Your search keyword '"Daiqin, Li"' showing total 288 results

1. Four new species of the spider genus Liphistius (Araneae, Mesothelae, Liphistiidae, Liphistiinae) from Myanmar

Author

Xin Xu, Yi Zhan, Khin Pyae Pyae Aung, Fengxiang Liu, Long Yu, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Four new species of Liphistius belonging to the birmanicus species group are described from Myanmar based on both sexes: L. kalaw Zhan & Xu, sp. nov. (♂♀), L. kanpetlet Zhan & Xu, sp. nov. (♂♀), L. nawngau Zhan & Xu, sp. nov. (♂♀) and L. rostratus Zhan & Xu, sp. nov. (♂♀). Currently, Myanmar stands as the westernmost country where Liphistius is distributed, with the new species L. kanpetlet sp. nov. being found in the westernmost region of Myanmar.

Published

2024

2. Seven new species of the segmented spider genus Liphistius (Mesothelae, Liphistiidae) in Thailand and Myanmar

Author

Varat Sivayyapram, Chawakorn Kunsete, Xin Xu, Deborah R. Smith, Prapun Traiyasut, Sureerat Deowanish, Mu Mu Aung, Hirotsugu Ono, Daiqin Li, and Natapot Warrit

Subjects

Zoology, QL1-991

Abstract

Seven new species of the primitive segmented spider genus Liphistius are described and assigned to species groups based on characters of the male palp and vulva plate. The bristowei group includes L. dawei Sivayyapram & Warrit, sp. nov. (♂♀) from southeastern Myanmar, L. choosaki Sivayyapram & Warrit, sp. nov. (♀) from northwestern Thailand, and L. lansak Sivayyapram & Warrit, sp. nov. (♀) from western Thailand; the trang group (Complex A) contains L. kaengkhoi Sivayyapram & Warrit, sp. nov. (♂♀), L. hintung Sivayyapram & Warrit, sp. nov. (♂♀), L. buyphradi Sivayyapram & Warrit, sp. nov. (♂♀), and L. champakpheaw Sivayyapram & Warrit, sp. nov. (♂♀) from central Thailand.

Published

2024

3. Three new species of the primitively segmented spider genus Songthela (Mesothelae, Liphistiidae, Heptathelinae) from Hunan Province, China

Author

Yan Zhang, Zhaoyang Chen, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

Three new species of the primitively segmented spider genus Songthela Ono, 2000 are identified and described from Hunan Province, China, based on morphological characters of males and females: S. anhua Zhang & Xu, sp. nov. (♂♀), S. longhui Zhang & Xu, sp. nov. (♂♀), and S. zhongpo Zhang & Xu, sp. nov. (♂♀). All the new Songthela species belong to the multidentata-group according to male palp and female genital morphology.

Published

2023

4. Jumping spider invades an orb web to prey on a resident male

Author

Matjaž Kuntner, Eva Kuntner, Maj Kuntner, Irena Kuntner, and Daiqin Li

Subjects

Nephila, Nephilidae, predation, Salticidae, Viciria, Ecology, QH540-549.5

Abstract

Abstract While surveying operational sex ratios of the giant golden orb weaver Nephila pilipes (Fabricius, 1793) in Singapore, we documented a stunning case of predatory behavior of a jumping spider Viciria pavesii Thorell, 1877. A female V. pavesii invaded a N. pilipes orb web that was occupied by the resident female and four males, and successfully captured, killed, and removed one of the Nephila males. Whether araneophagy in V. pavesii is opportunistic or a predatory ritual remains to be tested more precisely, but because the observed predatory event triggered an aggressive response by the N. pilipes alpha male, it is plausible that V. pavesii may engage in aggressive mimicry. We place our observation into the context of jumping spider cognition and behavioral tactics that are so far well understood only in a few spartaeine genera, notably Portia Karsch, 1878. Viciria Thorell, 1877, we argue, is another such jumping spider taxon worthy of behavioral scrutiny.

Published

2023

5. Male mating strategies to counter sexual conflict in spiders

Author

Shichang Zhang, Long Yu, Min Tan, Noeleen Y. L. Tan, Xaven X. B. Wong, Matjaž Kuntner, and Daiqin Li

Subjects

Biology (General), QH301-705.5

Abstract

Male spiders make choices about how to maximise their mating success when at risk of cannibalisation by females.

Published

2022

6. Three new species of the spider genus Liphistius (Araneae, Mesothelae, Liphistiidae) from Thailand

Author

Yi Zhan, Varat Sivayyapram, Fengxiang Liu, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

We diagnose and describe three new species of the primitively segmented spider genus Liphistius from Thailand, based on male palp and female genital morphology: L. hatyai Zhan & Xu, sp. nov. (♂♀), L. keeratikiati Zhan & Xu, sp. nov. (♂♀), and L. inthanon Zhan & Xu, sp. nov. (♂♀). The classification of the three new species of Liphistius is discussed: L. hatyai sp. nov. and L. keeratikiati sp. nov. are assigned to the trang-group, and L. inthanon sp. nov. is placed in the bristowei-group according to male palp and female genital morphology.

Published

2022

7. Four new species of the jumping spider genus Portia (Araneae, Salticidae) from China

Author

Xin Xu, Xianjin Peng, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

We diagnose and describe four new species of Portia Karsch, 1878 and describe for the first time the male of P. zhaoi Peng, Li & Chen, 2003 from China based on morphological characters. The females of Portia bawang sp. nov. have the narrowest epigyne orifice. The males of Portia erlangping sp. nov. have the shortest embolus among all the species. The females of Portia fajing sp. nov. can be distinguished from other species by the anterior orifice margin, which is nearly parallel to the posterior orifice margin. The males of Portia xishan sp. nov. can be identified by the tegular furrow which extends to form a membrane and by the tegular apophysis which is obscured; the females of Portia xishan sp. nov. can be diagnosed by the slit-like epigynal orifice. The males of P. zhaoi have the longest embolus among all the species, and females can be diagnosed by the circular epigyne orifice and the longest copulatory ducts. To facilitate future identification, we also provide the GenBank accession codes of the DNA barcode gene, Cytochrome c oxidase subunit I (COI), for all the type specimens.

Published

2021

8. Three new species of the primitively segmented spider genus Songthela (Araneae, Mesothelae) from Guizhou Province, China

Author

Zhaoyang Chen, Dengqing Li, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

We diagnose and describe three new species of the primitively segmented spider genus Songthela from Guizhou Province, China, based on morphological characters and molecular data: S. liui sp. nov. (♂♀), S. tianzhu sp. nov. (♂♀), and S. yuping sp. nov. (♂♀). We provide the genetic distances within and among the three new species based on the DNA barcode gene, cytochrome c oxidase subunit I (COI) to support our descriptions. We also provide the COI GenBank accession codes for the three new species for future identification.

