From Plant Press, Vol. 28, No. 2, April 2025.
A new analysis from researchers at the Smithsonian’s National Museum of Natural History reveals that nearly half of the genus Heliconia, a group of tropical plants popular for their bright, beakshaped flowers, are threatened with extinction. The findings, published in the journal Plants, People, Planet (https://doi.org/10.1002/ppp3.70000), reveal that many of these imperiled plants are not found within protected areas or botanical gardens, making additional conservation action crucial to saving these charismatic, horticulturally important and ecologically significant floras.
The new work places Heliconia among a select group of plants to undergo a detailed, comprehensive conservation assessment. Traditionally such an effort requires countless hours of demanding fieldwork. Instead, the new project relied on previous field work conducted by research botanists like W. John Kress, an emeritus curator at the museum and one of the authors of the new study, who spent decades collecting Heliconia plants in the tropics. These efforts yielded thousands of dried specimens and data-rich labels that are housed in herbaria around the world, including the museum’s United States National Herbarium.
“The data that is stored in the herbarium is a scientific treasure that makes a project like this feasible,” said conservation biologist Gary Krupnick, who heads the museum’s Plant Conservation Unit and is one of Kress’ coauthors on the new study. “We built upon the valuable time and resources that past researchers have spent going out into the field and counting plant populations.”
The genus Heliconia contains 187 species of tropical plants related to bananas. While a handful of Heliconia species are native to western Pacific islands, the majority live in rainforests throughout tropical Central and South America. Here, the plants are important ecological resources for a variety of creatures, including bats in the Pacific tropics and hummingbirds in the New World tropics, which are the primary pollinators for many Heliconia species. The plants produce nectar to entice the flying animals, who then spread pollen to other flowers as they flutter about.
Heliconia plants are famed for their flowers, which come in a variety of vivid hues, including intense yellows, fiery oranges and rosy reds. Their reproductive structures are composed of waxy, elongated leaves called bracts. Many Heliconia flowers resemble the striking plumage of birds-of-paradise. Others evoke lobster claws or toucan beaks.
Gardeners have cultivated Heliconia species for centuries as striking ornamental plants. This popularity has put some species at risk of overexploitation and poaching. In addition, Heliconia plants are threatened by habitat loss and fragmentation, invasive species, and climate change.
Until now, little was known about Heliconia populations in the wild. Only a few Heliconia plants have undergone conservation assessments, and just 21 species of the charismatic flora are currently listed on the International Union for Conservation of Nature’s (IUCN) Red List of Threatened Species.
During the pandemic, Krupnick spent time sifting through herbarium sheets on the museum’s online collection database. While in-person access to the herbarium itself was limited, all Heliconia specimens in the museum’s collection had been fully digitized and were available online.
Krupnick became interested in exploring how Heliconia populations were faring in the wild and collaborated with Kress. At the time, Kress, who first encountered these plants in 1972 and became fascinated by their vibrant flowers during field work in Peru, was working with a group of scientists to publish a detailed description of Heliconia’s evolutionary history.
Kress and Krupnick used the dataset from this prior study and analyzed nearly 10,000 Heliconia specimens. Many of these dried plants, which Kress collected, were housed in the museum’s herbarium and mounted on large sheets of paper alongside labels that contain key information on when and where each plant was collected.
“As a conservation biologist, I’m most interested in the data on the label, which tells us the what, where, when and why,” Krupnick said. “This helps us track how populations change over time.”
The team used a spatial software tool called GeoCAT (Geospatial Conservation Assessment Tool) to calculate factors like range size and the abundance of plants occupying certain areas. The team then examined how human activities in these areas have impacted forest coverage using resources like satellite imagery. They also pinpointed which Heliconia populations occur in protected areas and which species exist in botanical gardens and could potentially be reintroduced into the wild.
This new work places Heliconia among a select group of plants to undergo a detailed, comprehensive conservation assessment. Traditionally such an effort requires countless hours of demanding fieldwork. Instead, the new project relied on previous field work conducted by research botanists like W. John Kress who spent decades collecting Heliconia plants in the tropics. These efforts yielded thousands of dried specimens and data-rich labels that are housed in herbaria around the world. Heliconia atratensis is known from 16 specimens collected from 11 populations found in the understory of the Chocó-Darién moist forests of Colombia. The species is assessed as near threatened due to its narrow distribution, known populations all outside of Colombia’s protected-areas network, and no known individuals preserved in botanical gardens. This species may be difficult to grow in greenhouse conditions because of its unique soil, drainage and moisture requirements. (photo of living plant by W.J. Kress; image of herbarium specimen from the U.S. National Herbarium)
The team revealed that 87 Heliconia species (47% of the genus) are threatened with extinction, nearly half of the entire group. Alarmingly, all but one of these threatened species are found in only a few protected areas in the wild. And a relatively small number of these imperiled species exist outside their native ranges. The team discovered that the majority of Heliconia specimens growing in botanical gardens represent species of least conservation concern on their list of assessed species.
The work also found that certain lineages within the Heliconia genus are particularly endangered. According to Kress, more work is needed to determine what makes these subsets of related species so vulnerable. But the overarching takeaway is clear.
“When you realize that whole evolutionary lineages of life with multiple species may be similarly threatened with extinction, it makes you stand up and notice that something is really happening here,” Kress said.
The researchers list 45 Heliconia species that they consider top priorities for additional protection. These include species that reside outside of protected areas and are not well represented in botanical gardens. It also highlights species that are adapted to thrive in fragile environments, such as high-altitude cloud forests that are particularly susceptible to change.
“This study provides a blueprint for how to save this group of plants, starting with this list of priority species,” Krupnick said.
At the end of March, Kress and Krupnick attended the Heliconia Society International (HSI) conference in Hawaii, a gathering of Heliconia scientists and commercial growers. They hosted a workshop to initiate a new, concerted effort by members of HSI to extend and expand the efforts of botanical gardens and private living collections to conserve in ex situ collections of the most endangered species of Heliconia, focusing on the 45 priority species for conservation highlighted in the new study.
Left: The Panamanian Heliconia bella was discovered and named by W. John Kress
Right: Heliconia reticulata in Panama.
(photos by W.J. Kress)
The researchers also hope this project will inspire similar efforts to study other botanical groups. To date, less than 20% of all plant species have undergone conservation assessments. And without understanding the threatened statuses of certain groups, it remains difficult to chart a path forward.
“Now that we know the conservation status of every one of the 187 species of Heliconia, we can construct a coherent plan of how to protect them,” Kress said. “That does give me a tidbit of hope.”
In addition to Krupnick and Kress, Tomáš Fér of Charles University in Prague and Mónica Carlsen of the Missouri Botanical Garden were coauthors on the study.
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