Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1111/ddi.12916
Licence creative commons licence
Title (Primary) Integrating intraspecific differentiation in species distribution models: Consequences on projections of current and future climatically suitable areas of species
Author Lecocq, T.; Harpke, A.; Rasmont, P.; Schweiger, O.
Source Titel Diversity and Distributions
Year 2019
Department BZF
Volume 25
Issue 7
Page From 1088
Page To 1100
Language englisch
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Keywords bumblebee; climate change; evolutionary significant unit; intraspecific variability; model performance; species distribution model
Abstract

Aim

Conventional species distribution models (SDMs) usually focus on the species level but disregard intraspecific variability. Phylogeographic structure and evolutionary significant units (ESU) have been proposed as pragmatic proxies to incorporate intraspecific differentiation in SDMs. Nevertheless, the efficiency of using these proxies in SDMs has been poorly investigated. We analysed how the projections of current and future climatically suitable areas can be affected when using ESU‐based or lineage‐based models compared to a species‐level model.

Location

West‐Palaearctic region.

Methods

As examples, we used three bumblebee species (133,787 observations). We assessed potential climatic niche differentiation between species level, lineages and ESUs, by determining the niche position and niche breadth for each classification level by outlying mean index analyses. Subsequently, we developed SDMs for each species and classification level separately using boosted regression trees prior to a comparison of their performances. Finally, we used the alternative models to project the extent of climatically suitable areas in 2070.

Results

We found that in spite of highly similar overall model accuracy, integrating intraspecific variability significantly increases model sensitivity (i.e., better predicting presences) while decreased model specificity (i.e., over‐predicting the range). Consequently, both predictions of current and projections of future suitable conditions differed among the three approaches.

Main conclusions

We showed that although integrating lineage or ESU information did not improve the accuracy of conventional species‐level SDMs, it led to considerably different conclusions. As SDM‐based climatic risk assessments are increasingly used to help and improve conservation plans, divergences and limitations of each modelling approach should be taken into account for developing efficient biodiversity management strategies. Lineage and ESU‐based SDMs offer the advantage to draw attention to species in which allopatric populations could display physiologically different responses to climate change when they lead to different results than species‐based models.

Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=21784
Lecocq, T., Harpke, A., Rasmont, P., Schweiger, O. (2019):
Integrating intraspecific differentiation in species distribution models: Consequences on projections of current and future climatically suitable areas of species
Divers. Distrib. 25 (7), 1088 - 1100 10.1111/ddi.12916