- Author: Kathy Keatley Garvey
Extra, extra, read all about it!
This "extra" has nothing to do with a special edition of a newspaper.
This "extra" deals with something that may puzzle you.
This "extra" refers to the passionflower vine (Passiflora), the host plant of the Gulf Fritillary butterfly (Agraulis vanillae).
About this time of year, the Gulf Frit caterpillars have probably skeletonized your passionflower vine. It's the Halloween poster child of the plant world.
But why, then, are honey bees foraging on a flowerless Passiflora? Their activity has nothing to do with pollination. They're foraging on the leaves and stems. And they're not seeking water.
Extension apiculturist (emeritus) Eric Mussen, UC Davis Department of Entomology and Nematology, answered that question with three little words: "Extra-floral nectary."
Extra-floral nectary.
It's a subject unfamiliar to many non-botanists and non-biologists.
Wikipedia describes it this way: "Nectar is a sugar-rich liquid produced by plants in glands called nectaries, either within the flowers with which it attracts pollinating animals, or by extrafloral nectaries, which provide a nutrient source to animal mutualists, which in turn provide antiherbivore protection."
Lenore Durkee of Grinnell (Iowa) College wrote a scientific paper, "The Floral and Extra-Floral Nectaries of Passiflora," published in the October 1982 edition of the American Journal of Botany, that answers the question and explains the phenomenon.
She defined extra-floral nectaries as "glands that secrete primarily sugars and are found on the vegetative portions of many species of plants."
In her research, Durkee studied the extra-floral nectaries of nine species of Passiflora with light and electron microscopy prior to and during secretion. In her abstract, meant for botanists, she wrote: "There is no evidence of ER or Golfi participation in the secretion of nectar. The vascular tissue supplying the nectary is characterized by companion and pholem parenchyma cells which are usually larger than the sieve elements, a configuration similar to that found in leaf minor veins. In the petiolar nectaries, large masses of membrane-bound protein are commonly found in these cells. This protein is absent in laminar nectaries."
That's probably TMI (too much information) unless you're a botanist.
No worries. The bonus is this: the next time someone asks you why honey bees are foraging on the leaves and stems of your Passiflora (don't you hear that all the time?), you can answer "Extra Flora Nectaries" or "EFN." You can explain that flowers produce nectar but extra-floral nectaries are just nectar-producing glands physically apart from the flower. And, you could add that EFN occurs in more than 2000 plant species in more than 64 families, according to scientists at University of Florida Extension.
Ants like EFN, too.
So do a lot of other insects, including those hungry Gulf Fritillary caterpillars that eat everything in sight...and out of sight...
- Author: Kathy Keatley Garvey
Friday noon!
At Friday noon, July 17, ant specialist Phil Ward, professor of entomology, will present a program on the species of ants found in the Häagen-Dazs Honey Bee Haven. This will be a special brown bag session in the haven, located on Bee Biology Road, next to the Harry H. Laidlaw Jr. Honey Bee Research Facility.
Among the native ants at the haven are
- Dorymyrmex insanus (workers small, ~3 mm long, black; conspicuous crater-shaped nests in bare soil)
- Dorymyrmex bicolor (workers small, ~3 mm long, bicolored, dull orange and black; conspicuous crater-shaped nests in bare soil)
- Prenolepis imparis (also known as the “winter ant” or “winter honey ant”; workers small (3-4 mm long), brown, with shiny gaster; inconspicuous nests in soil)
- Formica moki (sometimes called “field ants”; workers medium-sized (6 mm long), with a dark head, orange-brown mesosoma (thorax) and silvery-gray gaster; nest in soil)
Images of these species can be found on the AntWeb (www.antweb.org).
At least six other species of native ants reside in the vicinity of the garden, including Formica aerata, Pogonomyrmex subdentatus, and Solenopsis xyloni. The introduced Argentine ant (Linepithema humile) occurs around the Bee Biology building, but it appears not to have colonized the bee garden.
