Gaps in global alien plant trait data and how to fill them

Aim Functional traits help to understand the ecological processes underlying biological invasions. The extent to which trait data are available for alien plants at the global scale is unknown. In this study, we assess the availability of trait data and identify global gaps and biases Location Global Time Period Present Major taxa studied Vascular plants

We used the GloNAF database to get a global list of plants naturalized outside their native range and their distributions. We combined data from the four largest trait databases: AusTraits, BIEN, GIFT, and TRY, on which we performed taxonomic and trait harmonization. We studied the availability of trait data. Then, based on the distribution data, we tested to what extent trait knowledge was driven by ecological and socioeconomic variables.

We found that the species-by-trait matrix (2,764 traits for 14,539 species) was only 1.5% complete, with most traits measured for very few species. Only ten traits were available for more than 50% of all alien plants. Four percent of the species lacked all trait data, while 27% of species had data for the three key plant traits: leaf mass per area, seed mass, and plant height. We observed a strong latitudinal gradient in trait knowledge, with tropical regions showing lower trait knowledge than higher latitudes, particularly in the Northern hemisphere. Growth form, range size, and invasion status were the strongest predictors of trait knowledge, with widespread, invasive tree species being better recorded than other alien species. Main conclusions We identified large trait data gaps at a global scale for alien plants, which limits our ability to study functional invasion ecology at large spatial scales. These gaps are partly driven by uneven sampling and a lack of trait data integration across sources. We recommend prioritizing the most invasion-relevant traits and coordinating community efforts of plant and invasion scientists to sample them in a standardized way, which could help close these gaps. DOI https://doi.org/10.32942/X2FH0T Subjects Biodiversity, Ecology and Evolutionary Biology, Terrestrial and Aquatic Ecology

functional traits, naturalized plants, non-native plants, missing trait, data gaps, raunkiaerian shortfall, biodiversity shortfall, trait database Dates Published: 2024-10-17 12:42 Last Updated: 2025-10-17 06:57 Older Versions License CC BY Attribution 4.0 International Additional Metadata Conflict of interest statement: None Data and Code Availability Statement: https://doi.org/10.5281/zenodo.13940200 Language: English