Published

2021

9. The complete mitochondrial genome of the intertidal spider (Desis jiaxiangi) provides novel insights into the adaptive evolution of the mitogenome and the evolution of spiders

Author

Fan Li, Yunyun Lv, Zhengyong Wen, Chao Bian, Xinhui Zhang, Shengtao Guo, Qiong Shi, and Daiqin Li

Subjects

Mitogenome, Phylogeny, Evolution, Positive selection, Desis jiaxiangi, Argyroneta aquatica, Ecology, QH540-549.5, QH359-425

Abstract

Abstract Background Although almost all extant spider species live in terrestrial environments, a few species live fully submerged in freshwater or seawater. The intertidal spiders (genus Desis) built silk nests within coral crevices can survive submerged in high tides. The diving bell spider, Argyroneta aquatica, resides in a similar dynamic environment but exclusively in freshwater. Given the pivotal role played by mitochondria in supplying most energy for physiological activity via oxidative phosphorylation and the environment, herein we sequenced the complete mitogenome of Desis jiaxiangi to investigate the adaptive evolution of the aquatic spider mitogenomes and the evolution of spiders. Results We assembled a complete mitogenome of the intertidal spider Desis jiaxiangi and performed comparative mitochondrial analyses of data set comprising of Desis jiaxiangi and other 45 previously published spider mitogenome sequences, including that of Argyroneta aquatica. We found a unique transposition of trnL2 and trnN genes in Desis jiaxiangi. Our robust phylogenetic topology clearly deciphered the evolutionary relationships between Desis jiaxiangi and Argyroneta aquatica as well as other spiders. We dated the divergence of Desis jiaxiangi and Argyroneta aquatica to the late Cretaceous at ~ 98 Ma. Our selection analyses detected a positive selection signal in the nd4 gene of the aquatic branch comprising both Desis jiaxiangi and Argyroneta aquatica. Surprisingly, Pirata subpiraticus, Hypochilus thorelli, and Argyroneta aquatica each had a higher Ka/Ks value in the 13 PCGs dataset among 46 taxa with complete mitogenomes, and these three species also showed positive selection signal in the nd6 gene. Conclusions Our finding of the unique transposition of trnL2 and trnN genes indicates that these genes may have experienced rearrangements in the history of intertidal spider evolution. The positive selection signals in the nd4 and nd6 genes might enable a better understanding of the spider metabolic adaptations in relation to different environments. Our construction of a novel mitogenome for the intertidal spider thus sheds light on the evolutionary history of spiders and their mitogenomes.

Published

2021

10. A new species of Liphistius from Myanmar and description of the actual male of L. birmanicus Thorell, 1897 (Araneae, Mesothelae, Liphistiidae)

Author

Xin Xu, Li Yu, Khin Pyae Pyae Aung, Long Yu, Fengxiang Liu, Wai Wai Lwin, Men Zing Sang, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Five Liphistius Schiödte, 1849 species of the primitively segmented spider family Liphistiidae are currently known from Myanmar. Here, we described a new species, Liphistius pyinoolwin sp. nov. (♂♀), which was collected from Pyin Oo Lwin, Mandalay Region, Myanmar, diagnosed based on its genital morphology. The specimens (2♂♂, 5♀♀) collected by Walter C. Sedgwick from Pyin Oo Lwin in 1982 were misidentified as L. birmanicus Thorell, 1897 and are treated here as the newly described species. Accordingly, we described the males of L. birmanicus for the first time, redescribed its female, using newly collected specimens from Yadò, Than Taung and Kalekho Atet townships, Kayin State. We also provided information on the variation in genital morphology of both species, and their relationships within the birmanicus-group of species.

Published

2021

11. Three new species of the segmented spider genus Qiongthela (Mesothelae, Liphistiidae) from Hainan Island, China

Author

Li Yu, Fengxiang Liu, Zengtao Zhang, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

We report three new species of the segmented trapdoor spider genus Qiongthela Xu & Kuntner, 2015 collected from Hainan Island, China based on morphological characters: Q. dongfang sp. nov. (♂♀), Q. nankai sp. nov. (♂♀), Q. yalin sp. nov. (♂♀). We also provide the GenBank accession codes of the DNA barcode gene, cytochrome c oxidase subunit I (COI), of the type specimens of all three new species to aid future identification.

Published

2021

12. Two new species of the primitively segmented spider genus Songthela from Hunan Province, China (Mesothelae, Liphistiidae)

Author

Dengqing Li, Fengxiang Liu, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

This study reports two new species of the primitively segmented spider genus Songthela from Hunan Province, China, based on morphological characters: S. huangyang sp. nov. (♂♀), S. xiangnan sp. nov. (♂♀). Additional material also facilitates a more accurate description of S. goulouensis (Yin, 2001) with the first description of the male. Nucleotide data for the barcoding gene, cytochrome c oxidase subunit I (COI), is also provided for these three species.

Published

2020

13. Four new species of the primitively segmented spider genus Qiongthela from Hainan Island, China (Mesothelae, Liphistiidae)

Author

Li Yu, Fengxiang Liu, Zengtao Zhang, Yan Wang, Daiqin Li, and Xin Xu

Subjects

Zoology, QL1-991

Abstract

The primitively segmented spider genus Qiongthela Xu & Kuntner, 2015 consists of seven species that are distributed in Hainan Island, China and southern Vietnam. Of the seven species, five are known from Hainan Island. In this study, four more Qiongthela species collected from Hainan Island are diagnosed and described as new to science based on morphological characters: Q. baoting sp. nov. (♂♀), Q. qiongzhong sp. nov. (♂♀), Q. sanya sp. nov. (♂♀), Q. yinggezui sp. nov. (♂♀). To facilitate future identification, the GenBank accession codes of the DNA barcode gene, cytochrome c oxidase subunit I (COI), for all the type specimens are also provided.

Published

2020

14. A taxonomic monograph of the liphistiid spider genus Heptathela, endemic to Japanese islands

Author

Xin Xu, Hirotsugu Ono, Matjaž Kuntner, Fengxiang Liu, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Among the eight extant genera of primitively segmented spiders, family Liphistiidae, two are confined to East Asian islands, Heptathela Kishida, 1923 and Ryuthela Haupt, 1983. In this paper, a taxonomic revision of the genus Heptathela (Heptathelinae) from Kyushu and Ryukyu archipelago, Japan is provided. This study follows a multi-tier species delimitation strategy within an integrative taxonomic framework that is presented in a parallel paper, in which diagnosable lineages are considered as valid species. There, the initial hypothesis of species diversity (19) based on classical morphological diagnoses is tested with multiple species delimitation methods aimed at resolving conflict in data. This revision follows those analyses that converge on the species diversity of 20, which includes a pair of cryptic species that would have been undetected with morphology alone. After this revision, eight previously described species remain valid, two junior synonyms are proposed, and 12 new Heptathela species are described based on diagnostic evidence. To ease identification and to hint at putative evolutionary units, Heptathela is divided into three groups. The Kyushu group contains H. higoensis Haupt, 1983, H. kikuyai Ono, 1998, H. kimurai (Kishida, 1920), and H. yakushimaensis Ono, 1998; the Amami group contains H. amamiensis Haupt, 1983, H. kanenoi Ono, 1996, H. kojima sp. nov., H. sumiyo sp. nov., and H. uken sp. nov.; and the Okinawa group contains H. yanbaruensis Haupt, 1983, H. aha sp. nov., H. gayozan sp. nov., H. kubayama sp. nov., H. mae sp. nov., H. otoha sp. nov., H. shuri sp. nov., H. tokashiki sp. nov., H. unten sp. nov., and H. crypta sp. nov. Heptathela helios Tanikawa & Miyashita, 2014 is not assigned to a species group. A combination of diagnostic tools augments the morphological diagnoses that, in isolation, would be prone to error in morphologically challenging groups of organisms.

Published

2019

15. Two new species of the primitively segmented spider genus Liphistius Schiödte, 1849 (Mesothelae, Liphistiidae) from Myanmar

Author

Khin Pyae Pyae Aung, Xin Xu, Wai Wai Lwin, Men Zing Sang, Long Yu, Hao Liu, Fengxiang Liu, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Two Liphistius species of the primitively segmented spider family Liphistiidae, collected from Loikaw (Kayah State) and Pinlaung (Shan State), Myanmar, are diagnosed and described as new to science based on their genital morphology: Liphistius hpruso sp. nov. (♀), Liphistius pinlaung sp. nov. (♂♀).

