Dominance and rarity in tree communities across the globe: Patterns, predictors and threats

Hordijk, I., Bialic‐Murphy, L., Lauber, T., Routh, D., Poorter, L., Rivers, M., ter Steege, H., Liang, J., Reich, P., de‐Miguel, S., Nabuurs, G.-J., Gamarra, J., Chen, H., Zhou, M., Wiser, S., Pretzsch, H., Paquette, A., Picard, N., Hérault, B., Bastin, J.-F., et al. (2024). Dominance and rarity in tree communities across the globe: Patterns, predictors and threats. Global Ecology and Biogeography ee13889. 10.1111/geb.13889.

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Abstract

Aim
Ecological and anthropogenic factors shift the abundances of dominant and rare tree species within local forest communities, thus affecting species composition and ecosystem functioning. To inform forest and conservation management it is important to understand the drivers of dominance and rarity in local tree communities. We answer the following research questions: (1) What are the patterns of dominance and rarity in tree communities? (2) Which ecological and anthropogenic factors predict these patterns? And (3) what is the extinction risk of locally dominant and rare tree species?

Location
Global.

Time period
1990–2017.

Major taxa studied
Trees.

Methods
We used 1.2 million forest plots and quantified local tree dominance as the relative plot basal area of the single most dominant species and local rarity as the percentage of species that contribute together to the least 10% of plot basal area. We mapped global community dominance and rarity using machine learning models and evaluated the ecological and anthropogenic predictors with linear models. Extinction risk, for example threatened status, of geographically widespread dominant and rare species was evaluated.

Results
Community dominance and rarity show contrasting latitudinal trends, with boreal forests having high levels of dominance and tropical forests having high levels of rarity. Increasing annual precipitation reduces community dominance, probably because precipitation is related to an increase in tree density and richness. Additionally, stand age is positively related to community dominance, due to stem diameter increase of the most dominant species. Surprisingly, we find that locally dominant and rare species, which are geographically widespread in our data, have an equally high rate of elevated extinction due to declining populations through large-scale land degradation.

Main conclusions
By linking patterns and predictors of community dominance and rarity to extinction risk, our results suggest that also widespread species should be considered in large-scale management and conservation practices.

Item Type: Article
Research Programs: Advancing Systems Analysis (ASA)
Advancing Systems Analysis (ASA) > Novel Data Ecosystems for Sustainability (NODES)
Biodiversity and Natural Resources (BNR)
Biodiversity and Natural Resources (BNR) > Agriculture, Forestry, and Ecosystem Services (AFE)
Depositing User: Luke Kirwan
Date Deposited: 18 Jul 2024 08:17
Last Modified: 23 Jul 2024 13:40
URI: https://pure.iiasa.ac.at/19894

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