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Specimen Spotlight

We have over 500,000 specimens. While much of their utility comes from looking at many specimens together to identify biodiversity patterns, each individual specimen also has value. Every single object in the collection has a unique story to tell. Here are some of those stories.

 A vine from another time: specimens tell us the origins of weeds

By Nicholas Bhandari

The MSU Herbarium has its roots in a generous donation of Dr. Dennis Cooley’s personal collection in the years after he passed in 1860. His earliest specimens date to around 1815. One of them was an undated individual of Solanum dulcamara, called bittersweet nightshade. Bittersweet nightshade is a naturalized nonnative vine in the Great Lakes region, introduced from the Old World. We don’t have any specimens of S. dulcamara at the herbarium collected before Cooley's time. Because this was in the herbarium’s earliest collection, it may be that this particular individual was the first documented occurrence of this nightshade in Michigan, found by Dr. Cooley in Washtenaw County.

Bittersweet nightshade collected by Dr. Dennis Cooley. Date unknown.Bittersweet nightshade (Solanum dulcamara) specimen collected by Dr. Dennis Cooley in Michigan. Top: Pressed plant material. Bottom: Specimen label. Image credit: Matt Chansler


Fake flesh: one weird plant's quest to achieve pollination 

By Heidi Slawson

This specimen is a voucher specimen for a groundbreaking pollination study of Rafflesia. Rafflesia is a threatened genus of plants with the largest flowers plants known, with some being up to a meter across. Native to the rainforests of Southeast Asia, these parasitic plants do not have their own roots or stems but grow as threads inside host vines in the genus Tetrastigma. They are nicknamed ‘corpse flowers’ because of the stench they give off, similar to that of rotting meat. This stench, however, tricks carrion flies which pollinate the species of Rafflesia. Unlike most flowers, Rafflesia provides no rewards to its visiting pollinators! This process was discovered and recorded by former MSU Herbarium Director, Dr. John Beaman and his colleagues. The plant from which this specimen was collected was one of the plants that they studied in Borneo when researching Rafflesia pollination. Because of their research and collecting, we have voucher specimens of Rafflesia pricei and other species in our herbarium.  

Corpse flower, Rafflesia priceiRafflesia pricei produces enormous flowers that must be sectioned and split across multiple herbarium sheets. Image credit: Matt Chansler


A very knotty weed: recording fallopia in ingham county, Mi

By Taylor MacKenzie

The MSU Herbarium houses a specimen of Fallopia japonica, Japanese knotweed, that was used for establishing a record of the species in Ingham County. This is a shrub native to Japan and other parts of East Asia that is classified as an invasive species by the Michigan Department of Natural Resources. This is due to its many adaptations that allow it to outcompete native species. Fallopia japonica poses a unique threat to humans because it can grow through many building materials, including concrete. Additionally, it is extremely difficult to remove and has a tendency to regrow after attempted removal. 

Japanese knotweed flowers and herbarium specimen  Left: Japanese knotweed flowers. Right: specimen. Image credit: Matt Chansler


Precious stone or crusty rock? how a lichen species is born

By Anna-Katherine Fournier

This lichen specimen is the original specimen that was used to describe a new species (a "type" specimen). For a new species to be recognized there must be an herbarium specimen that the publication can refer to. Placynthium glaciale was first found in 2014. This lichen is found in Glacier Bay National Park in the upper end of Muir Inlet in young post-glacial soils, on siliceous rocks. This is land that is newly exposed due to the retreating of the Muir Glacier, in Alaska. It is a tiny brown lichen, spanning only 0.2 mm thick and 3.5 cm in diameter, with uniquely has muriform ascospores, or internal cross walls.  In this case, the researchers took DNA from multiple specimens, including this one, and compared them using phylogenetic analysis in order to place Placynthium glaciale in the proper group. Lichens are composite organisms that live in symbiotic partnerships of a fungus and an alga. Lichens are an important part of high latitude ecosystems, and thanks to the work of retired MSU lichenologist Alan Fryday, we know that Glacier Bay has the highest diversity of lichens in the Americas. Placynthium glaciale is potentially very interesting in terms of climate change because it was only recently discovered on newly deglaciated terrain. This may suggest that it could be used to determine areas of deglaciation and environmental changes occurring in the coming future. 

Placynthium glaciale lichen type specimenClockwise from upper left: Tag we use for identifying that this is a type specimen. P. glaciale growing on its substrate. Close-up of P. glaciale's reproductive structures. View of this specimen under a microscope. Image credit: Matt Chansler