Plants intertwine fluvial landform dynamics with ecological succession and natural selection: a niche construction perspective for riparian systems

To contribute to the development of a macroevolutionary framework for riparian systems, reinforcing conceptual linkages between earth surface processes and biological and ecological processes. Riparian systems. Literature review leading to an original proposition for perceiving the functioning of ri...

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Bibliographic Details
Published in:Global ecology and biogeography 2009-07, Vol.18 (4), p.507-520
Main Authors: Corenblit, Dov, Steiger, Johannes, Gurnell, Angela M, Naiman, Robert J
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biogeomorphic succession
Biological and medical sciences
Ecological engineering
Ecological life histories
Ecological succession
ecosystem engineers
Ecosystems
Environmental studies
Floods
Freshwater
Fundamental and applied biological sciences. Psychology
General aspects
Humanities and Social Sciences
niche construction
Plants
Research Review
riparian conservation
Riparian ecology
riparian plants
riparian systems
Sediments
Species
Synecology
Vegetation
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Summary:To contribute to the development of a macroevolutionary framework for riparian systems, reinforcing conceptual linkages between earth surface processes and biological and ecological processes. Riparian systems. Literature review leading to an original proposition for perceiving the functioning of riparian systems in a new and different way. Riparian systems provide diverse landforms, habitats and resources for animals and plants. Certain organisms, defined as 'ecosystem engineers', significantly create and modify the physical components of riparian systems. Many studies have highlighted such engineering effects by animals on riparian systems, but the identification and understanding of the effects and responses of plants within fluvial corridors have emerged only recently. The modulation of matter, resources and energy flows by engineering plants helps establish characteristic sequences of fluvial landform creation and maintenance associated with synergetic ecological successions. We relate this process to the concept of niche construction, developed mainly by evolutionary biologists. Feedbacks between adaptive responses of riparian plants to flow regime and adjusting effects on biostabilization and bioconstruction are discussed in the context of niche construction at the scale of ecological succession and the evolution of organisms. Our conceptualization forges an integrated approach for understanding vegetated fluvial systems from a macroevolutionary perspective, for elucidating riparian ecosystem dynamics and potentially for establishing long-term stream conservation and restoration strategies.
ISSN:1466-822X
1466-8238
1466-822X
DOI:10.1111/j.1466-8238.2009.00461.x