displacement was noticed in one male T. perpicta on a coupled T. totanigra pair (Figure 3). During this process, the T. perpicta male mildly touched the T. totanigra female body with his antennae and mouthparts, while roughly hitting and pushing the T. totanigra male with his head and swinging his abdomen from the side, forcing the latter to leave the mating. In this competition case, the mating displacement began when the aedeagus of the T. totanigra male was completely inserted into the female genital opening (they were in the copulation phase within the mating sequence), and no previous drumming behavior was observed in the T. perpicta male. An accidental shaking of the container where the individuals were during the displacement behavior caused the disturbed T. perpicta male to escape to a distance of more than 20 cm from the T. totanigra female, but then quickly return, accurately climbing on the female’s back and started again to compete with the T. totanigra male until it drove away the male T. totanigra.

3.3. Mating-Related Behaviors with Non-Living Objects

Mating-related behaviors of male stoneflies with non-living objects (paper in plastic box/bottles), involving two genera and three species of Perlidae (Claassenia magna, Claassenia sp., Togoperla tricolor) and one genus and species of Perlodidae (Perlodinella epiproctalis), were also observed (see Table 3 and Figure 4).
These observations were accidental. Regardless of whether the bottle had previously contained any stoneflies, or whether there were one or more individuals, males were likely to develop an erroneous mating-related behavior with the crumpled tissue or the raised area of the bottle.

4. Discussion

Mating behavior consists in all events from the pair formation through the active searching, attraction, and/or courtship to the final separation of the pair [20], or even more, if the fertilization and other postcopulatory behaviors are also included as components of the mating sequence [21]. In any case, mating behavior can be very complex, flexible, and diverse in insects [20].
The existence of mating mistakes or erroneous mating behaviors has been repeatedly reported in the literatures for many different animal groups, including insects, and it is usually considered as a consequence of poor sex, instar or species recognition by males, or scarce selectivity [20,22]. These erroneous mating behaviors are usually associated with fitness loss [23], and many mechanisms have evolved for improving or assuring the correct identification of the mate facilitating erroneous mating avoidance.
In Plecoptera, as reported in the Introduction, the existence of erroneous mating behaviors, including male mating attempts with individuals of different species, with other conspecific males, with dead females or with nymphs, have been reported in different areas, mainly from North America and Europe, both in nature and in the laboratory [1]. Nevertheless, the information on this topic is sparse and no data exist for China, a highly diverse stonefly region. Our results contribute to solving this lack of information and show that erroneous mating attempts can be more common than usually reported. They also shed some light on male–male competition aspects during mating.
When describing the formation of mating balls in stoneflies, Tierno de Figueroa et al. [24] noted that, as pointed out by Shine et al. [25] in other animal groups, mating balls are most likely to occur in species of animals that do not display male–male combat. The inexistence of combat does not mean that during the mating ball each male does not attempt to displace the others (a way of male–male competition) pushing them and attempting to copulate with the female. Attempts in which a male climbs on a copulating pair and attempts to mate with the female and displaces the original male have also been reported in stoneflies [5,26]. In our study, the behavior of Togoperla tricolor (during an erroneous mating ball) and of T. perpicta (involved in a male displacement acting on a T. totanigra couple) confirms that male stoneflies carry out intense physical conflicts when competing for mates, like many other animals. It is well known that the body of stoneflies is mostly soft and they lack hypertrophied mandibles or horns that can act as spectacular weapons [27], such as in the case of some beetles and dobsonflies. Previous observations during mating displacement attempts showed that hitting and pushing with the abdomen seems to be the only way stoneflies use for attempting to dislodge other males but with poor success [5,26], so it is particularly interesting that head-butting also affected the displacement by T. perpicta.
The erroneous mating attempts detected in the present study, being particularly significant in the case of Claassenia sp. males attempting to mate with a dead individual, confirm that the use of vibrational signals is not a prerequisite for triggering a mating behavior [1,5].
Our study suggests that vision and/or touch could play a key role in most cases and be a sufficient condition for triggering a mating behavior, but they are not always efficient for species-specific recognition. The examples of mating-related behaviors with non-living objects, particularly in cases in which the male was alone and no other stoneflies have been previously there leaving any odorous molecule, seem to coincide with the fact that to date no studies have shown the existence of identification contact sex pheromones in Plecoptera [28]. Nevertheless, studies on this topic in stoneflies are lacking, and a recent electrophysiological study [29] has shown that adult stoneflies can perceive olfactory cues through their antennal sensilla. Therefore, new studies focused on the possible existence of sexual pheromones in stoneflies are required.
Although in stoneflies the use of species-specific vibrational signals is recognized as a very important mechanism for mate encounter and recognition [1,4,6,30], sometimes, when adults coincide on a relatively small surface, the vibrational signals can be omitted or they are unsuccessful in avoiding interspecies mating, not preventing a male from trying to copulate with an individual that did not answer to his drumming call.
It is known that in small areas, particularly in artificial substrates where individuals are at high densities and are forced to be in close contact, the frequency of interspecific mating in insects is higher [23]. This could explain part of our observations, although erroneous mating attempts in stoneflies have been detected in our study also in natural conditions. In fact, mating mistakes in insects are not uncommon despite that they are seldom successful in nature [28]. Nevertheless, both hybridization and mitochondrial introgression have been reported in stoneflies [12,31,32]. Unfortunately, we do not know how common these mating mistakes are in nature in different stonefly species, and whether they can produce fertile filial generation, even leading to local sympatric speciation. As Abbott et al. [33] stated, hybridization “may provide the raw material for adaptive divergence or initiate new hybrid populations, potentially leading to speciation”. The results of these interspecific crossings and the characteristics of their progeny (if any) would need to be further identified and analyzed, but it is a complex task. It is difficult to confirm the existence of hybrid individuals in nature from a few specimens and based especially on morphology. Recently, some stoneflies from China showing significant intraspecific morphological variability [34,35,36] and genetic differences have been reported [37], but further collecting and sequencing studies are still required.
In fact, the consequences of the reticulation events (including hybridization and introgression) [38] in some other insect groups are being increasingly studied, particularly since hybridization has been recognized to play an important role in the evolution and adaptation not only of the plants but also of the animals [38,39]. Moreover, changes in the species distribution and phenology as a consequence of the current climate change and other anthropogenic alterations (habitat destruction, pollution, introduction of exotic species, etc.) will probably increase the cases of hybridization and introgression by bringing into contact species that were previously separated spatially or temporally [40,41]. Nevertheless, the consequences of these cases are not clear and, although it could be expected a positive increase in genetic diversity, some negative effects (such as species fusion or threat to the genetic integrity of uncommon species by repeated introgression from the common ones) could occur in the long term [42].

