Tag Archives: Garden Pollinator

Garden Bees, 2017

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All bees have been pinned, labelled, and data-based. Now we’re (and when I say ‘we’re’, I’m mostly referring to Lucas and Isabella) are going through the painstaking process of photographing all specimens: head on, from the top, and from each side. We’ll then start sorting them by morphotype (how they look), and working to identify them. Some of the bees are very common, and fairly easy to identify (like Anthidum manicatum, Bombus vosnesenskii, Apis meliifera). Others will take a bit more time and expertise to get to species.

You can take a look at the entire album, representing about 150 of the nearly 700 collected bees. We’ll be adding the rest of the bees, as we can.

We collect and pin the bees, because most are difficult to identify, without getting them under a microscope, and without the help of a museum-level bee specialist. For those bees that are easy to identify by site (such as the ones listed above), we only collect one per garden (so that we have a record of its presence). We don’t collect multiple specimens of the same species, if we can identify it in the field. And, we don’t collect obvious queens (larger, reproductive bees).

We collect using a combination of water pan traps and hand collection. For hand collection, we use a pooter (an insect aspirator) for the smaller bees and baby food jars for the larger bees.

Water pan traps. We buy plastic bowls from the dollar store, prime them, and paint them with UV paint that is optimized for the wavelengths that bees see.

Here, I’m holding an insect aspirator, otherwise known as a pooter. You can suck insects off of flower heads without damaging blossoms, by carefully placing the metal part of the pooter, over the bee. It is then sucked into a small plastic vial, which I’m holding in my right hand.

This is such an exciting part of the research for me. I find myself obsessing over the photos, trying to organize them in my mind, and to at least get them to genus. Grouping them by genus makes it easier for an expert to sort through and identify them. And, I’m so grateful for their assistance, that I want to make it as easy as possible for them!

We’ve collected bees from gardens near Forest Park, in Portland’s city center, and in outlying suburbs. We’ll analyze the data to see if there are any patterns associated with garden location (forest, city, suburbs), or to see if there are specific bees that are only found in forest gardens, for example.

Pollinator of the Week: California Tortoiseshell Butterfly

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This entry is from Isabella Messer, an undergraduate horticulture student at Oregon State University. It highlights a common Oregon pollinator.

 

Despite the misleading name, we have unfortunately not discovered a new cross species between California butterflies and tortoiseshell cats. Even though this butterfly has a larval stage instead of a kitten stage, the California Tortoiseshell Butterfly is still a beautiful representative of the Lepidoptera. 

A California Tortoiseshell flashes its bright upperwing. Photo by Doug Backlund

As you may be able to guess, the largest populations of the California Tortoiseshell (Nymphalis californica (Boisduval, 1852)) are located across California(1). While the majority may be in California, the California Tortoiseshell habitat range stretches south from British Columbia to Mexico and east from California to Wyoming(1). When the California Tortoiseshells experience a population explosion in the summer(1), some populations have been known to travel as far east as Vermont, New York and Pennsylvania(2). 

These lovely butterflies can be identified by their bright orange upperwing which features black spots and black border(1). Their underwings are mottled brown and gray and resemble dead leaves(2). When in larval(caterpillar) form, N. californica can be identified by its all-black appearance with the exception of a white line running down its back and the slight blue at the base of its black spines(2).

The cleverly disguised underwings of the California Tortoiseshell. Photo by Doug Blackbund

Unlike some of the other pollinators that we have discussed over the months, the California Tortoiseshell Butterfly is somewhat picky when it comes to choice of host plant for the immature and habitat mature butterflies. Adults will oviposit (lay eggs) only on various species of wild lilac (Ceanothus) where the immature butterflies will be hosted until they reach maturity(3). Adult N. californica are less specific about their habitats by the time the reach maturity. They can generally be found in mountainous regions in chaparral, woodland and brush areas(1). 

While these charming butterflies may not be extremely common in the Portland area due to its low elevation, if you take a trip up to Mount Hood this coming summer, it is more than likely you will run into one of these beauties.