Published

2019

16. Four new species of the trapdoor spider genus Conothele Thorell, 1878 (Araneae, Halonoproctidae) from China

Author

Hao Liu, Xin Xu, Zengtao Zhang, Fengxiang Liu, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Herein four species of the trapdoor spider genus Conothele Thorell, 1878 collected from China are described as new to science based on the female genital morphology: C. baisha sp. n. (Hainan Province), C. baoting sp. n. (Hainan Province), C. linzhi sp. n. (Tibet), and C. jinggangshan sp. n. (Jiangxi Province). For two Hainan species, C. baisha sp. n. and C. baoting sp. n., between which it is difficult to distinguish solely based on female genital morphology, additional diagnoses derived from species-specific nucleotide substitution information and genetic distances using the mitochondrial gene, cytochrome c oxidase subunit I are provided.

Published

2019

17. Anisotropic total generalized variation model for Poisson noise removal

Author

Daiqin Li and Xinwu Liu

Subjects

Computer Networks and Communications, Hardware and Architecture, Media Technology, Software

Published

2023

18. Influence of maternal diet on offspring survivorship, growth, and reproduction in a sheetweb spider

Author

Lelei Wen, Zengtao Zhang, Shichang Zhang, Fengxiang Liu, Xiaoguo Jiao, and Daiqin Li

Subjects

fitness, hylyphantes graminicola, maternal diet, reproduction, spider, survival, Science, Biology (General), QH301-705.5

Abstract

Prey vary dramatically in quality, and maternal diet is generally assumed to substantially influence offspring survivorship, growth, and reproduction in spiders. Numerous studies that have tested this hypothesis have focused exclusively on parental generation or have considered relatively few fitness components of juvenile offspring. However, maternal diet may have a substantial effect on fitness performance beyond juvenile offspring. Here, we investigated the influence of one-time maternal feeding on multiple offspring fitness components, including the survival rate and growth of juvenile offspring as well as the mating and reproductive success of adult offspring in Hylyphantes graminicola, a sheetweb spider with an extremely short lifespan (∼1 month). We fed field-collected adult female spiders two different diets only once immediately before oviposition: midges (Tendipes sp.) only (MO) or flies (Drosophila melanogaster) only (FO). Juvenile offspring of MO females had significantly higher survival rate, faster growth, and larger male size at maturity than FO offspring. Although maternal diet did not significantly influence mating behavior or fecundity of female offspring overall, those of MO females laid eggs earlier and their eggs also hatched earlier and had a higher hatching rate than those of FO females. Intriguingly, one-time maternal feeding was sufficient to have such an influence on offspring fitness even beyond juvenile offspring in H. graminicola. This one-time maternal effect may be widespread in other spiders and other invertebrates with a short lifespan. This article has an associated First Person interview with the first author of the paper.

Published

2020

19. Two new species of the purse-web spider genus Atypus Latreille, 1804 from Hainan Island, China (Araneae, Atypidae)

Author

Fan Li, Xin Xu, Zengtao Zhang, Fengxiang Liu, Hongli Zhang, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Two species of the purse-web spider genus Atypus Latreille, 1804 collected from Hainan Island, China, are diagnosed and described as new to science based on genital morphology, A. baotingensis sp. n. (♂♀) and A. jianfengensis sp. n. (♀). The DNA barcodes of the two species are also provided for future use.

Published

2018

20. Seven new species of the segmented spider genus Liphistius (Mesothelae, Liphistiidae) in Thailand and Myanmar.

Author

Sivayyapram, Varat, Kunsete, Chawakorn, Xin Xu, Smith, Deborah R., Traiyasut, Prapun, Deowanish, Sureerat, Mu Mu Aung, Hirotsugu Ono, Daiqin Li, and Warrit, Natapot

Subjects

SPIDERS, SPECIES, FICTIONAL characters, VULVA, JUMPING spiders

Abstract

Seven new species of the primitive segmented spider genus Liphistius are described and assigned to species groups based on characters of the male palp and vulva plate. The bristowei group includes L. dawei Sivayyapram & Warrit, sp. nov. (♂♀) from southeastern Myanmar, L. choosaki Sivayyapram & Warrit, sp. nov. (♀) from northwestern Thailand, and L. lansak Sivayyapram & Warrit, sp. nov. (♀) from western Thailand; the trang group (Complex A) contains L. kaengkhoi Sivayyapram & Warrit, sp. nov. (♂♀), L. hintung Sivayyapram & Warrit, sp. nov. (♂♀), L. buyphradi Sivayyapram & Warrit, sp. nov. (♂♀), and L. champakpheaw Sivayyapram & Warrit, sp. nov. (♂♀) from central Thailand. [ABSTRACT FROM AUTHOR]

Published

2024

21. Four new species of the primitive segmented spider genus Qiongthela from Hainan island, China (Mesothelae, Liphistiidae)

Author

Xin Xu, Fengxiang Liu, Matjaž Kuntner, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Four species of the primitive segmented spider genus Qiongthela Xu & Kuntner, 2015 collected from Hainan Island, China are diagnosed and described as new to science based on their genital morphology: Q. bawang sp. n. (♀), Q. jianfeng sp. n. (♂♀), Q. yini sp. n. (♀), Q. wuzhi sp. n. (♂♀). Together with the type species of Qiongthela, Q. baishensis Xu, 2015, five species are found and described from Hainan, China, and seven species are now known in the genus.

Published

2017

22. Singapore’s Anopheles sinensis Form A is susceptible to Plasmodium vivax isolates from the western Thailand–Myanmar border

Author

Sook-Cheng Pang, Chiara Andolina, Benoit Malleret, Peter R. Christensen, Sai-Gek Lam-Phua, Muhammad Aliff Bin Abdul Razak, Chee-Seng Chong, Daiqin Li, Cindy S. Chu, Bruce Russell, Laurent Rénia, Lee-Ching Ng, and Francois Nosten

Subjects

Malaria vector, Infection, Anopheles sinensis Form A, An. cracens, Sporozoites, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Singapore has been certified malaria-free by the World Health Organization since November 1982. However, sporadic autochthonous malaria outbreaks do occur. In one of the most recent outbreaks of vivax malaria, an entomological investigation identified Anopheles sinensis as the most probable vector. As metaphase karyotype studies divided An. sinensis into two forms, A and B, with different vector competence: the investigation of vector competence of An. sinensis found in Singapore was thus pursued using Plasmodium vivax field isolates from the Thailand–Myanmar border. Methods Adults and larvae An. sinensis were collected from Singapore from 14 different locations, using various trapping and collection methods between September 2013 and January 2016. Molecular identification of An. sinensis species were conducted by amplifying the ITS2 and CO1 region using PCR. Experimental infections of An. sinensis using blood from seven patients infected with P. vivax from the Thailand–Myanmar border were conducted with Anopheles cracens (An. dirus B) as control. Results Phylogenetic analysis showed that An. sinensis (F22, F2 and collected from outbreak areas) found in Singapore was entirely Form A, and closely related to An. sinensis Form A from Thailand. Artificial infection of these Singapore strain An. sinensis Form A resulted in the development of oocysts in four experiments, with the number of sporozoites produced by one An. sinensis ranging from 4301 to 14,538. Conclusions Infection experiments showed that An. sinensis Form A from Singapore was susceptible to Thai–Myanmar P. vivax strain, suggesting a potential role as a malaria vector in Singapore.