Author Contributions

Conceptualization, Q.-B.H., D.M. and J.M.T.d.F.; Investigation, Q.-B.H., B.-Q.Z. M.-Y.Z., Y.-N.X. and Y.-B.Y.; Project administration, B.-Q.Z. and Y.-Z.D.; Visualization, Q.-B.H.; Writing—original draft, Q.-B.H., D.M. and J.M.T.d.F.; Writing—review & editing, Y.-Z.D. All authors have read and agreed to the published version of the manuscript.

Funding

This project was supported by the National Natural Science Foundation of China (No. 32170459; 31872266; 31071958), China Scholarship Council, the Project of Biological Resources Survey in Wuyishan National Park, Investigation and Evaluation of Insect Resources in Huangshan Scenic Spot (Phase I), and the Insect fauna of Qilian Mountain National Park (Qinghai): Volume of Lepidoptera and Diptera (procurement contract No. QHTX-2021-006, Administration of Qilian Mountain Nature Reserve, Qinghai Province).

Data Availability Statement

The data presented in this study are available on request from the corresponding author.

Acknowledgments

We express our gratitude to our colleagues, Chen Zhen-Ning and Wang Ji-Xiang for organizing the investigation in Qinghai; we also thank Kong Chun-Ji and his son, Kong Ling-Jia-Xuan, the local guides from Qinling mountains for collecting and observing the materials.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. de Figueroa, J.M.T.; Luzón-Ortega, J.M.; López-Rodríguez, M.J. Drumming for Love: Mating Behavior in Stoneflies. In Aquatic Insects; Del-Claro, K., Guillermo, R., Eds.; Springer: Cham, Switzerland, 2019; pp. 117–137. [Google Scholar] [CrossRef]
  2. Rupprecht, R. Das trommeln der Plecopteren. Z. Für Vgl. Physiol. 1968, 59, 38–71. [Google Scholar] [CrossRef]
  3. Stewart, K.W. Vibrational communication in insects. Epitome in the language of stoneflies? Am. Entomol. 1997, 43, 81–91. [Google Scholar] [CrossRef]
  4. Stewart, K.W. Vibrational communication (drumming) and mate-searching behavior of stoneflies (Plecoptera); evolutionary considerations. In Trends in Research in Ephemeroptera and Plecoptera; Domínguez, E., Ed.; Kluwer Academic/Plenum Publisher: New York, NY, USA, 2001; pp. 217–225. [Google Scholar]
  5. Alexander, K.D.; Stewart, K.W. Description and theoretical considerations of mate finding and other adult behaviors in a Colorado population of Claasenia sabulosa (Plecoptera: Perlidae). Ann. Entomol. Soc. Am. 1996, 89, 290–296. [Google Scholar] [CrossRef]
  6. Stewart, K.W. Theoretical considerations of mate finding and other adult behaviors of Plecoptera. Aquatic Insects 1994, 16, 95–104. [Google Scholar] [CrossRef]
  7. Rebora, M.; Tierno de Figueroa, J.M.; Piersanti, S. Antennal sensilla of the stonefly Dinocras cephalotes (Plecoptera: Perlidae). Arthropod Struct. Dev. 2016, 45, 552–561. [Google Scholar] [CrossRef] [PubMed]
  8. Brinck, P. Studies on Swedish stoneflies. Opusc. Entomol. 1949, 11, 1–250. [Google Scholar]
  9. Khoo, S.G. Studies on the Biology of the Stoneflies. Ph.D. Thesis, University of Liverpool, Liverpool, UK, 1964; pp. 1–161. [Google Scholar]
  10. Zeigler, D.D. Observations pertinent to the role of sexual selection in the stonefly Pteronarcella badia (Plecoptera: Pter-onarcyidae). Entomol. News 1990, 101, 283–287. [Google Scholar]
  11. Tierno de Figueroa, J.M. Biología Imaginal de los Plecópteros (Insecta, Plecoptera) de Sierra Nevada (Granada, España). Ph.D. Thesis, University of Granada, Granada, Spain, 1998; pp. 1–312. [Google Scholar]
