Art by Alice Tangerini: Lebronnecia kokioides Fosberg

From Plant Press, Vol. 23, No. 4, October 2020.

Lebronnecia kokioides, a genus and species endemic to the Marquesas Islands, was described in 1966 by Ray Fosberg. When planning a Hawaiian vacation to Kaua`i and O`ahu in 1978, Marie-Hélène Sachet mentioned to Alice Tangerini that she should visit the Pacific Tropical Botanical Garden (now National) and look for a “Brown cotton tree”. With Sachet’s verbal description of the plant, Tangerini was able to have the helpful staff show her that very tree while she was touring the garden. Tangerini took slides of the tree showing the brown cotton-like bolls on the branches. She illustrated the species from the slides, two specimens (Schäfer 5323 US and Sachet 2165 US, both Mohotani), and images of a cultivated living plant. The species is endangered, and current population estimates by Jean-François Butaud (pers. comm. 2007, 2013) report this species from Ua Huka (2 populations, ca. 50 plants), Hiva Oa, and Nuku Hiva (1 population of ca. 50 plants).

Selected hydrangea histories

From Plant Press, Vol. 23, No. 4, October 2020.

By Julia Beros

After receiving an unusual gift on her front porch, a Botany contractor goes on a journey through the Smithsonian collections to see if she can uncover the intentions of a mysterious neighbor.

The blue buds of Hydrangea macrophylla f. hortensia stand out in this specimen collected in 1986 by J.H.R. Plews in Kauai, Hawaii. The specimen is housed in the U.S. National Herbarium.

It arrived as a bundle. Blue-tinged buds resting on the concrete, halfway into shade, aluminum folded and scrunched at the base molding to the shape of raw-cut branches wrapped in a damp paper towel, a single piece of twine wrapped infinitely around into a limp knot at the waistline. Exactly the way my mother prepared flowers for me to bring for “teacher appreciation week” in elementary school. It was always May, always the first bloom of lilacs. But exponentially wilting as the sun progressed, these blue buds waited anonymously for retrieval.

It was not just our house. Passing the open door I noticed the bundle and went to bring it in. I looked across to our neighbors, our street in quietness, and saw a similar bouquet limp at the steps to their door. Up the street I could see blue lumps at almost every doorstep. Something felt eerily significant about these blue hydrangeas donning every doorway. Something meaningful that could be de-coded. So discreet and common, maybe even a flower used as filler in a garden, hydrangeas never seemed so special. Bringing the flowers to show my mother, she smiled lightly, “they must be from someone on the street. How nice.” For her it ended there, “how nice,” but “how” is what I suddenly burned to understand. How did these blue buds arrive at all of our homes?

Our house is on a dead-end street, we know every resident of the 16 cape cods lining the road to a singular end, and there is a hyper-awareness of goings-ons. I set out for a walk and would determine which homes had blue hydrangeas growing in their yards. I wouldn’t consider homes without a bouquet on the doorstep because, like me, they could have already been picked up. Making a full venture to the park, so as not to arouse suspicion, I walked back down the street and noticed only a single yard with blue hydrangea bushes. This belonged to a couple with small dogs and children who are now adults that live far away. The wife can be seen walking the dogs while wearing a straw hat, her hair buoyantly curly and able to spark the jealousy of women with perms. She has the calm demeanor of a turtleneck worn stubbornly on a warm day, and the relaxed yet determined ambition of someone who knows themselves very well. The husband I’ve hardly spoken to, and his inconspicuousness is circumscribed by the single fact I know: that he is a writer of history and philosophy. It seemed unusually out-of-character that this neighbor might clip her flowers to share secretly with the rest of the street. But this was the only yard with blue buds. 

What did I know about hydrangeas, who did I know that knows things about hydrangeas, don’t we have hydrangeas in our yard? Remembering the “snow bush” on the side of our house and my mother clipping these for bouquets, placing the branches in that murky blue vase, but soon replacing them with azaleas and leaving the white hydrangeas to bruise and shatter into the winter, and remembering the cluster of pink hydrangeas in the backyard, a fabled result of the pennies my dad used to bury in the soil near their roots, winking to me as he knelt to the dirt and we shared in this magical secret, and remembering that I always mixed up the name for hyacinth and hydrangea because my dad called them zumbul and I didn’t learn the name hyacinth until it no longer mattered. With the resources of the Smithsonian and the U.S. National Herbarium at my disposal, I began digging around for some scientific and cultural information about hydrangeas, perhaps leading me to the meaning of these doorstep bouquets. Using the Smithsonian Collection Search Center, I searched for clues where Smithsonian collections contain hydrangeas.

ForestGEO welcomes 72nd plot to the network: Ordway Swisher, Florida, USA

From Plant Press, Vol. 23, No. 4, October 2020.

ForestGEO is pleased to introduce its newest research site, the Ordway Swisher Forest Dynamics Plot, a 23.04-ha upland sandhill forest near Melrose, Florida, USA, that undergoes a regimen of prescribed burning every three to four years (including during the establishment of the plot). Field crews began the census in March 2019 and completed it in February 2020, less than one month before the coronavirus pandemic brought fieldwork around the world to a halt. Staff have entered and screened census data, which is now available upon request in the ForestGEO Data Portal. Dan Johnson and Stephanie Bohlman, both of the University of Florida, are the plot’s Principal Investigators.

Photos of the plot, after the jump...

“What wood is that?”: Expanding the toolbox for species identification

From Plant Press, Vol. 23, No. 4, October 2020.

By Julia Campbell-Such

The National Museum of African Art at the Smithsonian holds many beautiful works of art made from wood, but only rarely do our records indicate what species of wood the artist used. This is not unusual for a museum, but it is a shame since so much can be learned about a piece of art from understanding the materials that were used to make it. Artists choose their materials carefully for their physical characteristics but also, especially in the case of art originating on the African continent, for their symbolic value. Certain tree species can impart meaning, or even metaphysical powers, to an object made from its wood. The identification of which tree species used in African art and belongings can help researchers recreate the history of artworks with uncertain provenance and elucidate the symbolic worlds of those who created them.

Tangential section of a sample from the National Museum of African Art Jane Smith Collection of West African Woods, most likely Entandrophragma utile, under 16X magnification.

Increasingly, species identification is also important in the context of the enforcement of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES), an international treaty to prevent species from becoming endangered or extinct because of international trade. Without proper documentation demonstrating that objects are not made with endangered species, museum artworks travelling to exhibitions abroad may be held, confiscated, or even destroyed by customs officials. Knowing which wood was used can help protect artworks when they travel.

As an Andrew W. Mellon Fellow in Object Conservation at the Smithsonian National Museum of African Art, I have been investigating ways to answer the question, “What wood is that?”, for artwork in the museum’s collection for the past two years. Using the Jane Smith collection of 64 hand samples representing over 50 species of West African woods, I have been comparing traditional wood anatomy to newly developed methods that use the tree’s chemistry, as well as its anatomy, to identify it. With the generous support of the Botany Morphology Lab at the National Museum of Natural History, under the supervision of Kenneth Wurdack and the kind, generous tutelage of Stanley Yankowski, I have been preparing and examining wood slides from this collection. I have then been comparing the results of that anatomical analysis to direct analysis in real time mass spectrometry (DART-MS) of the same samples, conducted at the Smithsonian Museum Conservation Institute under the supervision of G. Asher Newsome.