Published

2017

23. Trapdoor spiders of the genus Cyclocosmia Ausserer, 1871 from China and Vietnam (Araneae, Ctenizidae)

Author

Xin Xu, Chen Xu, Fan Li, Pham Dinh-Sac, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

A species of the genus Cyclocosmia Ausserer, 1871 collected from Guizhou Province, China is diagnosed and described as new to science: C. liui Xu, Xu & Li, sp. n. (♀). New records of C. latusicosta Zhu, Zhang & Zhang, 2006 (♀) from China (Yunnan Province) and Vietnam (Vinh Phuc Province, Ninh Binh Province), and C. ricketti (Pocock, 1901) collected from Jiangxi Province, China are also reported in this study.

Published

2017

24. Four new species of the trapdoor spider genus Conothele Thorell, 1878 from Mainland China and Laos (Araneae, Ctenizidae)

Author

Xin Xu, Chen Xu, Fengxiang Liu, Zengtao Zhang, and Daiqin Li

Subjects

Zoology, QL1-991

Abstract

Here for the first time the presence of the trapdoor spider genus Conothele Thorell, 1878 (Araneae: Ctenizidae) is reported from mainland China and Laos. Four Conothele species collected from the regions are described as new to science, based on the female genital morphology: C. baiyunensis Xu, Xu & Liu, sp. n. (Guangdong Province), C. daxinensis Xu, Xu & Li, sp. n. (Guangxi Province), C. sidiechongensis Xu, Xu & Liu, sp. n. (Yunnan Province, China and Vietnam), C. yundingensis Xu, Xu & Li, sp. n. (Yunnan Province).

Published

2017

25. Fully automated leg tracking of Drosophila neurodegeneration models reveals distinct conserved movement signatures.

Author

Shuang Wu, Kah Junn Tan, Lakshmi Narasimhan Govindarajan, James Charles Stewart, Lin Gu, Joses Wei Hao Ho, Malvika Katarya, Boon Hui Wong, Eng-King Tan, Daiqin Li, Adam Claridge-Chang, Camilo Libedinsky, Li Cheng, and Sherry Shiying Aw

Subjects

Biology (General), QH301-705.5

Abstract

Some neurodegenerative diseases, like Parkinsons Disease (PD) and Spinocerebellar ataxia 3 (SCA3), are associated with distinct, altered gait and tremor movements that are reflective of the underlying disease etiology. Drosophila melanogaster models of neurodegeneration have illuminated our understanding of the molecular mechanisms of disease. However, it is unknown whether specific gait and tremor dysfunctions also occur in fly disease mutants. To answer this question, we developed a machine-learning image-analysis program, Feature Learning-based LImb segmentation and Tracking (FLLIT), that automatically tracks leg claw positions of freely moving flies recorded on high-speed video, producing a series of gait measurements. Notably, unlike other machine-learning methods, FLLIT generates its own training sets and does not require user-annotated images for learning. Using FLLIT, we carried out high-throughput and high-resolution analysis of gait and tremor features in Drosophila neurodegeneration mutants for the first time. We found that fly models of PD and SCA3 exhibited markedly different walking gait and tremor signatures, which recapitulated characteristics of the respective human diseases. Selective expression of mutant SCA3 in dopaminergic neurons led to a gait signature that more closely resembled those of PD flies. This suggests that the behavioral phenotype depends on the neurons affected rather than the specific nature of the mutation. Different mutations produced tremors in distinct leg pairs, indicating that different motor circuits were affected. Using this approach, fly models can be used to dissect the neurogenetic mechanisms that underlie movement disorders.

Published

2019

26. Background matching can reduce responsiveness of jumping spiders to stimuli in motion

Author

Min Tan, Jeremiah Y.O. Chan, Long Yu, Eunice J. Tan, and Daiqin Li

Abstract

Motion and camouflage were previously considered to be mutually exclusive, as sudden movements can be easily detected. Background matching, for instance, is a well-known, effective camouflage strategy where the color and pattern of a stationary animal match its surrounding background. However, background matching may lose its efficacy when the animal moves, as the boundaries of the animal become more defined against its background. Recent evidence shows otherwise, as camouflaged objects can be less detectable than uncamouflaged objects even while in motion. Here, we explored if the detectability of computer-generated stimuli varies with the speed of motion, background (matching and unmatching) and size of stimuli in six species of jumping spiders (Araneae: Salticidae). Our results showed that in general, the responsiveness of all six salticid species tested decreased with increasing stimulus speed regardless of whether the stimuli were conspicuousness or camouflaged. Importantly, salticid responses to camouflaged stimuli were significantly lower compared to conspicuous stimuli. There were significant differences in motion detectability across species when the stimuli were conspicuous, suggesting differences in visual acuity in closely related species of jumping spiders. Furthermore, small stimuli elicited significantly lower responses than large stimuli across species and speeds. Our results thus suggest that background matching is effective even when stimuli are in motion, reducing the detectability of moving stimuli.Summary StatementContrary to belief, stimuli in motion can remain camouflaged against their backgrounds. Using computer-generated stimuli, we show that smaller and faster stimuli against camouflaged background elicit lower responses from jumping spiders.

Published

2023

27. A preliminary study of motion control patterns for biorobotic spiders.

Author

Zhaolin Yang, Koh Yong Chun, Jiayue Xu, Feng Lin 0003, Daiqin Li, and Hongliang Ren 0001

Published

2014

28. An integrative approach reveals high species diversity in the primitively segmented spider genus

Author

Dengqing Li, Zhaoyang Chen, Fengxiang Liu, Daiqin Li, and Xin Xu

Subjects

Ecology, Evolution, Behavior and Systematics

Abstract

Accurate species delimitation is crucial for our understanding of evolution, biodiversity and conservation. However, morphology-based species delimitation alone appears to be prone to taxonomic errors and ineffective for taxa with high interspecific morphological homogeneity or intraspecific morphological variations, as is the case for mesothele and mygalomorph spiders. Combined molecular–morphology species delimitation has shown great potential to delimit species boundaries in such ancient lineages. In the present study, molecular and morphological evidence were integrated to delimit species of the primitively segmented spider genus Songthela Ono, 2000. The cytochrome c oxidase subunit I gene (COI) was sequenced for 192 novel specimens belonging to 12 putative morphospecies. The evolutionary relationships within Songthela and the 12-morphospecies hypothesis were tested in two steps – species discovery and species validation – using four single-locus species delimitation approaches. All species delimitation analyses supported the 12-species hypothesis. Phylogenetic analyses yielded three major clades in Songthela, which are consistent with morphology. Accordingly, we assigned 19 known and 11 new species (S. aokoulong, sp. nov., S. bispina, sp. nov., S. dapo, sp. nov., S. huayanxi, sp. nov., S. lianhe, sp. nov., S. lingshang, sp. nov., S. multidentata, sp. nov., S. tianmen, sp. nov., S. unispina, sp. nov., S. xiujian, sp. nov., S. zizhu, sp. nov.) of Songthela to three species-groups: the bispina-group, the multidentata-group and the unispina-group. Another new species, S. zimugang, sp. nov., is not included in any species groups, but forms a sister lineage to the bispina- and unispina-groups. These results elucidate a high species diversity of Songthela in a small area and demonstrate that integrating morphology with COI-based species delimitation is fast and cost-effective in delimiting species boundaries. http://zoobank.org/urn:lsid:zoobank.org:pub:AF0F5B31-AFAF-4861-9844-445AE8678B67

Published

2022

29. Four new species of the primitively segmented spider genus Songthela (Mesothelae, Liphistiidae) from Chongqing Municipality, China

Author

ZHAOYANG CHEN, FENGXIANG LIU, DAIQIN LI, and XIN XU

Subjects

Male, China, Liphistiidae, Arthropoda, Spiders, Biodiversity, bacterial infections and mycoses, DNA, Mitochondrial, Mitochondria, stomatognathic system, Arachnida, Animalia, Araneae, Animals, DNA Barcoding, Taxonomic, Female, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

This paper reports four new species of the primitively segmented spider genus Songthela from Chongqing Municipality, China, based on morphological characters of both males and females: S. jinyun sp. nov., S. longbao sp. nov., S. serriformis sp. nov. and S. wangerbao sp. nov. We also provide the GenBank accession codes of mitochondrial DNA barcode gene, cytochrome c oxidase subunit I (COI), for the holotype of four new species for future identification.

