U.S. Department of Energy Office of Biological and Environmental Research

PI-Submitted Research Highlights for
Terrestrial Ecosystem Science Program

Patterns Of Tree Mortality In A Temperate Deciduous Forest Derived From A Large Forest Dynamics Plot

Stuart Davies
ForestGEO-CTFS, Smithsonian Tropical Research Institute


Figure. Mortality rate (A) and aboveground biomass mortality rate (B) by species over three census periods, along with histograms of these rates (C, D).

(figure also used in highlight slide)

12 April 2017

Development of a method for characterizing modes of tree mortality to advance understanding and modeling of forest dynamics and the carbon cycle

The Science
Forest mortality has overriding control on the forest carbon cycle. However, the drivers of mortality in forests are not well understood, and are consequently not well represented in earth system models. In this study, we develop a method for assessing how trees die and how mortality rates differ among species, size classes, and functional groups. The new method will capture rare mortality events and detect mortality events that may be linked to environmental change.

The Impact
We use four censuses of a 25.6 ha ForestGEO forest dynamics plot to assess mortality patterns. With such a large sample size it is possible to characterize mortality rates by size, species, plant functional type, and microhabitat allowing for detailed understanding of the drivers of mortality. The method developed in this paper forms the basis of a protocol now being applied at 10 large-scale tropical ForestGEO plots under the NGEE-Tropics initiative.

Since understanding fine-scale mortality processes is essential for modeling forest responses to changing climatic and environmental conditions, this work makes important progress in providing empirical observations that will inform future modeling activities in the NGEE-Tropics project. Furthermore, widespread application of annual tree mortality surveys on large forest dynamics plots will provide greater insights into the annual variability of forest structural and compositional changes that result from tree death associated with anthropogenic, ecological, or climatic disturbances.


Daniel Stover
Daniel.Stover@science.doe.gov (301-903-0289)

(PI Contact)
Stuart Davies
ForestGEO-CTFS, Smithsonian Tropical Research Institute

Funds for the full tree censuses were provided by the Smithsonian Institution Center for Tropical Forest Science–Forest Global Earth Observatory (CTFS-ForestGEO). Annual mortality censuses and the analyses presented here were funded by a Smithsonian Competitive Grants Program in Science award to KAT. CYE received support from the Mary Jean Hale Fund. SJD received support from the Next Generation Ecosystem Experiment (NGEE) Tropics project.

Gonzalez-Akre, E. B., Meakem, V., Eng, C.Y., Tepley, A. J., Bourg, N. A., McShea, W. J., Davies, S. J. and Anderson-Teixeira, K. J. (2016). Patterns of tree mortality in a temperate deciduous forest derived from a large forest dynamics plot. Ecosphere 7(12): e01595. doi: 10.1002/ecs2.1595


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