Revisiting the Plant Family Collection

When Brooklyn Botanic Garden was established, more than century ago, one of its main tenets was to provide not only a respite from the quickly developing city but also educational resources for plant lovers with all levels of knowledge, from laypeople to horticulturists to scientists.<br />To this end, the core collections in the central part of the...

When Brooklyn Botanic Garden was established, more than century ago, one of its main tenets was to provide not only a respite from the quickly developing city but also educational resources for plant lovers with all levels of knowledge, from laypeople to horticulturists to scientists.

To this end, the core collections in the central part of the Garden were organized by plant family. This portion of the Garden, also called the Systematic Section, was designed by landscape architect Harold Caparn to present living examples of closely related plants for side-by-side observation.

Today, this area, now called the Plant Family Collection, retains its original organizing principles, but as part of BBG’s Water Conservation Project, the area has been reconfigured to enhance the meandering brook that runs from the Japanese Hill-and-Pond Garden to the recently opened Shelby White and Leon Levy Water Garden. Walking paths have also been reworked to lead people into the collection rather than merely alongside it. “The visitor will follow the brook, passing over plank bridges and weaving through a lush garden,” says Jason Siebenmorgen of Michael Van Valkenburgh Associates (MVVA), the firm that oversaw the renovation and also designed the Water Garden. “The familiar large specimens will be there, but many will be revealed in a new way as you move through the landscape. And one dramatic change will be water flowing through the stream channel and over rocky falls.”

In his effort to present a living collection that would show how plants evolved, Caparn likely drew from collections like the Arnold Arboretum at Harvard University, which was established in 1872 and designed by Frederick Law Olmsted. The arboretum, also arranged by plant family, was inspired by similar gardens in Europe. Caparn wrote frequently in professional journals about the planning and philosophy behind the Systematic Section, and in 1915, he described his vision of a visitor’s experience:

The layman or semi-layman, the gardener, landscape architect or plant-lover of any kind, who judges and values plants according to their outward appearance and qualities only, will be mildly surprised to see that alders, witch-hazel, and snowballs, though they may produce similar mass effects in planting, are no way akin; while the elm and the stinging nettle have almost everything in common except the trifling difference that one grows a hundred feet high, weighs a few tons, and lives for 150 years, while the other is a mere weed. The garden Caparn designed included about 30 plant families and aligned the progression of plant evolution from north to south, beginning with ferns at the periphery of the Japanese Hill-and-Pond Garden and continuing south with more evolved plants like honeysuckles and daisies.

Recent research in plant genetics has brought some changes to our understanding of the evolutionary history of higher plants, but the basic scheme still provides a useful primer in plant evolution. The current renovation presented an opportunity to incorporate new plantings into the historic layout, and MVVA worked closely with Rowan Blaik, BBG’s director of Living Collections, to identify new additions.

Plant Family Collection
A rocky stream now winds through the Plant Family Collection. Photo by Sarah Schmidt.

More than 150 existing trees and shrubs—the majority of those within the construction area—were retained in their original places, while another 27 were transplanted, says Blaik. Among them is a rare cherry species, Prunus hirtipes, which was transplanted within the rose family section. Thousands of new woody and herbaceous plants will also be added. In the willow family section, for instance, a number of low, sprawling species were planted among several taller willow trees, which diversified the collection and introduced a variety of leaf textures, says Siebenmorgen. In the witch-hazel family, several later-blooming varieties were planted near a large, mature Persian ironwood and the witch-hazels and winter hazels that were already present.

“The ironwood was damaged in a storm just prior to the work on the Garden but is recovering now with significant regrowth,” says Siebenmorgen. “It is surrounded by several very large and shrubby witch-hazels and winter hazels, all from the same family. These form green domes wider than they are tall, almost like fat clouds sitting on the lawn.” The newly opened area will also include along the stream some of the same iris and sedge species that are in the Water Garden to help tie the two spaces together. The design is also meant to draw people closer to the plants themselves and encourage a more thoughtful visit.

Plant Family Collection
Wooden plank bridges and grassy walkways are meant to draw visitors closer to the plant collection. Photo by Sarah Schmidt.

“Hopefully, visitors will see much more interplay between the different plant families and be able to experience the stream in a more visible way,” says Matt Bird, also of MVVA. “For those visitors who may be passing through casually, it will seem to blend easily with the adjacent spaces, but those who are more interested in the details of the plant families will still be able to have that experience.” He hopes longtime members will see the space with new eyes: “I’d imagine some are going to be surprised. I feel like we will be opening an entirely new space in the Garden.”

Collection Highlights

The taxonomic arrangement of plants that Harold Caparn established still provides a living primer on plant evolution. A close look at plant structures can provide family clues.

Ferns

Interrupted Fern
Osmunda claytoniana (interrupted fern) in Japanese Hill-and-Pond Garden. Photo by Blanca Begert.

Among the first vascular plants were the ferns, which appeared some 300 to 350 million years ago. Ferns do not bear seeds but instead form simpler single-celled reproductive structures, spores, which can develop into a plantlet that can fertilize and mature in moist conditions. This family is represented by waterside glades of ferns in the Japanese Hill-and- Pond Garden.

Conifers

Cedrus deodara cones
Maturing Cedrus deodara cones in the Conifer collection. Photo by Anne O'Neill.

