Pollinator Perimeter



            Plants on the perimeter of campus invite an assortment of pollinators to visit SF State’s native landscaping. We have strategically selected plants known to associate with pollinators native to this region.  Cultivated plants found in conventional landscapes are often bred for traits that are attractive to humans and offer zero benefits to the local ecosystem. In addition, these plants may be endemic to a region that lacks anything in common with California and our native fauna. In essence, the cultivar is a misplaced ornament with traits that offer limited incentive for wildlife to revisit an already highly fragmented ecosystem. By encouraging pollinators to utilize resources present in the native garden, we improve land usage and habitat value while integrating our personal space into the surrounding ecosystem.


Pollination Syndromes

            There is not a more palpable sense of evolution at work than the variation observed with floral morphology. The general four whorled morphological pattern has been presented.  A seemingly endless combination of variations on this common theme occurs among flowering plants. Plants are immobile organisms. They do not interact with their environment in the ways that insects or animals do. Plants are forced to manipulate their environment through the evolution of specialized traits that encourage the surrounding environment to work for them. The following explores various pollen vectors and traits seen among the associated plants


Beetles: flowers pollinated by these insects are either large and borne singly on a flowering stalk (peduncle) or small with numerous flowers on one head. These flowers are typically dull colored and possess a strong odor.

A large orange poppy flower with a small spotted beetle on a petal.















Eschscholzia californica receiving attention from a beetle


Bees: bee pollinated flowers are generally yellow or blue and express distinct markings. Bees are able to perceive ultraviolet light and cannot see the color red. A flower that looks one way to humans will appear very different to a bee and will often have patterns invisible to our eyes.

A bumble bee approaching a blue hanging flower.



Butterflies & Moths: associated flowers generally possess a long corolla (see section II on floral morphology) and can emit a strong fragrance.

A close up photo of a monarch butterfly resting on top of a plant with tiny pink and purple flowers.














A butterfly’s proboscis reaches into the depth of the corolla tube


Birds: associated flowers produce copious amounts of nectar to keep up with the bird’s energy demand. Plants that produce the most nectar are rewarded with more frequent visits, increasing the plant’s reproductive success.

A humming bird approaching a plant with long stems and tiny pink flowers.


Wind: flowers pollinated by wind are relatively nondescript. These flowers need not devote the excess energy into florid traits, as wind is not selective like organismal vectors.

A close up photo of the seeds on a the purple needle grass.



















The spikelet of Festuca rubra showing dozens of flowers clustered on one inflorescence

Species on Display

Arctostaphylos manzanita

Ceonothus cuneatus

Dendromacon harfordii

Frangula californica

Lupinus arboreus

Mimulus aurantiacus

Penstemon heterophyllus

Ribes malvaceum

Salvia clevelandii



- Peter Raven, Ray Evert, and Susan Eichhorn. Biology of Plants. Sixth. New York: W.H. Freeman and Company, 1999. Print.

-Calflora: Information on California plants for education, research and conservation.

[web application]. 2008. Berkeley, California: The Calflora Database [a non-profit organization].

Available: http://www.calflora.org/ (Accessed: Oct 20, 2008).

-All photographs: Creative Commons Attribution