Your search keyword '"Henneberg, Lorenz"' showing total 2 results

1. Rapid adaptive evolution to drought in a subset of plant traits in a large‐scale climate change experiment.

Author

Metz, Johannes, Lampei, Christian, Bäumler, Laura, Bocherens, Hervé, Dittberner, Hannes, Henneberg, Lorenz, Meaux, Juliette, Tielbörger, Katja, and Salguero‐Gomez, Roberto

Subjects

CLIMATE change, DROUGHTS, BIOTIC communities, PLANT communities, RAINFALL

Abstract

Rapid evolution of traits and of plasticity may enable adaptation to climate change, yet solid experimental evidence under natural conditions is scarce. Here, we imposed rainfall manipulations (+30%, control, −30%) for 10 years on entire natural plant communities in two Eastern Mediterranean sites. Additional sites along a natural rainfall gradient and selection analyses in a greenhouse assessed whether potential responses were adaptive. In both sites, our annual target species Biscutella didyma consistently evolved earlier phenology and higher reproductive allocation under drought. Multiple arguments suggest that this response was adaptive: it aligned with theory, corresponding trait shifts along the natural rainfall gradient, and selection analyses under differential watering in the greenhouse. However, another seven candidate traits did not evolve, and there was little support for evolution of plasticity. Our results provide compelling evidence for rapid adaptive evolution under climate change. Yet, several non‐evolving traits may indicate potential constraints to full adaptation. [ABSTRACT FROM AUTHOR]

Published

2020

2. Short-term drought and long-term climate legacy affect production of chemical defenses among plant ecotypes.

Author

Tomiolo, Sara, Metz, Johannes, Blackwood, Christopher B., Djendouci, Karin, Henneberg, Lorenz, Müller, Caroline, and Tielbörger, Katja

Subjects

*PLANT chemical defenses, *PLANT chemical ecology, *EFFECT of environment on plants, *DROUGHTS & the environment, *BRASSICACEAE, *PLANT ecology

Abstract

Long and short-term climatic variation affect the ability of plants to simultaneously cope with increasing abiotic stress and biotic interactions. Specifically, ecotypes adapted to different climatic conditions (i.e., long-term legacy) may have to adjust their allocation to chemical defenses against enemies under acute drought (i.e., short-term response). Although several studies have addressed drought effects on chemical defense production, little is known about their intraspecific variation along resource gradients. Studying intraspecific variation is important for understanding how different environments select for defense strategies and how these may be affected directly and indirectly by changing climatic conditions. We conducted greenhouse experiments with the annual Biscutella didyma (Brassicaceae) to test the effects of long-term climatic legacy versus short-term drought stress on the concentrations of defense compounds (glucosinolates). To this aim, four ecotypes originating from a steep aridity gradient were exposed to contrasting water treatments. Concentrations of chemical defenses were measured separately in leaves of young (8 weeks) and old (14 weeks) plants, respectively. For young plants, ecotypes from the wettest climate (long-term legacy) as well as plants receiving high water treatments (short-term response) were better defended. A marginally significant interaction suggested that wetter ecotypes experienced a larger shift in defense production across water treatments. Older plants contained much lower glucosinolate concentrations and showed no differences between ecotypes and water treatments. Our results indicate that younger plants invest more resources into chemical defenses, possibly due to higher vulnerability to tissue loss compared to older plants. We propose that the strong response of wet ecotypes to water availability may be explained by a less pronounced adaptation to drought. [ABSTRACT FROM AUTHOR]

Published

2017