Published

2022

30. From crypsis to masquerade: Ontogeny changes the colour defences of a crab spider hiding as bird droppings

Author

Long Yu, Xin Xu, Fan Li, Wei Zhou, Hua Zeng, Eunice J. Tan, Shichang Zhang, and Daiqin Li

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

31. Multilocus species delimitation and phylogeny of the genus Calommata (Araneae, Atypidae) in southern China

Author

Fan Li, Xin Xu, Zengtao Zhang, Fengxiang Liu, Zizhong Yang, and Daiqin Li

Subjects

Genetics, Animal Science and Zoology, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Published

2022

32. Males armed with big weapons win fights at limited cost in ant-mimicking jumping spiders

Author

Guocheng Yu, Boon Hui Wong, Christina J Painting, Hongze Li, Long Yu, Zengtao Zhang, Shichang Zhang, and Daiqin Li

Subjects

Animal Science and Zoology

Abstract

A core assumption of sexual selection theory is that sexually selected weapons, specialized morphological structures used directly in male contests, can improve an individual’s reproductive success but only if the bearer can overcome associated costs, the negative effects on the bearer’s fitness components. However, recent studies have shown that producing and wielding exaggerated weapons may not necessarily be costly. Rather, some traits can be selected for supporting, or compensating for, the expense of producing and wielding such exaggerated weapons. In the ant-mimicking jumping spider Myrmarachne gisti, exaggerated chelicerae are borne only by adult males and not females, showing sexual dimorphism and steep positive allometry with body size. Here, we determine the potential benefits of bearing exaggerated chelicerae during male contests and explore the potential for costs in terms of prey-capture efficiency and compensation between chelicera size and neighboring trait size. While males with longer chelicerae won most of their male-male contests, we found no significant differences in prey-capture efficiency between males and females regardless of whether prey was winged or flightless. Males’ elongated chelicerae thus do not impede their efficiency at capturing prey. Furthermore, we found that the sizes of all neighboring traits are positively correlated with chelicera size, suggesting that these traits may be under correlational selection. Taken together, our findings suggest that M. gisti males armed with the exaggerated chelicerae that function as weapons win more fights at limited cost for performance in prey capture and compensate for neighboring structures.

Published

2022

33. Male opportunistic mating increases with intensity of female sexual cannibalism in 3 web-building spiders

Author

Yubing Ma, Aijia Mao, Daiqin Li, Zeyuan Hua, and Shichang Zhang

Subjects

Sexual cannibalism, Zoology, Animal Science and Zoology, Mating, Biology, Intensity (physics)

Abstract

Sexual conflict is common in animals, and female sexual cannibalism represents an extreme form of sexual conflict. Males in many species have evolved a variety of strategies to circumvent or decrease the risk of female sexual cannibalism. Opportunistic mating, by which a male mates with a female when she is disturbed or when she is feeding or undertaking moulting, is one of such kinds of strategies, and widely occurs in many animals, especially in spiders. However, whether the occurrence of male opportunistic mating depends on the intensity of female sexual cannibalism remains largely unexplored. We predicted a positive correlation between them. In this study, we tested this prediction by performing a series of mating trials in the laboratory using 3 species of web-building spiders with different intensities of female sexual cannibalism: Nephila pilipes, Nephilengys malabarensis, and Parasteatoda tepidariorum. We found that the occurrence of male opportunistic mating was positively, though not statistically significantly, correlated with the intensity of female sexual cannibalism, thus supporting our hypothesis. All together, we provide evidence that male opportunistic mating may have evolved to respond to the selection pressure posed by female sexual cannibalism.

Published

2021

34. Aggressive males are more attractive to females and more likely to win contests in jumping spiders

Author

Chia-chen Chang, Daiqin Li, Long Yu, Bernetta Zi Wei Kwek, Wei Zhou, and Min Tan

Subjects

biology, Aggression, media_common.quotation_subject, biology.organism_classification, Affect (psychology), Preference, Jumping spider, Mate choice, Sexual selection, medicine, Personality, Animal Science and Zoology, Predictability, medicine.symptom, Psychology, Ecology, Evolution, Behavior and Systematics, Demography, media_common

Abstract

Consistent interindividual differences in behaviour (i.e. personality) and intraindividual variability in behaviour (higher intraindividual variability means lower behavioural predictability) are common across animal taxa. However, how personality and behavioural predictability of males and females influence female mate choice and male–male competition remains poorly understood. Here, we investigated this in the jade jumping spider, Siler semiglaucus. After assessing the level of aggression (an individual's average aggression) and aggression predictability (the variability around average aggression within an individual) of both S. semiglaucus males and females, we performed female mate choice trials to test whether aggression and aggression predictability in females, males or both would affect female mate choice. We also conducted male contest trials to test whether male aggression or aggression predictability would influence the outcomes of male contests. We found that both females and males showed consistent interindividual differences in aggression, and aggressive spiders were more predictable than less aggressive ones. Despite a positive correlation between aggression and predictability, male aggression predicted female mate choice better than aggression predictability. Females showed a directional preference for aggressive males over docile males regardless of female aggression or male aggression predictability. Predictable aggressive males were also more likely to win contests. Our results suggest that both female mate choice and male–male competition favour males with high aggression, and thus total sexual selection that acts on male aggression may be reinforcing. These findings also highlight that male S. semiglaucus with a higher level of aggression may have better reproductive performance.

Published

2021

35. Prey interception drives web invasion and spider size determines successful web takeover in nocturnal orb-web spiders

Author

Wenjin Gan, Shengjie Liu, Xiaodong Yang, Daiqin Li, and Chaoliang Lei

Subjects

Conspecific competition, Web invasion, Intruder, Nocturnal, Prey abundance, Orb spiders, Science, Biology (General), QH301-705.5

Abstract

A striking feature of web-building spiders is the use of silk to make webs, mainly for prey capture. However, building a web is energetically expensive and increases the risk of predation. To reduce such costs and still have access to abundant prey, some web-building spiders have evolved web invasion behaviour. In general, no consistent patterns of web invasion have emerged and the factors determining web invasion remain largely unexplored. Here we report web invasion among conspecifics in seven nocturnal species of orb-web spiders, and examined the factors determining the probability of webs that could be invaded and taken over by conspecifics. About 36% of webs were invaded by conspecifics, and 25% of invaded webs were taken over by the invaders. A web that was built higher and intercepted more prey was more likely to be invaded. Once a web was invaded, the smaller the size of the resident spider, the more likely its web would be taken over by the invader. This study suggests that web invasion, as a possible way of reducing costs, may be widespread in nocturnal orb-web spiders.

