- Get involved in local and global conservation efforts.
- Visit the Garden often. Your patronage allows us to continue working towards global conservation goals.
- Spread the word about conservation projects.
- Support the Garden and other organizations that research and protect endangered plants.
The Atlanta Botanical Garden is actively involved in Global Conservation.
The key to the Garden's Conservation Program is using low-cost restoration and recovery techniques, and to work directly with local and global landowners, relevant agencies, and botanical institutions and organizations.
The success of the program is based on the high level of horticultural and botanical expertise of its staff members, their dedication to each project and their ability to work on a variety of different levels - local, national or international.
Researching the Origins of Flowering Plants
Amborella trichopoda grows in New Caledonia, an archipelago halfway between Australia and Fiji. In 2005, Ron Determann, Garden Conservation Director, visited New Caledonia and returned with Amborella seeds. New Caledonia plants are tricky to grow and keep alive, but under the care of Garden horticulturalists, those original plants thrived, flowered and produced seed. Today several generations of Amborella from those original seeds live at the Garden.
By using living plant material provided by the Garden, scientists with the Amborella Genome Project have completed a map of the Amborella genome. DNA analysis has shown that when placing all flowering plants (angiosperms) on an evolutionary tree, Amborella trichopoda is on the lowest branch. This means that Amborellaceae is the oldest known angiosperm family with an extant (still living) member. Being such an "early brancher" (or basal angiosperm) means that the Amborella's genome map could provide a better understanding of flowering plant evolution. The map provides a view into the genetic toolbox of flowering plants at an early stage in their evolution.
The Garden has an extensive collection of plants from New Caledonia thanks in part to New Caledonia's IRD (L'Institut de recherche pour le développement). These plants are maintained as an ex situ (off-site) conservation collection which provides researchers and conservationists with vital resources.
The Garden has teamed with North Carolina conservationists in Uganda in an effort to preserve an endangered cycad. Conservatory Manager for the Atlanta Botanical Garden, Paul Blackmore, traveled with representatives of the North Carolina Zoo to the TOORO Botanic Garden in Uganda on the mission to preserve the endangered cycad.
Native only to Uganda, Encephalartos whitelockii is found on the western side of the country along the Mpanga River Fall. This evergreen grows on particularly rocky slopes with abundant grasses amongst sparse woodland, an environment where rapid and frequent fires destroy the plant’s long, spiny foliage and threaten its distribution. The biggest threat for E. whitelockii , however, is the eminent construction of a dam, which would flood the population residing along the Mpanga River Falls.
Botanical gardens around the world are working to save the germplasm of Encepahalrtos whitelockii, and Blackmore is working with the North Carolina Zoo to assess the damage to this plant. Meanwhile, populations of the cycad have been distributed throughout Uganda in conservation efforts.
Amphibian Conservation Scientist for the Atlanta Botanical Garden, Danté Fenolio, recently returned from field work in China, Thailand, and Brasil, where he was working on a grant-funded biodiversity book that focuses on wildlife living in the dark, such as cave and deep-sea life.
He spent three weeks photographing Chinese, Thai, and Brasilian cave wildlife, especially blind cave fish. The work paid off as he and his Chinese collaborators discovered at least two new species of blind cave fish. The highlight of the trips was photographing the rare Waterfall Climbing Cave Loach, a pink, blind fish found only in several caves on the border of Burma and Thailand. This species of fish actually climbs out of the water and eats bacteria growing on wet rocks in caves.