Some ecologists believe that species richness is positively related to ecosystem productivity, while others conclude that the relationship is bell-shaped or they are unrelated. Using big data, Purdue University scientists now know which theory is correct—all of them.

Biodiversity-productivity relationships would be useful to natural resource managers who want to promote timber production or forest conservation. Some studies show a positive relationship between the number of species present and the productivity in an ecosystem. Others, however, show no correlation or a bell shape, in which productivity increases with biodiversity until a point at which more species lead to a decline. Those studies, however, have often looked at a relatively small number of plots in limited spatial extent.

Songlin Fei, a forest ecologist in Purdue’s Department of Forestry and Natural Resources, analyzed U.S. Forest Inventory and Analysis plant data from 2012-16 that included species composition, diameter, height, age and other attributes from more than 115,000 forest plots from the 48 contiguous states. Findings, reported in the journal Nature Communications, reveal that relationships between biodiversity and forest productivity depend strongly on climate.

“There have been quite contradictory and inconsistent results reported on the relationships between biodiversity and productivity. Now we have an explanation,” Fei said. “In a sense, everyone was right, but it depended on their climates.”

Fei and colleagues from the United States, Sweden, China and New Zealand demonstrate that there is a positive biodiversity-productivity relationship in dry, especially warm climates. In those places, productivity increases along with species richness.

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But in areas that are humid, the relationship between biodiversity and productivity curves. Biodiversity and productivity increase together until a point at which more species begin to cause productivity declines.

The findings are important for management, restoration and conservation of forests, many of which provide important ecosystem services but are threatened by deforestation, climate change and invasive species.

“This shows that we cannot have a one-size-fits-all approach to managing forests,” Fei said. “Depending on the climate, tradeoffs may need to be made when managing for species diversity or productivity. This helps to conduct localized precision forest management practices.”

Fei added that climate change should also be considered when making these management decisions. A cool, wet forest today could look much different in the coming decades.

“Maybe you used to be able to increase both biodiversity and productivity in a given forest, but that could change,” Fei said. “Climate change is going to push these forests into a different climate zone, potentially changing the biodiversity-productivity relationship.”


Provided by:
Purdue University

More information:
Songlin Fei et al. Impacts of climate on the biodiversity-productivity relationship in natural forests. Nature Communications (2018). DOI: 10.1038/s41467-018-07880-w

Image:
A Purdue University study reveals that relationships between biodiversity and forest productivity depend strongly on climate.
Credit: Purdue University