On the ecological and evolutionary significance of storage in clonal plants |
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Authors: | Jun-Ichirou Suzuki & Josef Stuefer |
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Institution: | Institute of Low Temperature Science, Hokkaido University, Sapporo 060-0819, Japan,,;Department of Plant Ecology and Evolutionary Biology, Utrecht University, Sorbonnelaan 16 3584 CA Utrecht, The Netherlands |
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Abstract: | Environmental heterogeneity has received wide attention in clonal plant research over the last decade. Most studies have focussed on the effects of spatial variation in environmental conditions on the performance of ramets and genets, while the effects of temporal heterogeneity have only occasionally been studied. As a consequence, our current knowledge about functional responses of clonal plants to habitat patchiness is biased towards spatial aspects of environmental heterogeneity. Nevertheless, temporal changes in biotic and abiotic conditions do occur in most natural habitats, and they are very likely to affect plant growth and performance, and to create positive selection pressures on traits that can buffer plants against unfavorable consequences of this variability. Storage of resources is a widespread phenomenon in clonal plant species. Typical clonal structures such as stolons, rhizomes and hibernacles serve as storage organs. However, the ecologic significance of storage in clonal plant structures remains partly unclear. We suggest that the lack of understanding with respect to resource storage in clonal plants be related to our poor knowledge of ecologic implications of temporal habitat heterogeneity in natural environments. Resource storage can be understood as a safety measure against temporal changes in the growing conditions of plants. This paper summarizes existing information about the ecologic relevance of storage in clonal plants and it tries to develop a framework for further investigation of resource storage as a strategy to enhance the performance of clonal plants in temporally variable environments. |
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Keywords: | heterogeneity plant strategies rhizomes stolons temporal–spatial heterogeneity tubers |
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