  12. Boumans, L.; Tierno de Figueroa, J.M. Introgression and species demarcation in western European Leuctra fusca and L. digitata (Plecoptera, Leuctridae). Aquatic Insects 2016, 37, 115–126. [Google Scholar] [CrossRef]
  13. Wu, C.F. The stoneflies of China (Order Plecoptera). Bull. Peking Soc. Nat. Hist. 1938, 13, 53–87. [Google Scholar]
  14. Wu, C.F. Results of the Zoologico-Botanical expedition to Southwest China, 1955–1957 (Plecoptera). Acta Entomol. Sin. 1962, 12, 139–153. [Google Scholar]
  15. Wu, C.F. New species of Chinese stoneflies (order Plecoptera). Acta Entomol. Sin. 1973, 16, 97–118. [Google Scholar]
  16. Du, Y.Z. A taxonomic study on Plecoptera from China. Ph.D. Thesis, Zhejiang University, Hangzhou, China, 1999; pp. 1–324, Unpublished. [Google Scholar]
  17. Yang, D.; Li, W.H.; Zhu, F. Fauna Sinica Insecta. Plecoptera Nemouroidea; Science Press: Beijing, China, 2015; Volume 58, pp. 1–503. [Google Scholar]
  18. Yang, D.; Li, W.H. Species Catalogue of China. Vols. 2 Animals, Insecta (III), Plecoptera; Science Press: Beijing, China, 2018; pp. 1–71. [Google Scholar]
  19. Li, W.H.; Murányi, D.; Kirill, M.O.; Uchida, S.; Wang, R.F. A new species of Sinacroneuria (Plecoptera: Perlidae) from Guangxi Zhuang Autonomous Region, southcentral China based on male adult, larva and drumming signals, and validation of the Japanese species of the genus. Zootaxa 2017, 4299, 95–108. [Google Scholar] [CrossRef]
  20. Gwynne, D.T. Mating Behaviors. In Encyclopedia of Insects; Resh, V.H., Cardé, R.T., Eds.; Academic Press: Burlington, MA, USA, 2009; pp. 604–609. [Google Scholar]
  21. Alexander, R.D.; Marshall, D.C.; Cooley, J.R. Evolutionary perspectives on insect mating. In The Evolution of Mating Systems in Insects and Arachnids; Choe, J.C., Crespi, B.J., Eds.; Cambridge University Press: Cambridge, UK, 1997; pp. 4–31. [Google Scholar]
  22. Thornhill, R.; Alcock, J. In The Evolution of Insect Mating Systems; Harvard University Press: Cambridge, MA, USA; London, UK, 1983; pp. 1–535. [Google Scholar] [CrossRef]
  23. Gröning, J.; Hochkirch, A. Reproductive interference between animal species. Q. Rev. Biol. 2008, 83, 257–282. [Google Scholar] [CrossRef]
  24. Tierno de Figueroa, J.M.; Luzón-Ortega, J.M.; López-Rodríguez, M.J. Mating balls in stoneflies (Insecta, Plecoptera). Zoo-Log. Baetica 2006, 17, 93–96. [Google Scholar]
  25. Shine, R.; Olsson, M.M.; Moore, I.T.; Lemaster, M.P.; Greene, M.; Mason, R.T. Body size enhances mating success in male garter snakes. Anim. Behav. 2000, 59, F4–F11. [Google Scholar] [CrossRef] [Green Version]
  26. Tierno de Figueroa, J.M. Mate guarding and displacement attempts in stoneflies (Insecta, Plecoptera). Biologia 2003, 58, 925–928. [Google Scholar]
  27. Emlen, D.J. Reproductive contests and the evolution of extreme weaponry. In The Evolution of Insects Mating Systems; Shuker, D.M., Simmons, L.W., Eds.; Oxford University Press: Oxford, UK, 2014; pp. 92–105. [Google Scholar]
  28. Newell, R.L.; Baumann, R.W. Stonefly sex gone awry: An attempted mating by a Perlinodes aureus (Smith) male with a Pteronarcys californica Newport male. Illiesia 2012, 8, 152–157. [Google Scholar]
  29. Rebora, M.; Piersanti, S.; Frati, F.; Salerno, G. Antennal responses to volatile organic compounds in a stonefly. J. Insect Physiol. 2017, 98, 231–237. [Google Scholar] [CrossRef]
  30. Orci, K.M.; Murányi, D. Female answer specificity to male drumming calls in three closely related species of the stonefly genus Zwicknia (Plecoptera: Capniidae). Insect Sci. 2020, 28, 215–223. [Google Scholar] [CrossRef]