Nearby, wrapping around the south side of Celebrity Path, are the conifers—pines, junipers, cypresses, and their kin—some of the earliest seed-bearing plants. Conifers do not produce flowers or fruit but make pollen and seeds in woody cones. The seed cone contains ovules, which, when fertilized by pollen, become seeds. The pollen and seeds are dispersed by wind.

Ginkgo
Ginkgoaceae

Ginkgo
Ginkgo biloba leaves, in transition to fall color, along the Overlook. Photo by Lee Patrick.

Ginkgo biloba is the single remaining species of a family that dates back to the Triassic period, 225 to 190 million years ago. It has fan-shaped leaves and lacks cones. Its seeds are encased in a fleshy, malodorous outer coating. Rare (or extinct) in its native habitat, it is common in New York City; here at BBG, specimens can be found in and near Ginkgo Triangle.

Magnolia Family
Magnoliaceae

Magnolia virginiana
Sweetbay (Magnolia virginiana) is a semievergreen magnolia native to eastern North America. Its creamy-white, fragrant flowers appear in June, making it one of Magnolia Plaza's latest bloomers. Photo by Rebecca Bullene.

Magnolias are among the earliest flowering plants. They have many primitive characteristics, most notably flowers with parts that are large and not joined together—numerous petals, sepals, and stamens arranged in a spiral. These early flowers generally lack the bright colors that would attract insects with more advanced eyesight.

Elms, Oaks, and Walnuts

Camerdown Elm
Ulmus glabra 'Camperdownii' (camperdown elm) in Bluebell Woods. Photo by Blanca Begert.

A century ago, many botanists viewed the inconspicuous, odorless, and often petalless flowers of the elms (Ulmus), oaks (Quercus), and walnuts (Juglans) as a primitive feature. However, recent scientific research has shown that these plants have reverted to wind pollination and are more highly evolved than once presumed. They likely appeared around 60 million years ago.

Heaths and Laurels
Ericaceae

Mountain Laurel
Kalmia latifolia (mountain laurel) in the Discovery Garden. Photo by Lee Patrick.

Members of the heath family show considerable advancement beyond more primitive flowering plants like magnolias. As flowering plants evolved, they exhibited flowers with fewer parts. Petals became fused or partially joined. In the heaths, petals are fused almost to the tip, forming a tubular, trumpetshaped bloom.

Rose Family
Rosaceae

Rose 'Gentle Hermione'
Rosa 'Gentle Hermione' in the Cranford Rose Garden. Photo by Jean-Marc Grambert.

About 50 million years ago, bees and butterflies became more diverse and abundant, and flowers began to evolve with them. Plants of the rose family developed structures that protect the female part of the flower. Rather than relying on wind pollination, they depend on insects and other animals to transfer pollen and disperse their seeds.

Legume Family
Fabaceae

Lathyrus odoratus
Sweet pea 'Old Spice Mix' Lathyrus odoratus blooms in the Fragrance Garden. Photo by Rebecca Bullene.

Closely related to the roses are the legumes. Many legumes produce asymmetrical flowers (an advanced evolutionary feature) with one large petal above, two separate lateral petals below, and two fused lower petals. This structure evolved specifically for insect pollination—in fact, some legumes developed flowers to attract a single insect species.

Honeysuckle Family
Caprifoliaceae

Lonicera heckrottii 'goldflame'
Honeysuckle (Lonicera heckrottii 'Goldflame') in full bloom near the Herb Garden. Photo by Rebecca Bullene.

Honeysuckles, abelias, and viburnums are all members of this family. Their distinctive blooms may be colorful and are often intensely fragrant. The flowers, which generally contain sweet nectar, are tube-shaped and adapted to the long tongues of pollinators such as butterflies, moths, and hummingbirds.

Willow Family
Salicaceae

Salix gracilistyla
Rose-gold pussy willow (Salix gracilistyla) shows its bright pollen near the brook at BBG. Photo by Rebecca Bullene.

Plants in the willow family, which also includes aspens and cottonwoods, are dioecious, meaning male and female flowers appear on separate plants. Willows typically produce small, petalless flowers in a structure called a catkin. They reproduce and grow quickly, and BBG’s collection now includes a variety of mature and new specimens.

Daisy Family
Asteraceae

Daisy
A daisy blooms in the Rose Arc Pool. Photo by Alexandra Muller.

Among the most advanced of flowering plants, members of the daisy family have a distinctive “composite” flower head, in which numerous very small flowers are clustered together. The central disc consists of many florets, each made up of five joined petals. Surrounding the central disk are ray florets, each with a large, prominent petal.

Monocot Border

Lilium 'Anastasia'
Lilium (lily) 'Anastasia' in the Plant Family Collection monocot border. Photo by Blanca Begert.

Over 60,000 species, including grasses and lilies, are grouped as monocots. They have a singleleaf seedling, leaves with parallel veins, and petals and flower parts in threes or multiples of three. Simple does not necessarily mean primitive: Botanists believe that monocots evolved from dicots about 100 million years ago by losing over time one of the two seed leaves found in every dicot.

Sarah Schmidt edits BBG's editorial content, including the blog, how-to articles, and the Guides for a Greener Planet handbook series.

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