Attendees will learn how to observe and identify California native ants, and learn about the differences between bees and ants in this free event. For more information see the flier and access the haven web site. The haven is owned and operated by the UC Davis Department of Entomology and Nematology. It was planted in the fall of 2009. Christine Casey is the staff director and Extension apiculturist Elina Niño is the faculty director.
Then on Saturday night, July 18, the Bohart Museum of Entomology's first-ever evening open house will take place from 8 p.m. to 11 p.m. The Bohart is located at 1124 Academic Surge on Crocker Lane. Free and open to the public, Moth Night will include outdoor collecting; viewing of the Bohart Museum's vast collection of worldwide moth specimens; demonstrations on how to spread the wings of a moth; and information on how to differentiate a moth from a butterfly. Free hot chocolate will be served.
The event is in keeping with National Moth Week, July 18-26, an annual event coordinated by Friends of the East Brunswick (New Jersey) Environmental Commission. This year, National Moth Week will spotlight the Sphingidae family of moths found throughout the world commonly called hawk moths, sphinx moths and hornworms. Citizen scientists will be out in force to record and photograph what they see that week.
Tabatha Yang, public education and outreach coordinator of the Bohart, said that after the sun sets, a black light demonstration will be held. Visitors will collect moths from a white sheet, much as residents do around their porch lights.
Entomologist Jeff Smith of Rocklin, an associate and 27-year volunteer at the Bohart Museum, will show visitors how to spread the wings of moths. Smith curates the 400,000-specimen Lepidoptera collection at the Bohart Museum. Smith organizes and identifies the butterflies and moths, creates the drawers that display them, and the labels that identify them. In between, he shares his passion for insects and spiders at outreach programs. Since 1988, Smith has spread the wings of 200,000 butterflies and moths, or about 7000 a year.
Naturalist Greg Kareofelas of Davis, a longtime associate at the Bohart Museum, will assist with the open house and the outdoor collecting. The Bohart Museum, directed by Lynn Kimsey, professor of entomology at UC Davis, is a world-renowned insect museum that houses a global collection of nearly 8 million specimens.
- Author: Kathy Keatley Garvey
John "Jack" Longino knows his ants.
Longino, known by his students as "The Astonishing Ant Man," will present a seminar to the UC Davis Department of Entomology and Nematology from 12:10 to 1 p.m., Wednesday, May 27 in 122 Briggs Hall, Kleiber Hall Drive.
His topic: "Project ADMAC or Ant Diversity of the Mesoamerican Corridor."
Longino, who received his bachelor's degree in zoology, with distinction, in 1978 from Duke University, and his doctorate in zoology in 1984 from the University of Texas, Austin, traces his fascination with insects back to his childhood. He developed an interest in ecology and the desire to explain patterns of diversity, so "I settled on ants as an ecologically dominant group of insects worthy of study."
"As it became clear that I was living during a time of enormous biotic change caused by human activities, I developed a strong conviction that it was important not only to understand patterns of diversity but to document it in detail for this time in history. I divide my time between two research fields: taxonomy and ecology. On the taxonomy side, I have coordinated large-scale inventories of Neotropical insect biodiversity, I discover and describe new species of ants, and I further refine our understanding of species ranges and morphological variability. I make use of advanced imaging technology, specimen-level databases, and Web-dissemination to make biodiversity data available to the widest audiences."
"On the ecology side, I use quantitative inventory techniques that allow analysis of diversity patterns. I am interested in how species are distributed on tropical mountainsides, what ecological factors explain the elevational range limits of species, and how species might respond to climate change."
Ant specialist Phil Ward, UC Davis professor of entomology (and also known as "the ultimate ant man") will introduce and host Longino.