Published

2015

36. A genus-level taxonomic review of primitively segmented spiders (Mesothelae, Liphistiidae)

Author

Xu Xin, Fengxiang Liu, Jian Chen, Hirotsugu Ono, Daiqin Li, and Matjaž Kuntner

Subjects

Zoology, QL1-991

Abstract

The spider suborder Mesothelae, containing a single extant family Liphistiidae, represents a species-poor and ancient lineage. These are conspicuous spiders that primitively retain a segmented abdomen and appendage-like spinnerets. While their classification history is nearly devoid of phylogenetic hypotheses, we here revise liphistiid genus level taxonomy based on original sampling throughout their Asian range, and on the evidence from a novel molecular phylogeny. By combining morphological and natural history evidence with phylogenetic relationships in the companion paper, we provide strong support for the monophyly of Liphistiidae, and the two subfamilies Liphistiinae and Heptathelinae. While the former only contains Liphistius Schiödte, 1849, a genus distributed in Indonesia (Sumatra), Laos, Malaysia, Myanmar, Thailand, we recognize and diagnose seven heptatheline genera, all but three removed from the synonymy of Heptathela: i) Ganthela Xu & Kuntner, gen. n. with the type species G. yundingensis Xu, sp. n. is known from Fujian and Jiangxi, China; ii) a rediagnosed Heptathela Kishida, 1923 is confined to the Japanese islands (Kyushu and Okinawa); iii) Qiongthela Xu & Kuntner, gen. n. with the type species Q. baishensis Xu, sp. n. is distributed disjunctly in Hainan, China and Vietnam; iv) Ryuthela Haupt, 1983 is confined to the Ryukyu archipelago (Japan); v) Sinothela Haupt, 2003 inhabits Chinese areas north of Yangtze; vi) Songthela Ono, 2000 inhabits southwest China and northern Vietnam; and vii) Vinathela Ono, 2000 (Abcathela Ono, 2000, syn. n.; Nanthela Haupt, 2003, syn. n.) is known from southeast China and Vietnam.

Published

2015

37. Discoid decorations function to shield juvenile Argiope spiders from avian predator attacks

Author

Zengtao Zhang, Daiqin Li, Shichang Zhang, Long Yu, Nina Ma, Qian Liu, Wenrui Fan, Yu Rong, and Bingjun Wang

Subjects

Zoology, Juvenile, Animal Science and Zoology, Biology, Argiope, biology.organism_classification, Predator, Ecology, Evolution, Behavior and Systematics

Abstract

Decorating behavior is common in various animal taxa and serves a variety of functions from camouflage to communication. One predominant function cited for decoration is to avoid predators. Conspicuous, disc-like (discoid) silk decorations spun by orb-web Argiope juvenile spiders are hypothesized, among others, to defend spiders against visual predators by concealing spider outlines on the web, deflecting attacks, shielding them from view, or masquerading as bird-droppings. However, the direct evidence is limited for a specific mechanism by which discoid decorations may deter predators. Here we evaluate the mechanisms by which discoid decorations may defend Argiope juveniles against naïve chicks. Using visual modeling, we show that avian predators are able to distinguish spiders from discoid decorations. Using chick predation experiments, we found that the naïve chicks readily pecked any objects, ruling out the possibility of their neophobia. Significantly more chicks attacked spiders when they were exposed to chicks, regardless of whether their webs had discoid decorations, but few chicks attacked spiders when they were behind the decorations. We also found that significantly few chicks attacked decorations when spiders were absent or behind the decorations. We thus conclude that discoid decorations function to deter avian predators by shielding the spider from view or distracting, not by deflecting attacks, concealing the spider’s outline, or masquerading as bird-droppings. This study sheds light on the study of other similar anti-predator strategies, in a wide range of spider species and other animals that use decorating strategies.

Published

2021

38. Application of virome capture sequencing in shellfish sold at retail level in Singapore

Author

Daiqin Li, J.J.H. Chu, M.T.H. Tan, and S.X. Ho

Subjects

Oyster, viruses, Food Contamination, medicine.disease_cause, Applied Microbiology and Biotechnology, Virus, law.invention, Hepatitis E virus, law, biology.animal, Rotavirus, medicine, Animals, Humans, Human virome, Shellfish, Polymerase chain reaction, Singapore, biology, Reverse Transcriptase Polymerase Chain Reaction, Virome, Norovirus, Ostreidae, Virology, RNA, Viral

Abstract

During the period from late 2019 to early 2020, we performed a foodborne virus detection from shellfish collected in Singapore at retail level. Multiple human enteric viruses were included as our targets including human noroviruses (NoVs) GI and GII, hepatitis A virus, hepatitis E virus and rotavirus. Out of the 60 shellfish samples, 23 (38·3%) were detected to be positive by reverse transcription-quantitative polymerase chain reaction (RT-qPCR) with human enteric viruses. Six samples were selected to proceed with virome capture sequencing with positive control samples spiked with serially diluted NoV GII clinical samples in oyster extract. As a result, the natural sample with comparable Ct values (34·0-35·0) of the spiked sample as detected by RT-qPCR generated much lower read counts (>7-log2 cumulative sum scaling difference) and genome coverage (406 nt. vs 3715 nt.), suggesting that the RT-qPCR positive signals detected from the shellfish samples collected at the retail market were likely from degraded RNA derived from inactive virus particles.

Published

2021

39. Masquerading predators deceive prey by aggressively mimicking bird droppings in a crab spider

Author

Long Yu, Xin Xu, Zengtao Zhang, Christina J Painting, Xiaodong Yang, and Daiqin Li

Subjects

Animal Science and Zoology

Abstract

In aggressive mimicry, a predator accesses prey by mimicking the appearance and/or behavior of a harmless or beneficial model in order to avoid being correctly identified by its prey. The crab spider genus Phrynarachne is often cited as a textbook example of masquerading as bird droppings (BDs) in order to avoid predation. However, Phrynarachne spiders may also aggressively mimic BDs in order to deceive potential prey. To date, there is no experimental evidence to support aggressive mimicry in masquerading crab spiders; therefore, we performed a field survey, a manipulative field experiment, and visual modeling to test this hypothesis using Phrynarachne ceylonica. We compared prey-attraction rates among BDs, spiders, and control empty leaves in the field. We found that although all prey combined and agromyzid dipterans, in particular, were attracted to BDs at a higher rate than to spiders, other dipterans and hymenopterans were attracted to BDs at a similar rate as to spiders. Both spiders and BDs attracted insects at a significantly higher rate than did control leaves. As predicted, prey was attracted to experimentally blackened or whitened spiders significantly less frequently than to unmanipulated spiders. Finally, visual modeling suggested that spiders and BDs can be detected by dipterans and hymenopterans against background leaves, but they are indistinguishable from each other. Taken together, our results suggest that insects lured by spiders may misidentify them as BDs, and bird-dropping masquerading may serve as aggressive mimicry in addition to predator avoidance in P. ceylonica.