Sources:

  1. Lotts, Kelly and Thomas Naberhaus, et al. “California Tortoiseshell”. Butterflies and Moths of North America. 2017. Butterflies and Moths of North America. http://www.butterfliesandmoths.org/
  2. Ross A. Layberry, Peter W. Hall, and J. Donald Lafontaine. “California Tortoiseshell”. Canadian Biodiversity Information Facility. 9 Jul. 2014. http://www.cbif.gc.ca/eng/species-bank/butterflies-of-canada/california-tortoiseshell/?id=1370403265564
  3. Art Shapiro. “Nymphalis californica”. Art Shapiro’s Butterfly Site. http://butterfly.ucdavis.edu/butterfly/Nymphalis/californica

Research Update: Studying Willamette Valley’s Native Plants

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Getting ready to install plants at our field site.

The post below comes from Aaron Anderson, a M.S. student in the OSU Department of Horticulture, and a member of the Garden Ecology Lab.

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This past summer, we conducted the first field season of a study screening native plants for their attractiveness to pollinators and natural enemies. We selected 23 native Willamette Valley wildflower species based on drought tolerance, as well as four exotic garden species known to be attractive to bees: Nepeta cataria ‘Catnip’; Salvia elegans ‘Pineapple Sage’; Origanum vulgare ‘Italian’; Lavandula intermedia ‘Grosso’.

Table 1.  Native plants selected for this study.

Plant Species Common Name Life History Bloom Color
Clarkia amoena Farewell-to-spring Annual Pink
Collinsia grandiflora Giant blue eyed Mary Annual Blue
Gilia capitata Globe gilia Annual Blue
Lupinus polycarpus Miniature lupine Annual Purple/Blue
Madia elegans Common madia Annual Yellow
Nemophila menziesii Baby blue eyes Annual Blue/White
Eschscholzia californica California Poppy Annual Orange
Helianthus annuus Common sunflower Annual Yellow
Phacelia heterophylla Varied-leaf phacelia Annual White
Acmispon (Lotus) parviflorus Annual White/Pink
Achillea millefolium Yarrow Perennial White
Anaphalis margaritacea Pearly everlasting Perennial White
Asclepias speciosa Showy milkweed Perennial Pink/White
Aquilegia formosa Western red columbine Perennial Red
Aster subspicatus Douglas’ aster Perennial Purple
Camassia leichtlinii Common camas Perennial Purple/White
Eriophyllum lanatum Oregon sunshine Perennial Yellow
Fragaria vesca Wild strawberry Perennial White
Iris tenax Oregon iris Perennial Purple
Sedum oregonense Cream Stonecrop Perennial Yellow
Sidalcea virgata Rose Checkermallow Perennial Pink
Sisyrinchium idahoense Blue-eyed grass Perennial Blue/Purple
Solidago canadensis Goldenrod Perennial Yellow

We planted them in meter squared plots at OSU’s North Willamette Research Center. Between April and October, we monitored floral visitation, sampled visiting insects using an “insect vacuum”, and tracked floral bloom.

With one season in the books, we have some purely anecdotal impressions of which wildflower species are the most attractive to bees. Goldenrod (Solidago canadensis) and Douglas aster (Symphyotrichum subspicatum) were both highly attractive to a wide diversity of native bees, as well as to a variety of beetles, bugs, and syrphid flies. As an added bonus, both these species had long bloom durations, providing habitat and colorful displays for significant portions of the summer. Annual flowers Clarkia amoena and Gilia capitata attracted a range of native bees; Clarkia was also visited by leafcutter bees for a different purpose – cutting circular petal slices to build nest cells with.

Bumblebee on Clarkia.

Syrphid fly on Goldenrod.

Results from this year need to be analyzed, and further research is needed to account for seasonal variability and to gather more data on floral visitors.

Additionally, w e will ask the public to rate the attractiveness of each of our study flower species in an effort to determine the best candidates for garden use. After a few more field seasons (and sorting lots of frozen insect samples!), the result of this study will be a pollinator planting list for home gardeners, as well as a pollinator and natural enemy friendly plant list for agricultural areas. These will help inform deliberate plantings that increase the habitat value of planted areas.

Pollinator of the Week: Gray Hairstreak

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This post was written by Isabella Messer, an undergraduate working in the Garden Ecology Lab.