  31. Hanson, J.F. A case of hybridization in Plecoptera. Bull. Brooklyn Entomol. Soc. 1960, 55, 25–34. [Google Scholar]
  32. Young, M.K.; Smith, R.J.; Pilgrim, K.L.; Fairchild, M.P.; Schwartz, M.K. Integrative taxonomy refutes a species hypothesis: The asymmetric hybrid origin of Arsapnia arapahoe (Plecoptera, Capniidae). Ecol. Evol. 2019, 9, 1364–1377. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  33. Abbott, R.; Albach, D.; Ansell, S.; Arntzen, J.W.; Baird, S.J.; Bierne, N.; Boughman, J.; Brelsford, A.; Buerkle, C.A.; Buggs, R.; et al. Hybridization and speciation. J. Evol. Biol. 2013, 26, 229–246. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  34. Huo, Q.B.; Chen, Z.N.; Kong, X.B.; Du, Y.Z. New records and a confirmation of three perlodid species in China, with additional notes and images of Rauserodes epiproctalis (Zwick, 1997) (Plecoptera: Perlodidae). Zootaxa 2020, 4808, 455–474. [Google Scholar] [CrossRef] [PubMed]
  35. Huo, Q.B.; Du, Y.Z.; Zhu, B.Q.; Yu, L. Notes on Neoperla sinensis Chu, 1928 and Neoperla anjiensis Yang & Yang, 1998, with descriptions of new species of Neoperla from China (Plecoptera: Perlidae). Zootaxa 2021, 5004, 288–310. [Google Scholar] [CrossRef]
  36. Huo, Q.B.; Du, Y.Z.; Zwick, P.; Murányi, D. Notes on Perlodinella Klapálek, 1912 (Plecoptera: Perlodidae) with a new species and a new synonym. Zootaxa 2022, 5162, 378–396. [Google Scholar] [CrossRef]
  37. Chen, Z.T.; Jiang, C.; Li, Y.S.Y. DNA barcodes of Plecoptera from China: The preliminary dataset and its performance in species delimitation. Zootaxa 2020, 4751, 345–356. [Google Scholar] [CrossRef]
  38. Hinojosa, J.C.; Dapporto, L.; Pitteloud, C.; Koubínová, D.; Hernández-Roldán, J.; Vicente, J.C.; Alvarez, N.; Vila, R. Hy-bridization fuelled diversification in Spialia butterflies. Mol. Ecol. 2022, 31, 2951–2967. [Google Scholar] [CrossRef]
  39. Taylor, S.A.; Larson, E.L. Insights from genomes into the evolutionary importance and prevalence of hybridization in nature. Nat. Ecol. Evol. 2019, 3, 170–177. [Google Scholar] [CrossRef]
  40. Larson, E.L.; Tinghitella, R.M.; Taylor, S.A. Insect hybridization and climate change. Front. Ecol. Evol. 2019, 7, 348. [Google Scholar] [CrossRef] [Green Version]
  41. Ottenburghs, J. The genic view of hybridization in the Anthropocene. Evol. Appl. 2021, 14, 2342–2360. [Google Scholar] [CrossRef]
  42. Valdés, L.R.A.; Guillén, R.A.S. The evolutionary outcomes of climate change-induced hybridization in insect populations. Curr. Opin. Insect Sci. 2022, 54, 100966. [Google Scholar] [CrossRef] [PubMed]
Insects 13 01102 g001 550
Figure 1. Intraspecific male–male erroneous mating attempts. (A,B) Claassenia sp., the male attempting to mate with a dead male; (C,D) Togoperla tricolor, erroneous mating ball made up by only males, which use their abdomens to push each other.
Figure 1. Intraspecific male–male erroneous mating attempts. (A,B) Claassenia sp., the male attempting to mate with a dead male; (C,D) Togoperla tricolor, erroneous mating ball made up by only males, which use their abdomens to push each other.
Insects 13 01102 g001
Insects 13 01102 g002 550
Figure 2. A male of Kamimuria sp. climbing on a male of Claassenia sp. from the lateral side (A) and attempting to mate (B).
Figure 2. A male of Kamimuria sp. climbing on a male of Claassenia sp. from the lateral side (A) and attempting to mate (B).
Insects 13 01102 g002
Insects 13 01102 g003 550