Published

2021

40. The deep phylogeny of jumping spiders (Araneae, Salticidae)

Author

Wayne Maddison, Daiqin Li, Melissa Bodner, Junxia Zhang, Xu Xin, Qinqing Liu, and Fengxiang Liu

Subjects

Zoology, QL1-991

Abstract

In order to resolve better the deep relationships among salticid spiders, we compiled and analyzed a molecular dataset of 169 salticid taxa (and 7 outgroups) and 8 gene regions. This dataset adds many new taxa to previous analyses, especially among the non-salticoid salticids, as well as two new genes – wingless and myosin heavy chain. Both of these genes, and especially the better sampled wingless, confirm many of the relationships indicated by other genes. The cocalodines are placed as sister to lapsiines, in a broader clade with the spartaeines. Cocalodines, lapsiines, and spartaeines are each supported as monophyletic, though the first two have no known morphological synapomorphies. The lyssomanines appear to be non-monophyletic, of three separate groups: (1) Lyssomanes plus Chinoscopus, (2) Onomastus, and (3) the remainder of Old World species. Several previously-inferred relationships continue to be supported: hisponines as sister to the Salticoida, Amycoida as sister to the remaining Salticoida, and Saltafresia as monophyletic. The relationship of Salticus with Philaeus and relatives is now considered well enough corroborated to move the latter into the subfamily Salticinae. A new clade consisting of the Plexippoida + Aelurilloida + Leptorchesteae + Salticinae is recognized. Nungia is found to be an astioid, and Echeclus, Gedea and Diplocanthopoda to be hasariines. The euophryines are corroborated as monophyletic. The agoriines Agorius and Synagelides are salticoids, within the sister group to amycoids, but their further placement is problematical, perhaps because of their nuclear ribosomal genes’ high GC bias, as also seen in the similarly problematic Eupoa.

Published

2014

41. Spider Silks: An Overview of Their Component Proteins for Hydrophobicity and Biomedical Applications

Author

Daiqin Li, Qiong Shi, Fan Li, and Chao Bian

Subjects

0106 biological sciences, 0301 basic medicine, Spider, Spidroin, Biocompatible Materials, Spiders, General Medicine, Biology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Evolution, Molecular, 03 medical and health sciences, 030104 developmental biology, SILK, Structural Biology, Evolutionary biology, medicine, Animals, Spider silk, medicine.symptom, Fibroins, Phylogeny, Confusion

Abstract

Spider silks have received extensive attention from scientists and industries around the world because of their remarkable mechanical properties, which include high tensile strength and extensibility. It is a leading-edge biomaterial resource, with a wide range of potential applications. Spider silks are composed of silk proteins, which are usually very large molecules, yet many silk proteins still remain largely underexplored. While there are numerous reviews on spider silks from diverse perspectives, here we provide a most up-to-date overview of the spider silk component protein family in terms of its molecular structure, evolution, hydrophobicity, and biomedical applications. Given the confusion regarding spidroin naming, we emphasize the need for coherent and consistent nomenclature for spidroins and provide recommendations for pre-existing spidroin names that are inconsistent with nomenclature. We then review recent advances in the components, identification, and structures of spidroin genes. We next discuss the hydrophobicity of spidroins, with particular attention on the unique aquatic spider silks. Aquatic spider silks are less known but may inspire innovation in biomaterials. Furthermore, we provide new insights into antimicrobial peptides from spider silk glands. Finally, we present possibilities for future uses of spider silks.

Published

2021

42. Three new species of the primitively segmented spider genus Songthela (Araneae, Mesothelae) from Guizhou Province, China

Author

Xin Xu, Zhaoyang Chen, Daiqin Li, and Dengqing Li

Subjects

0106 biological sciences, Asia, Liphistiidae, Arthropoda, 010607 zoology, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, COI, taxonomy, Genus, Arachnida, morphology, Mesothelae, Animalia, Ecology, Evolution, Behavior and Systematics, Spider, Songthela, biology, Heptathelinae, Cytochrome c oxidase subunit I, biology.organism_classification, QL1-991, Evolutionary biology, GenBank, trapdoor spiders, Araneae, Animal Science and Zoology, Taxonomy (biology), Zoology, Research Article

Abstract

We diagnose and describe three new species of the primitively segmented spider genus Songthela from Guizhou Province, China, based on morphological characters and molecular data: S. liuisp. nov. (♂♀), S. tianzhusp. nov. (♂♀), and S. yupingsp. nov. (♂♀). We provide the genetic distances within and among the three new species based on the DNA barcode gene, cytochrome c oxidase subunit I (COI) to support our descriptions. We also provide the COI GenBank accession codes for the three new species for future identification.

Published

2021

43. Sexual selection on jumping spider color pattern: investigation with a new quantitative approach

Author

Daiqin Li, Hua Zeng, Bernetta Zi Wei Kwek, Wei Zhou, Long Yu, and Ge Jin

Subjects

0106 biological sciences, 0303 health sciences, genetic structures, biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Jumping spider, 03 medical and health sciences, Evolutionary biology, Sexual selection, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

How animals assess information encoded in individual color patches have been extensively studied, yet the role of both individual color patches and gross color pattern (i.e., the combination of color patches) remains understudied. We tested the functioning of both individual color patches and gross color pattern in sexual selection using the jumping spider Siler semiglaucus as a study system. We first quantified sexual dimorphism in S. semiglaucus in both individual patches and gross color pattern using the newly developed quantitative color pattern analysis (QCPA) framework. After detecting sexual differences in color coverage and pattern contrast, we manipulated the abdomen color pattern of males and had them engage in both female mate choice and male contest trials. Females spent more time watching males with lower pattern contrast and greater red coverage during mate assessment, suggesting that they evaluate information from both individual patches and gross color pattern of males. However, male color pattern had no significant effect on the outcomes of male contests. Thus, we suggest that the observed sexual color pattern dimorphism evolved primarily through female mate choice in S. semiglaucus. This is the first study to use QCPA framework to quantify sexual dimorphism in within-pattern conspicuousness from an intraspecific perspective in invertebrates. Our study also highlights the importance of both individual color patches and gross color pattern in sexual selection.

Published

2021

44. Male spiders avoid sexual cannibalism with a catapult mechanism

Author

Shichang Zhang, Yangjié Liu, Yubing Ma, Hao Wang, Yao Zhao, Matjaž Kuntner, and Daiqin Li

Subjects

Male, Sexual Behavior, Animal, Reproduction, Animals, Cannibalism, Spiders, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, sexual cannibalism, catapult, spider, behavior, sexual conflict

Abstract

The animal world provides numerous examples of mechanisms that allow for extremely fast actions or reactions via slowly storing energy, typically into elastic structures, that is then nearly instantly released, similar to the operation of a catapult. While these mechanisms are usually employed for prey capture or for predator avoidance, such superfast actions have not been reported as a mechanism to dodge sexual cannibalism. Here, we unveil a novel mechanism in a communal orb-weaving spider Philoponella prominens (Uloboridae) , whereby males undertake a split-second catapult action immediately after mating, thereby fleeing their partner. We demonstrate that males achieve their superfast action (up to 88.2 cm/s) by extending the tibia–metatarsus joint of their first leg pair via hydraulic pressure in a joint that is known to lack extensor muscles across spiders. This rapid expansion greatly reduces the likelihood of the male being sexually cannibalized.

