Tag Archives: environment

New paper on spatial synchrony of forest tree population dynamics published in Proceedings of the Royal Society B

Light red meranti (Shorea parvifolia) is a canopy tree species native to tropical forests in Southeast Asia that can grow to over 65 m. In the two decades to 2005, the abundance of light red meranti decreased by 60% in a ForestGEO research plot in Pasoh, Malaysia. In a ForestGEO plot in Lambir, Malaysia, over 1000 km away, the same species decreased by 25% over a similar period. This example prompts the question of whether forest tree population dynamics are in general synchronised across space. In a paper just published in Proceedings of the Royal Society B, we found that the answer is yes.

We collated forest inventory data at three different scales—local, regional and global—and found signals of synchrony up to scales well beyond 100 km. For the Pasoh and Lambir forests, in particular, there was clear evidence of synchrony for larger trees (greater than 10 cm diameter) although not for smaller trees. A technical challenge in our analyses was developing statistical methods to produce an aggregate estimate of synchrony for each pair of forest sites while accounting for the noise inherent in datasets with large numbers of rare species. Although existing methods are available to estimate synchrony for individual species, these were not appropriate for our forest data because of the short duration of our datasets (a few decades at most) relative to the typical tree generation time. Our novel methods make use of copulas, which are used to model multivariate statistical phenomena in quantitative finance.

We attributed the observed synchrony in tree population dynamics to synchronised environmental drivers, such as climate, although we lacked the statistical power to identify particular drivers. The observed synchrony suggests greater risk of extinction for tree species that are more spatially constrained, especially those with range dimensions less than ~100 km. On the other hand, species with larger ranges may be buffered from extinction by the lack of synchrony in their population dynamics across space.

Forest tree population dynamics are synchronised across space, with synchrony detectable even beyond 100 km. Dark blue, light blue and green curves indicate the results of local, regional and global analyses. Line types indicate the spatial grain of each analysis: synchrony is lower for smaller spatial grains because of immigration.

Chisholm, R. A., T. Fung, K. J. Anderson-Teixeira, N. A. Bourg, W. Y. Brockelman, S. Bunyave- jchewin, C.-H. Chang-Yang, Y.-Y. Chen, G. B. Chuyong, R. Condit, H. S. Dattaraja, S. J. Davies, S. Ediriweera, C. E. N. Ewango, E. S. Fernando, I. A. U. N. Gunatilleke, C. V. S. Gunatilleke, Z. Hao, R. W. Howe, D. Kenfack, T. L. Yao, J.-R. Makana, S. M. McMahon, X. Mi, M. Bt. Mohamad, J. A. Myers, A. Nathalang, Á. J. Pérez, S. Phumsathan, N. Pongpattananurak, H. Ren, L. J. V. Rodriguez, R. Sukumar, I.-F. Sun, H. S. Suresh, D. W. Thomas, J. Thompson, M. Uriarte, R. Valencia, X. Wang, A. T. Wolf, and J. K. Zimmerman (2024) Assessing the spatial scale of synchrony in forest tree population dynamics. Proceeding of the Royal Society B 291: 20240486

New coauthored Nature paper on the impacts of conspecific neighbours on forest tree survival

To explain high tropical forest tree species diversity, ecologists have hypothesised that pests, pathogens and resource limitation keep the abundances of common tree species in check, thereby allowing rare tree species to persist. If this hypothesis is true then individual trees surrounded by more neighbours of the same species should have lower survival. This is known as conspecific negative density dependence (CNDD). Past tests of the CNDD hypothesis have been criticised for statistical flaws, mainly arising from the use of static data (see here and here). In a study led by Lisa Hülsmann of the University of Bayreuth and just published in Nature, we conducted a comprehensive test of the hypothesis using a dynamic data set comprising repeated censuses of 23 forest plots from the global ForestGEO network.

We found that average CNDD across tree species is generally weak and exhibits little relationship to latitude, contrary to the hypothesis that CNDD explains high tropical tree diversity. Moreover, CNDD was extremely variable across species within a forest, which may limit its ability to maintain diversity. However, CNDD was higher for rare than common species in the tropics, suggesting that CNDD plays a stronger role in structuring abundances in the tropics. Our results paint a more nuanced picture of the role of CNDD in forest community ecology, and point to future experimental and theoretical studies that will be needed to clarify this role further.

The idea for this study arose when Ryan visited Lisa Hülsmann and Florian Hartig at the University of Regensburg, Germany in 2018. The paper is a collaboration between 52 authors, primarily associated with the different ForestGEO plots around the world.

Hülsmann, L., R. A. Chisholm, L. Comita, M. D. Visser, M. de Souza Leite, S. Aguilar, K. J. Anderson-Teixeira, N. A. Bourg, W. Y. Brockelman, S. Bunyavejchewin, N. Castaño, C.-H. Chang-Yang, G. B. Chuyong, K. Clay, S. J. Davies, A. Duque, S. Ediriweera, C. Ewango, G. S. Gilbert, J. Holík, R. W. Howe, S. P. Hubbell, A. Itoh, D. J. Johnson, D. Kenfack, K. Král, A. J. Larson, J. A. Lutz, J.-R. Makana, Y. Malhi, S. M. McMahon, W. J. McShea, M. Mohamad, M. Nasardin, A. Nathalang, N. Norden, A. A. Oliveira, R. Parmigiani, R. Perez, R. P. Phillips, N. Pongpattananurak, I.-F. Sun, M. E. Swanson, S. Tan, D. Thomas, J. Thompson, M. Uriarte, A. T. Wolf, T. L. Yao, J. K. Zimmerman, D. Zuleta, and F. Hartig. 2024. Latitudinal patterns in stabilizing density dependence of forest communities. Nature https://doi.org/10.1038/s41586-024-07118-4

Pasoh Forest Reserve, in Peninsular Malaysia, is the site of one of the 23 ForestGEO plots used in our analyses. Photo credit: ForestGEO