The findings suggest that complex interactions between trees and other organisms should be carefully considered when determining the combination of trees in a forest to ensure a functional ecosystem is maintained.
Diversity is essential to healthy ecosystems. Forests made up of a variety of tree species are more productive, as they make more efficient use of resources. This is because different species fill distinct niches -- meaning they have different optimal physical and environmental conditions, such as their terrain, and have different interactions with other species such as predation events, meaning they compete less. Additionally, having multiple tree species can reduce the negative impacts of herbivores and soil fungi that might compete for the trees' nutrients. Few studies have looked at the role of genetic diversity within each tree species in a forest, but some plant studies suggest that genetic diversity within a species is also beneficial to the ecosystem.
"To better understand the effects of genetic diversity in forests and guide reforestation efforts, we looked at how both the variety of species and genetic diversity within species affect forest productivity," says Ting Tang, the co-lead author of the study, a doctoral student at the University of the Chinese Academy of Sciences in Beijing, China.
Tang and colleagues used data from a long-term large tree species and genetic diversity experiment in a subtropical forest (www.bef-china.com, Bruelheide et al., 2014). Tree species diversity and genetic diversity within species were manipulated to generate four different plant diversity levels and the team measured five structural and chemical leaf traits that are known to be highly variable and relate to rates of resource acquisition.
The team's investigations showed that trees grown in forests with multiple tree species were more productive than those grown in single-species (or monoculture) forests. Forests with four different tree species had less diversity in soil fungi than monoculture forests, reducing the need for the trees to compete with fungi for resources. There was also less pressure from herbivores than in monoculture forests.
The team did not see reduced soil fungi diversity or herbivore pressure in forests that included one tree species with four distinct genetic backgrounds. But forests that had four different tree species -- with individual trees from four genetically distinct family groups in each -- did result in beneficial effects on both fungi diversity and herbivore pressure.
"We found that both species and genetic diversity promote forest productivity by increasing the ability of trees to maximise the use of resources while reducing damage caused by herbivores and competition from soil fungi," Tang comments.