The Gray Hairstreak (Strymon melinus(Hübner, 1818)) is a common butterfly in the US. Its habitat spans most of the country with the exception of some states in the midwest (1). The Gray Hairstreak is most common in the southeast but can also be found along the west coast, including Oregon and possibly some of your gardens (1). These butterflies can be identified by their ash-gray color of their wings, their noticeable white-bordered black median line, and a two orange patches on the outer angle of their hindwing (2). Due to their coloring, Gray Hairstreaks can be mistaken for an Eastern Tailed-Blue butterfly which also have orange spots on their hindwing s(3). However, the Eastern Tailed-Blue does not live in Oregon (4). If you want to attract more Gray Hairstreaks to your garden, it would be beneficial to plant  goldenrod, mint, milkweed and winter cress (5). Keep an eye out on a sunny day for these sweet little beauties!

Gray Hairstreak in a Portland garden, August 2017

References

  1. “Species Strymon Melinus – Gray Hairstreak – Hodges#4336.” Species Strymon Melinus – Gray Hairstreak – Hodges#4336 – BugGuide.Net, Metalmark Web & Data, 2017, bugguide.net/node/view/579.
  2. Rodriguez, Lauren. “Gray Hairstreak – Strymon Melinus – Details.” Encyclopedia of Life, Encyclopedia of Life, 27 Apr. 2013, eol.org/pages/262409/details.
  3. Cook, Will. “Gray Hairstreak (Strymon Melinus).” Gray Hairstreak (Strymon Melinus), Carolina Nature, 7 Nov. 2015, www.carolinanature.com/butterflies/grayhairstreak.html.
  4. “Eastern Tailed-Blue Cupido Comyntas (Godart, [1824]).” Butterflies and Moths of North America, Metalmark Web & Data, 18 Aug. 2017, www.butterfliesandmoths.org/species/Cupido-comyntas.
  5. Bartlet, Troy. “Species Strymon Melinus – Gray Hairstreak – Hodges#4336.” Bug Guide, Iowa State University Department of Entomology, 18 Apr. 2017, bugguide.net/node/view/579.

Pollinator of the Week: Yellow-Faced Bumble Bee

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Bombus vosnesenskii foraging on blanket flower in a Portland garden, July 2017.

This entry is from Isabella Messer an undergraduate horticulture major at Oregon State University.  It highlights one of the most common pollinators that we see in Portland area gardens.

Out of the twenty four different garden sites we visit, each month in Portland, we can count on one bumble bee being present in almost all of the gardens. This ubiquitous bee is Bombus vosnesenskii, otherwise known as the yellow faced bumble bee. With increasing evidence that some bumble bee populations are declining, Bombus vosnesenskii populations remains stable (1).

B. vosnesenskii is a very common bumble bee of increasing abundance across the western United States, although it ceases to be very common east of the Sierra Cascade Crest in California(2). B. vosnesenskii is most easily identified by the yellow hairs on the top of the head, on its face, on top of its thorax (middle body part), and as a yellow band at the base of their abdomen (bottom and biggest body part) (2). In terms of the flowers and plants that B. vosnesenskii likes to visit, they are broad generalists (3). This means that they like to visit a broad variety of plants. They are considered ‘medium tongue’ bees, which means that they can drink nectar from a wide array of flowers, with floral morphologies ranging from zinnias, to coneflowers to rhododendrons. Keep an eye out for their yellow heads the next time you are out in the garden and it is very likely you will come across one.

References:

  1. Lozier, Jeffrey D., James P. Strange, Isaac J. Stewart, and Sydney A. Cameron. (2011). Patterns of range-wide genetic variation in six North American bumble bee (Apidae: Bombus) species. Molecular Ecology, volume 20(23), pp 4870-4888.
  2. Koch, Jonathan, James Strange, and Paul Williams. Bumble Bees of the Western United States. US Forest Service and the Pollinator Partnership. PDF.
  3. Tepedino, V.J., Laura C. Arneson, and Susan L. Durham. (2016). Pollen removal and deposition by pollen-and nectar collecting specialist and generalist bee visitors to iliamna bakeri(malvaceae). Journal of Pollination Ecology, volume 19(15). Pp 50-56.

Bombus vosnesenskii foraging on zinnia, in a Portland area garden, August 2017.