Dry forests in Latin America are among the world’s most threatened tropical forests. Less than 10 percent of their original extent remains in many countries, much less than many rain forests such as Amazonia, which remains approximately 80 percent intact.
Dry forests were the cradle of pre-Colombian civilization in Latin America, and the source of globally important crops such as maize, beans, peanuts and tomato, but despite this and their widespread destruction, they have been long-overlooked by scientists and conservationists.
The Latin American Seasonally Dry Tropical Forest Floristic Network (DRYFLOR), funded by a Leverhulme Trust International Network grant and including more than 50 scientists and conservationists from Latin American and the Caribbean and led from the Royal Botanic Garden Edinburgh, has developed an unprecedented database of dry forest tree species, based upon 1602 inventories across Latin America and the Caribbean.
Janet Franklin, Regent’s Professor in the School of Geographical Sciences and Urban Planning at ASU, was one of many contributors to the project. She shared inventory data from dry forests in the Caribbean, collected on a National Science Foundation-sponsored research project.
In a paper just published in the journal Science, the researchers show that dry forests in Latin America and the Caribbean contain a remarkable 6958 species of woody plants.
The data demonstrate that the species found in different regions of dry forest are seldom shared, meaning that each contains species growing nowhere else. This conveys a simple but urgent message that numerous protected areas across many countries will be needed to protect the full diversity of dry forests. In the light of probable warmer climates in the tropics, conservation of unique dry forest species that have adaptations to heat and drought should be global priority.
DRYFLOR’s results provide a scientific framework within which, for the first time, national decision-makers can contextualize the significance of their dry forests at a regional and continental scale.
“This was an amazing example of grassroots community building among scientists and conservationists who contributed data and expertise,” Franklin said.

“By amassing this amazing dataset and including those who collected the data in its analysis and interpretation, we were able to discover large-scale patterns that have very important implications for conservation of the world’s most endangered tropical forest ecosystem.”