Figure 3. Male competition between Togoperla perpicta and Togoperla totanigra. (A,B) T. perpicta trying to push the T. totanigra male with head; (C,D) T. perpicta changes its position, then uses his abdomen to beat the abdomen of T. totanigra male.
Figure 3. Male competition between Togoperla perpicta and Togoperla totanigra. (A,B) T. perpicta trying to push the T. totanigra male with head; (C,D) T. perpicta changes its position, then uses his abdomen to beat the abdomen of T. totanigra male.
Insects 13 01102 g003
Insects 13 01102 g004 550
Figure 4. Male stoneflies performing mating-related behaviors with paper material. (A) Claassenia magna rubbing the abdomen on the paper; (B) Togoperla tricolor gripping the paper with hemiterga and abdominal process; (C) Perlodinella epiproctalis, males participating in an erroneous mating attempt with one of them rubbing the abdomen on the paper; (D) Perlodinella epiproctalis rubbing the abdomen on the paper, with the aedeagus and epiproct partly everted.
Figure 4. Male stoneflies performing mating-related behaviors with paper material. (A) Claassenia magna rubbing the abdomen on the paper; (B) Togoperla tricolor gripping the paper with hemiterga and abdominal process; (C) Perlodinella epiproctalis, males participating in an erroneous mating attempt with one of them rubbing the abdomen on the paper; (D) Perlodinella epiproctalis rubbing the abdomen on the paper, with the aedeagus and epiproct partly everted.
Insects 13 01102 g004
Table
Table 1. List of species recorded in erroneous mating attempts with conspecific males.
Table 1. List of species recorded in erroneous mating attempts with conspecific males.
Individual Attempting to MateIndividual Targeted by Mating AttemptsObservation Data
Claassenia magnaClaassenia magnaFujian: Wuyishan, 2021-V
Claassenia sp. ♂Claassenia sp. ♂ (alive/dead)Shaanxi: Xi’an, 2021-V
Perlodinella epiproctalisPerlodinella epiproctalisQinghai: Menyuan, 2021-VII
Togoperla tricolorTogoperla tricolorFujian: Wuyishan, 2021-V
Table
Table 2. List of species involved in erroneous mating attempts between different taxa.
Table 2. List of species involved in erroneous mating attempts between different taxa.
Individual Attempting to MateIndividual Targeted by Mating AttemptsObservation Data
Flavoperla biocellataKiotina sp. ♀Fujian: Wuyishan, 2021-V
Kamimuria sp. ♂Claassenia sp. ♂Shaanxi: Xi’an, 2021-V
Neoperla sinensisHemacroneuria violacea ♂♀Fujian: Wuyishan, 2021-IV
Neoperla sinensisKamimuria tienmushanensisFujian: Wuyishan, 2021-IV
Neoperla sinensisStyloperla inaeFujian: Wuyishan, 2021-V
Togoperla perpictaTogoperla totanigraAnhui: Huangshan, 2020-IV
Table
Table 3. List for the species performing mating-related behaviors with non-living objects.
Table 3. List for the species performing mating-related behaviors with non-living objects.
Individual Performing Mating-Related BehaviorsNon-Living ObjectsObservation Data
Claassenia magnaTissue paperFujian: Wuyishan, 2021-V
Claassenia sp. ♂Tissue paperShaanxi: Xi’an, 2021-V
Perlodinella epiproctalisTissue paper; bottleQinghai: Menyuan, 2021-VII
Togoperla tricolorTissue paperFujian: Wuyishan, 2021-V
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Huo, Q.-B.; Zhu, B.-Q.; Murányi, D.; Tierno de Figueroa, J.M.; Zhao, M.-Y.; Xiang, Y.-N.; Yang, Y.-B.; Du, Y.-Z. The First Study of Mating Mistakes in Stoneflies (Plecoptera) from China, with Remarks on Their Biological Implications. Insects 2022, 13, 1102. https://doi.org/10.3390/insects13121102

