The invisible heterogeneity of forests -β-diversity of volatiles

Publication date

2026-04

Authors

Carlson, Lena
Müller, Jörg
Ammer, Christian
Bässler, Claus
Bevanda, Mirjana
Biedermann, Peter H.W.
Bradler, Pia M.
Castañeda-Gómez, Antonio J.
Delory, Benjamin M.ORCID 0000-0002-1190-8060ISNI 0000000518044500
Dittrich, Sebastian

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

Context: Volatile organic compounds (VOCs) create invisible chemical landscapes that influence ecosystem processes. Yet whether VOC β-diversity (i.e., variability in VOC composition between patches) responds to structural heterogeneity and reflects silvicultural habitat management remains unclear. Objectives: In a large field experiment, we quantified how enhanced structural beta complexity (ESBC) affects VOC β-diversity patterns and investigated potential drivers and ecological effects in temperate production forests. Methods: We sampled VOCs in ambient forest air using Tenax/Carboxen adsorbent traps at forest floor and 1 m heights across 234 treatment and control forest patches in six German regions. We analyzed VOCs via thermal desorption-gas chromatography mass-spectrometry (TD-GCMS) and examined environmental drivers including deadwood characteristics, canopy cover, tree species dissimilarity, and herb layer dissimilarity. We tested potential ecological relevance by analyzing saproxylic beetle community responses. Results: VOC β-diversity increased significantly at 1 m height in heterogeneous forests compared to homogeneous forests, but we found no significant change at the forest floor. Deadwood volume and deadwood structural diversity, rather than canopy openness, were identified as the main drivers of increasing VOC β-diversity. Dissimilarity in beetle community composition was associated with VOC β-diversity, but only for forest floor VOCs, suggesting these chemical patterns may correlate with variables beetles respond to. Conclusions: Our findings suggest that volatile β-diversity represents an overlooked dimension of habitat heterogeneity, one that creates invisible chemical heterogeneity influencing inter- and intra-species interactions and ecosystem processes. We demonstrate that enhancing forest heterogeneity through deadwood retention increases both structural heterogeneity and volatile β-diversity.

Keywords

Chemical ecology, Deadwood, Forest ecology, Forest management, Heterogeneity, Saproxylic beetles, Volatile organic compounds, β-diversity, Geography, Planning and Development, Ecology, Nature and Landscape Conservation

Citation

Carlson, L, Müller, J, Ammer, C, Bässler, C, Bevanda, M, Biedermann, P H W, Bradler, P M, Castañeda-Gómez, A J, Delory, B M, Dittrich, S, Dyson, B L, Fichtner, A, Mitesser, O, von Oheimb, G, Pflumm, L, Pierick, K, Rothacher, J, Scherer-Lorenzen, M, Schwalb-Willmann, J, Wegmann, M, Wild, C & Schmitt, T 2026, 'The invisible heterogeneity of forests -β-diversity of volatiles', Landscape Ecology, vol. 41, no. 4, 62. https://doi.org/10.1007/s10980-026-02323-0