Published

2022

45. Detritus decorations as the extended phenotype deflect avian predator attack in an orb‐web spider

Author

Luyao Chen, Deyong Gong, Nina Ma, Long Yu, Jing Luo, Zhizhao Chen, Yubing Ma, Hua Zeng, Zeyuan Hua, Aijia Mao, Ruxing Cai, Daiqin Li, Zengtao Zhang, and Shichang Zhang

Subjects

Orb (astrology), Spider, Detritus, Ecology, Predator attack, Biology, Phenotype, Ecology, Evolution, Behavior and Systematics

Published

2020

46. The evolution of autotomy in leaf‐footed bugs

Author

Michael Forthman, Ummat Somjee, Colette M. St. Mary, Daiqin Li, Wei Song Hwang, Cody Coyotee Howard, Rebecca T. Kimball, Philip W. Bateman, Christine W. Miller, and Zachary Emberts

Subjects

0106 biological sciences, 0301 basic medicine, latitudinal gradient, Zoology, evolutionary origins, Biology, 010603 evolutionary biology, 01 natural sciences, Predation, Heteroptera, 03 medical and health sciences, Genetics, Animals, Ecology, Evolution, Behavior and Systematics, Appendage, Behavior, Animal, Autotomy, Extremities, Original Articles, Exaptation, Phylogenetic comparative methods, Alydidae, biology.organism_classification, Biological Evolution, Hemiptera, 030104 developmental biology, Predatory Behavior, phylogenetic comparative methods, evolutionary ecology, predator‐prey, Original Article, Evolutionary ecology, General Agricultural and Biological Sciences

Abstract

Sacrificing body parts is one of many behaviors that animals use to escape predation. This trait, termed autotomy, is classically associated with lizards. However, several other taxa also autotomize, and this trait has independently evolved multiple times throughout Animalia. Despite having multiple origins and being an iconic antipredatory trait, much remains unknown about the evolution of autotomy. Here, we combine morphological, behavioral, and genomic data to investigate the evolution of autotomy within leaf‐footed bugs and allies (Insecta: Hemiptera: Coreidae + Alydidae). We found that the ancestor of leaf‐footed bugs autotomized and did so slowly; rapid autotomy (

Published

2020

47. Delimitation of the segmented trapdoor spider genus Luthela gen. nov., with comments on the genus Sinothela from northern China (Araneae, Mesothelae, Liphistiidae)

Author

XIN XU, LI YU, FENGXIANG LIU, and DAIQIN LI

Subjects

Male, China, Liphistiidae, Arthropoda, Spiders, Biodiversity, Arachnida, Animalia, Araneae, Animals, Animal Science and Zoology, Female, Animal Distribution, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

A new genus of the primitively segmented trapdoor spiders, which is endemic to the north of China, is described, Luthela gen. nov., and the status of Sinothela Haupt, 2003 and Sinothela sinensis (Bishop & Crosby, 1932) is discussed and both are treated as nomina dubia. The new genus Luthela gen. nov. is erected based on morphology and molecular data of the type species Luthela yiyuan sp. nov. A taxonomic revision of the new genus is given. Three Sinothela species are transferred to the new genus, L. luotianensis comb. nov. and L. schensiensis comb. nov. are redescribed using our newly collected specimens, include L. heyangensis comb. nov. as a junior synonym of L. schensiensis comb. nov., and describe six new species based on both male and female morphological characters: L. badong sp. nov., L. dengfeng sp. nov., L. handan sp. nov., L. taian sp. nov., L. yiyuan sp. nov., and L. yuncheng sp. nov.

Published

2022

48. Conspicuous cruciform silk decorations deflect avian predator attacks

Author

Bingjun WANG, Long YU, Nina MA, Zengtao ZHANG, Deyong GONG, Rui LIU, Daiqin LI, and Shichang ZHANG

Subjects

Birds, Predatory Behavior, Silk, Animals, Animal Science and Zoology, Female, Spiders

Abstract

Although camouflage as an effective antipredator defense strategy is widespread across animals, highly conspicuous color patterning is not uncommon either. Many orb-web spiders adorn their webs with extra bright white silk. These conspicuous decorations are hypothesized to deter predators by warning the presence of sticky webs, camouflaging spiders, acting as a decoy, or intimidating predators by their apparent size. The decorations may also deflect predator attacks from spiders. However, empirical evidence for this deflection function remains limited. Here, we tested this hypothesis using the X-shaped silk cruciform decorations built by females of Argiope minuta. We employed visual modeling to quantify the conspicuousness of spiders and decorations from a perspective of avian predators. Then, we determined actual predation risk on spiders using naïve chicks as predators. Spider bodies and decorations were conspicuous against natural backgrounds to the avian visual systems. Chicks attacked the spider main bodies significantly less frequently on the decorated webs than on the undecorated webs, thus reducing predation risk. When both spiders and decorations were present, chicks also attacked the spider main bodies and their legs or decorations, and not randomly: they attacked the legs or decorations sooner and more frequently than they attacked the main bodies, independent of the ratio of the surface area between the decoration and spider size. Despite the increase in detectability, incorporating a conspicuous cruciform decoration to the web effectively defends the spider by diverting the attack toward the decoration or leg, but not by camouflaging or intimidating, thus, supporting the deflection hypothesis.

Published

2021

49. Predator perception of detritus and eggsac decorations spun by orb-web spiders Cyclosa octotuberculata: Do they function to camouflage the spiders?

Author

Wenjin GAN, Fengxiang LIU, Zengtao ZHANG, Daiqin LI

Subjects

Spider, Web decorations, Cyclosa octotuberculata, Camouflage, Chromatic contrast, Achromatic contrast, Zoology, QL1-991

Abstract

Camouflage is one of the most widespread and powerful strategies that animals use to make detection/recognition more difficult. Many orb-web spiders of the genus Cyclosa add prey remains, plant debris, moults, and/or eggsacs to their webs called web decorations. Web decorations resembling spider body colour pattern have been considered to camouflage the spider from predators. While this camouflage is obvious from a human’s perspective, it has rarely been investigated from a predator’s perspective. In this study, we tested the visibility of web decorations by calculating chromatic and achromatic contrasts of detritus and eggsac decorations built by Cyclosa octotuberculata, against four different backgrounds viewed by both bird (e.g., blue tits) and hymenopteran (e.g. wasps) predators. We showed that both juvenile and adult spiders on webs with detritus or egg-sac decorations were undetectable by both hymenopteran and bird predators over short and long distances. Our results thus suggest that decorating webs with detritus or eggsacs by C. octotuberculata may camouflage the spider from both hymenopteran and bird predators in their common habitats [Current Zoology 56 (3): 379–387, 2010].

Published

2010

50. Phylogenetic placement and species delimitation of the crab spider genus Phrynarachne (Araneae: Thomisidae) from China

Author

Xin Xu, Long Yu, Fan Li, Bingjun Wang, Fengxiang Liu, and Daiqin Li

Subjects

China, Genetics, Animals, Spiders, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Mitochondria

Abstract

Evolutionary biologists have long been fascinated by the striking resemblance to bird droppings of the sit-and-wait crab spiders of the genus Phrynarachne. In doing so, species of Phrynarachne have evolved not to avoid detection, but rather, to cause predators to misidentify them as inedible and/or inanimate bird droppings. However, the lack of a phylogeny for Phrynarachne impedes our understanding of the evolution of this trait in the genus. Here we explore species boundaries in species of Phrynarachne from China using single- and multi-locus species delimitation approaches based on 30 Phrynarachne samples. All species delimitation approaches supported six species of Phrynarachne in China. We further present the first phylogenetic analysis of the genus Phrynarachne and estimate divergence times using two mitochondrial and three nuclear genes. All of our phylogenetic analyses supported the monophyly of Phrynarachne in China, with the genus still included within the higher 'Thomisus group' based on our results. Our dating analyses place the crown age of Phrynarachne in China to the middle Miocene. Taken together, our study provides a time-calibrated phylogeny of the genus Phrynarachne in China for testing hypotheses regarding the evolution of the lineage and bird dropping masquerade.

Published

2021