AMA Style

Huo Q-B, Zhu B-Q, Murányi D, Tierno de Figueroa JM, Zhao M-Y, Xiang Y-N, Yang Y-B, Du Y-Z. The First Study of Mating Mistakes in Stoneflies (Plecoptera) from China, with Remarks on Their Biological Implications. Insects. 2022; 13(12):1102. https://doi.org/10.3390/insects13121102

Chicago/Turabian Style

Huo, Qing-Bo, Bin-Qing Zhu, Dávid Murányi, José Manuel Tierno de Figueroa, Meng-Yuan Zhao, Ya-Nan Xiang, Yu-Ben Yang, and Yu-Zhou Du. 2022. "The First Study of Mating Mistakes in Stoneflies (Plecoptera) from China, with Remarks on Their Biological Implications" Insects 13, no. 12: 1102. https://doi.org/10.3390/insects13121102

APA Style

Huo, Q. -B., Zhu, B. -Q., Murányi, D., Tierno de Figueroa, J. M., Zhao, M. -Y., Xiang, Y. -N., Yang, Y. -B., & Du, Y. -Z. (2022). The First Study of Mating Mistakes in Stoneflies (Plecoptera) from China, with Remarks on Their Biological Implications. Insects, 13(12), 1102. https://doi.org/10.3390/insects13121102

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop