Jason Bond, the Evert and Marion Schlinger Endowed Chair in the UC Davis Department of Entomology and Nematology

In lekking, certain species of males in the animal world, including black grouse, peacock and owl parrots, congregate in a courtship ritual to entice females to mate with them. This is unusual because spiders are notoriously solitary and cannibalistic.

Two UC Davis spider experts played a key role in analyzing the genetics of this spider. The new species is an orb weaver named Isoxya manangona. Its species name is derived from the Malagasy verb meaning to "gather" or "aggregate."

Jason Bond, the Evert and Marion Schlinger Endowed Chair in the UC Davis Department of Entomology and Nematology and project scientist James Starrett headed the genetic analysis. The research paper was recently published in the journal, Insect Systematics and Diversity.

“This paper is significant in a number of respects including the discovery of a new species of orb web-weaving spider that is social; most spiders are solitary predators that are cannibalistic,” said Bond, who doubles as associate dean, UC Davis College of Agricultural and Environmental Sciences. “Although additional behavioral studies are needed to confirm, what is particularly interesting about this paper is that we report what is likely the first known observation of lekking behavior in spiders.”

James Starrett, project scientist, Jason Bond lab

Ingi Agnarsson, a professor of zoology at the University of Iceland and the Smithsonian Institution, Washington, D.C., headed the international team of researchers.

While looking for bark spiders in the rainforests of Andasibe-Mantadia National Park, the scientists observed large colonies of interconnected webs, built by what they later determined to be a new species.

In examining the webs,  the researchers noticed multiple males gathering close together, sometimes touching, in a central, nonsticking line.  They counted up to 41 interconnected, single-cohort adult female webs with up to 38 adult males aggregating on a central, single, nonsticky line.

In all, their mile-long research area yielded 22 spider colonies, ranging from 2 to 79 spiders in webs two inches to almost eight inches in size.  The spiders are dark gray with black coloring and large protruding spines. The females are about 0.2 inches in size, with “cryptic yellow markings.” The males are smaller but with no yellow markings.

“Spiders are notoriously solitary and cannibalistic, with instances of colonial or social lifestyles in only about 50-60, or ~0.1% of 50,000 described species,” the authors wrote in their abstract. “Population analyses indicate that most colonies consist of multiple cohorts formed by close relatives. Territorial social spiders facultatively form colonies by interlinking individual webs, but further cooperation is infrequent, and only among juveniles or (rarely) females. In spiders therefore, aggregations of males outside of the male-male competition context has been unknown.” 

The researchers noted that the males were “resting tightly together,” but they found “no evidence” of male-male aggression. “Genetic analyses from RAD sequencing suggest that most colonies consist of unrelated individuals,” they wrote in their abstract. “Furthermore, genetic variability of males was somewhat less than that of females. Single cohort colonies made up purely of adults, and peaceful male aggregations, have not previously been observed in spiders. Although direct behavioral observations are preliminary, we speculate based on the available evidence that these colonies may represent a novel and first case of lekking in spiders.”

Since it was near the end of the field season, the researchers had no opportunity for more observations, and never witnessed mating.

Other co-authors of the paper are Zachary Babbitz of Boston College, Matjaž Gregoric of the Slovenian Academy of Sciences and Arts, Onjaherizo Christian Raberahona of the University of Madagascar; Steven Williams, Oxford Brookes University, UK, and Matjaž Kuntner of the Smithsonian Institution. 

Starrett, who joined the Bond lab in 2018, holds a doctorate in genetics, genomics and bioinformatics from UC Riverside. He is a former postdoctoral fellow (2016-2018) in the Jason Bond lab at Auburn University. Professor Bond joined the UC Davis faculty in 2018 from Auburn University, where he directed its Museum of Natural History (2011–2016),  and served as professor and chair of the Auburn Department of Biological Sciences (2016–2018).  

Project scientist James Starrett of Jason Bond lab

Professor Jason Bond, Evert and Marion Schlinger Endowed Chair

In lekking, certain species of males in the animal world, including black grouse, peacock and owl parrots, congregate in a courtship ritual to entice females to mate with them. This is unusual because spiders are notoriously solitary and cannibalistic. 

Jason Bond, the Evert and Marion Schlinger Endowed Chair in the UC Davis Department of Entomology and Nematology and project scientist James Starrett headed the genetic analysis. The research paper was recently published in the journal, Insect Systematics and Diversity.

“This paper is significant in a number of respects including the discovery of a new species of orb web-weaving spider that is social; most spiders are solitary predators that are cannibalistic,” said Bond, who doubles as associate dean, UC Davis College of Agricultural and Environmental Sciences. “Although additional behavioral studies are needed to confirm, what is particularly interesting about this paper is that we report what is likely the first known observation of lekking behavior in spiders.”

The paper, “Discovery and Genetic Characterization of Single Cohort Adult Colonies With Male Aggregations, and Preliminary Evidence for Lekking in a Malagasy Kite Spider (Isoxya, Gasteracanthinae),” is drawing worldwide attention, including a piece, “Spider Solidarity: Scientists Discover New Species With Unprecedented Social Behavior,” in Entomology Today, a publication of the 7000-member Entomological Society of America.

Ingi Agnarsson, a professor of zoology at the University of Iceland and the Smithsonian Institution, Washington, D.C., headed the international team of researchers.

While looking for bark spiders in the rainforests of Andasibe-Mantadia National Park, the scientists observed large colonies of interconnected webs, built by what they later determined to be a new species.

In examining the webs,  the researchers noticed multiple males gathering close together, sometimes touching, in a central, nonsticking line.  They counted up to 41 interconnected, single-cohort adult female webs with up to 38 adult males aggregating on a central, single, nonsticky line.

In all, their mile-long research area yielded 22 spider colonies, ranging from 2 to 79 spiders in webs two inches to almost eight inches in size.  The spiders are dark gray with black coloring and large protruding spines. The females are about 0.2 inches in size, with “cryptic yellow markings.” The males are smaller but with no yellow markings.

They named the new species Isoxya manangona, derived from the Malagasy verb for “gather” or “aggregate.” 

“Spiders are notoriously solitary and cannibalistic, with instances of colonial or social lifestyles in only about 50-60, or ~0.1% of 50,000 described species,” the authors wrote in their abstract. “Population analyses indicate that most colonies consist of multiple cohorts formed by close relatives. Territorial social spiders facultatively form colonies by interlinking individual webs, but further cooperation is infrequent, and only among juveniles or (rarely) females. In spiders therefore, aggregations of males outside of the male-male competition context has been unknown.” 

The researchers noted that the males were “resting tightly together,” but they found “no evidence” of male-male aggression. “Genetic analyses from RAD sequencing suggest that most colonies consist of unrelated individuals,” they wrote in their abstract. “Furthermore, genetic variability of males was somewhat less than that of females. Single cohort colonies made up purely of adults, and peaceful male aggregations, have not previously been observed in spiders. Although direct behavioral observations are preliminary, we speculate based on the available evidence that these colonies may represent a novel and first case of lekking in spiders.”

Since it was near the end of the field season, the researchers had no opportunity for more observations, and never witnessed mating.

Other co-authors of the paper are Zachary Babbitz of Boston College, Matjaž Gregoric of the Slovenian Academy of Sciences and Arts, Onjaherizo Christian Raberahona of the University of Madagascar; Steven Williams, Oxford Brookes University, UK, and Matjaž Kuntner of the Smithsonian Institution. 

Starrett, who joined the Bond lab in 2018, holds a doctorate in genetics, genomics and bioinformatics from UC Riverside. He is a former postdoctoral fellow (2016-2018) in the Jason Bond lab at Auburn University. Professor Bond joined the UC Davis faculty in 2018 from Auburn University, where he directed its Museum of Natural History (2011–2016),  and served as professor and chair of the Auburn Department of Biological Sciences (2016–2018).  

Scorpion anatomy, courtesy of Wikipedia

Access Wikipedia, and you'll learn they have eight legs, a pair of grasping pincers, and generally, a narrow, segemented tail that's curved over the back and ends with a stinger. They prey primarily on insects and other invertebrates. Their ancestors date back some 435 million years ago.

Scorpions now live on all continents except Antarctica. Scientists have described more than 2,500 described species in 22 families.  The most venomous scorpion? That's considered to be "the deathstalker," Leiurus quinquestriatus, belonging to the Buthidae family.

What makes the deathstalker's venom so lethal is a potent cocktail of neurotoxins including chlorotoxin, agitoxin and scyllatoxin. While extremely dangerous, the unique chemical composition and scarcity of its venom also makes it the most valuable liquid (by volume) in the world with an estimated cost of $39 million per gallon. It is prized by the medical community because its properties have been found to be effective in the treatment of cancer, malaria and against bacteria such as tuberculosis.--Guinness Book of World Records.

Most people have never seen a scorpion up close, but visitors did at the Bohart Museum of Entomology display in the Academic Surge Building, 455 Crocker Lane, during the 12th annual UC Davis Biodiversity Museum Day.

Live scorpions, as well as specimens, drew curious looks and scores of questions.

Kat Taylor, a UC Davis freshman majoring in entomology, helped with a display coordinated by the Jason Bond arachnology lab. Bond, an authority on spiders, tarantulas and scorpions (among other arachnids) serves as the Evert and Marion Schlinger Endowed Chair in Insect Systematics, UC Davis Department of Entomology and Nematology, and the associate dean, College of Agricultural and Environmental Sciences.

The Bond lab display included sun scorpions, also known as wind scorpions, order Solifugae; and whip spiders or tailless whip scorpions, order Amblypygi.

Senior insect biosystematist Martin Hauser of the Plant Pest Diagnostics Branch, California Department of Food and Agriculture, and a traditional part of Biodiversity Museum Day, displayed Asian forest scorpions (genus Heterometrus) and two walking sticks (order Phasmida): Extatosoma tiaratum, the Australian spiny walking stick, and Ramulus artemis, a giant Vietnamese stick insect known as "a great thin walking stick."

Visitors marveled when Martin fluoresced a scorpion under ultraviolet light, turning it from an obscure brown to a glowing blue-green.

Scientists have known for more than 60 years that fluorescent compounds in the exoskeletons glow when exposed to UV light.

The 12th annual Biodiversity Museum Day showcased 11 museums and collections: the Anthropology Museum, Arboretum and Public Garden, Bohart Museum of Entomology, Botanical Conservatory, California Raptor Center, Center for Plant Diversity, Nematode Collection, Marine Invertebrate Collection, Museum of Wildlife and Fish Biology, Paleontology Collection and the Phaff Yeast Culture Collection. 

BioDiv Day, founded by the Bohart Museum, is traditionally held on Presidents' Day weekend. This year's event, held Feb. 18, drew an estimated 3000, according to chair Tabatha Yang, education and outreach coordinator of the Bohart Museum. The "Super Science Day" is free and family friendly. 

The Bohart Museum and the Jason Bond lab are both located in the Academic Surge Building. The Bohart Museum, located in Room 1124 and directed by UC Davis distinguished professor Lynn Kimsey, houses a worldwide collection of eight million insect specimens, plus a live "petting zoo" and a gift shop. The Bohart Museum is open to the public Monday through Thursday, from 8 a.m. to noon and from 1 to 5 p.m.

The next event to see insects and arachnids in the Academic Surge Building? That would Saturday, April 15 during the 109th annual UC Davis Picnic Day. It is free and open to the public. 

UC Davis postdoctoral scholar and arachnologist Lisa Chamberland.

Her seminar also will be virtual. The Zoom link is https://ucdavis.zoom.us/j/95882849672. A coffee social will take place  in 158 Briggs from 3:30 to 4:10 p.m.  

Chamberland is a member of the laboratory of Jason Bond, associate dean, UC Davis College of Agricultural and Natural Resources, and professor and the Evert and Marion Schlinger Endowed Chair, UC Davis Department of Entomology and Nematology. 

“Net-casting spiders (Deinopidae) comprise three genera with enigmatic evolutionary histories. Deinopisand Asianopis, the ogre-faced spiders, are best known for their giant light-capturing posterior median eyes (PME), whereas Menneus does not have enlarged PMEs,” Chamberland says in her abstract. “Molecular phylogenetic studies have revealed discordance between morphology and molecular data. We employed a character-rich, ultra-conserved element (UCE) dataset and a taxon-rich cytochrome oxidase I (COI) dataset to reconstruct a genus-level phylogeny of Deinopidae, aiming to investigate the group's historical biogeography, and examine PME size evolution. Although the phylogenetic results support the monophyly of Menneus and the single reduction of PME size in deinopids, these data also show that Deinopis is not monophyletic. Deinopid biogeographic history reflects the separation of Western Gondwana as well as long-distance dispersal events.” 

Chamberland, who studies the evolution and biogeography of spiders, joined the Bond lab in 2021. She holds a doctorate in biology (2020) from the University of Vermont, Burlington, where she studied with Ingi Agnarsson. Her dissertation:  "From Gondwana to GAARlandia: Molecular Phylogenetics and Historical Biogeography of Spiders." She received her bachelor's degree in biology and anthropology in 2013 from the University of Vermont. 

“As an undergraduate at the University of Vermont, I was introduced to deinopids, the ogre-faced spiders, and it was love at first sight,” Chamberland related. “With a wide range of dispersal propensities and diverse hunting strategies, spiders have been a rich source for me to explore biogeographic and evolutionary questions. I would like to continue my work with historical biogeography and spiders after my postdoc and help foster the upcoming generation of arachnologists. I enjoy teaching, especially through the lens of phylogenetics and systematics, and I am working towards finding a teaching career where I can teach, mentor, and continue to ask evolutionary questions.” 

Chamberland is the lead author of “Biogeography and Eye Evolution of the Ogre-faced Spiders," published Oct. 22, 2022 in Scientific Reports and co-authored by Ingi Agnarsson, Iris Quayle, Tess Ruddy, James Starrett and Jason Bond. 

Chamberland and Bond co-hosted the 2022 American Arachnological Society Summer Symposium at UC Davis and she also delivered a research presentation at the symposium. At both UC Davis and at the University of Vermont, she has led and taught lab and field techniques, molecular methods and data analyses, and arachnology to high school, undergraduate, and graduate students, resulting in publications on systematics, evolution, and biogeography of spiders.

She earlier served as the invertebrate collections manager at the Zadock Thompson Zoological Collections (2020-2021), University of Vermont. 

The department seminars, coordinated by urban landscape entomologist Emily Meineke, assistant professor, are held on Wednesdays through March 15. (See schedule.) Eight of the 10 will be in-person in 122 Briggs Hall,  and all will be virtual.