What is the MesoAmerican corridor? It's a zone of complex tectonic history, episodic biotic interchange between large continents, and frequent mountain-building," Longino says. "Ants blanket this landscape, forming a tapestry of fine-scale habitat specialization and geographic replacement. Many taxonomists have contributed to the description of species in the region and this fundamental 'biodiversity mapping' continues apace. Project ADMAC (Ant Diversity of the MesoAmerican Corridor) combines morphological analysis with large-scale DNA sequencing (targeted enrichment of Ultra-Conserved Elements) to reveal the evolutionary history and geographic structure of ant species in MesoAmerica."
"Ants show very strong patterns of elevational specialization and geographic turnover, and Project ADMAC will address questions of (1) how and when montane species evolve, (2) the effects of differing mountain ages on communities, (3) the impact of lowland barriers on montane ant dispersal, and (4) whether ants experienced a major biotic interchange on the closure of the Panamanian isthmus."
National Public Radio interviewed Longino in August of 2013 on his research. He told NPR he started out collecting stamps in his childhood, but that bored him. He decided to "get small."
"If you're shopping for a home entertainment system," he says, "you can't do better than a good dissecting microscope," he said. At the time of the NPR interview, Longino had just published two papers describing 33 new species of ants, bringing his personal "new species" total to 131, NPR reported. In the article, Longino described himself as "average" among entomologists, pointing out that some entomologists have described thousands of new species.
So, if you're like Longino, if you had a choice between a home entertainment system and a good dissecting microscope, the winner--hands down--would be the dissecting microscope.
And if you want to know about ants, you can download Dr. Eleanor's Book of Common Ants for free at http://ants.yourwildlife.org/dr-eleanors-book-of-common-ants/. It's the work of science writer Eleanor Spicer Rice, noted insect photographer Alex Wild, and designer Neil McCoy.
Be sure to check out Alex Wild's Myrmecos blog at http://www.myrmecos.net/ for amazing ant photos and educational information. He holds a doctorate in entomology from UC Davis (major professor Phil Ward) and is now curator of Entomology in the College of Natural Sciences, University of Austin--the university where Longino received his doctorate.
All in the family...the ant family...Formicidae.
- Author: Kathy Keatley Garvey
Who would have thought?
Who would have thought that ants are more closely related to bees than they are to most wasps?
In ground-breaking research to be published Oct. 21 in Current Biology, a team of UC Davis scientists and a colleague from the Sackler Institute for Comparative Genomics, American Museum of Natural History, has found that ants and bees are more genetically related to each other than they are to social wasps such as yellow jackets and paper wasps.
"Despite great interest in the ecology and behavior of these insects, their evolutionary relationships have never been fully clarified," said senior author and noted ant specialist Phil Ward, professor of entomology at UC Davis. "In particular, it has been uncertain how ants—the world’s most successful social insects—are related to bees and wasps. We were able to resolve this question by employing next-generation sequencing technology and advances in bioinformatics. This phylogeny, or evolutionary tree, provides a new framework for understanding the evolution of nesting, feeding and social behavior in Hymenoptera."
The researchers used state-of-the-art genome sequencing and bioinformatics to produce this significant research.
The six-member team: Ward; molecular geneticist and assistant professor Joanna Chiu; honey bee scientist and assistant professor Brian Johnson; doctoral student-researcher Marek Borowiec of the Ward lab; and postdoctoral researcher Joel Atallah of the Johnson lab, all with the UC Davis Department of Entomology and Nematology; and visiting scientist Ernest K. Lee of the Sackler Institute for Comparative Genomics, American Museum of Natural History.
Ants, bees and stinging wasps all belong to the aculeate (stinging) Hymenoptera clade -- the group in which social behavior is most extensively developed.
Said Chiu: “With a phylogeny or evolutionary progression that we think is reliable and robust, we can now start to understand how various morphological and/or behavioral traits evolved in these groups of insects, and even examine the genetic basis of these phenotypic changes.”
Said Johnson, whose lab studies the genetics, behavior, evolution and health of honey bees: "Using transcriptomics we were able to resolve a long standing question regarding the evolutionary relationships between stinging wasps, ants, and bees. We found that ants and bees are more closely related than previously thought. This result should be important for future studies focused on eusocial evolution, as it suggests that morphology may not be a good indicator of evolutionary relatedness in these groups of organisms."
The abstract: "Eusocial behavior has arisen in few animal groups, most notably in the aculeate Hymenoptera, a clade comprising ants, bees, and stinging wasps. Phylogeny is crucial to understanding the evolution of the salient features of these insects, including eusociality. Yet the phylogenetic relationships among the major lineages of aculeate Hymenoptera remain contentious. We address this problem here by generating and analyzing genomic data for a representative series of taxa. We obtain a single well-resolved and strongly supported tree, robust to multiple methods of phylogenetic inference. Apoidea (spheciform wasps and bees) and ants are sister groups, a novel finding that contradicts earlier views that ants are closer to ectoparasitoid wasps. Vespid wasps (paper wasps, yellow jackets, and relatives) are sister to all other aculeates except chrysidoids. Thus, all eusocial species of Hymenoptera are contained within two major groups, characterized by transport of larval provisions and nest construction, likely prerequisites for the evolution of eusociality. These two lineages are interpolated among three other clades of wasps whose species are predominantly ectoparasitoids on concealed hosts, the inferred ancestral condition for aculeates. This phylogeny provides a new framework for exploring the evolution of nesting, feeding, and social behavior within the stinging Hymenoptera."
- Author: Kathy Keatley Garvey
Lavender.
Honey bees love it.
We watched a honey bee foraging on lavender blossoms last weekend, when an ant appeared on the scene. The ant? A worker of Liometopum occidentale (velvety tree ant), according to ant specialist Phil Ward, professor of entomology at the University of California, Davis.
If you don't know much about ants, but have always admired them, then "Dr. Eleanor's Book of Common Ants," is for you.
It's the collaborative work of two entomologists: biologist/science writer Eleanor Spicer Rice, who received her doctorate in entomology from North Carolina State University, and biologist/insect photographer Alex Wild, who received his doctorate in entomology from UC Davis, studying with Ward.
In a recent Myrmecos blog, Wild describes the book as "an entry-level ebook written for the general naturalist curious about ants. Dr. Eleanor recounts stories of the most common species seen in the southeastern United States, interspersed with photographs from my galleries."
"It’s the kind of book you give to the young naturalist who wonders about the ants on the sidewalk," Wild says, "or perhaps to that grumpy uncle who never quite seems to get what it is you are doing in graduate school studying the little creatures."
And, guess what? The Dr. Eleanor/Dr. Alex book is free to download. One way to receive it is to access the Myrmecos blog and click on the I-Tunes and/or PDF links.
Rice relates that she's always been fascinated by ants. So is Andrea Lucky, who, like Wild, received her doctorate in entomology from UC Davis with Phil Ward. Lucky heads the widely acclaimed citizen-scientist project, "The School of Ants." (The School of Ants project is based in the Lucky lab at the University of Florida's Department of Entomology and Nematology and the lab of Rob Dunn in Biology at North Carolina State University. (Email them at theschoolofants@gmail.com if you want to know more.)
But back to "Dr. Eleanor's Book of Common Ants." It's fascinating. It's riveting. It's superb. The easy-to-read text and the amazing photos draw you in. You can literally feel the excitement, enthusiasm and passion when Dr. Eleanor asks "What's the big deal about ants?"
"We might not notice them, but ants surround us, occupying nearly every type of habitable nook and cranny across the glove," she writes. "Right now, ants snuggle up to your house, lay out their doormats in front of the trees in your yard, and snooze under your park benches. Some even nest inside the acorns littering the ground."
"We might not notice them, but they're there, and they shape, literally shape, our world," she points out.
And if you look closely in your own back yard, you just might see an ant and a bee sharing a lavender blossom.