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Restoration of biogeomorphic systems by creating windows of opportunity to support natural establishment processes
Fivash, G.S.; Temmink, R.J.M.; D’Angelo, M.; van Dalen, J.; Lengkeek, W.; Didderen, K.; Ballio, F.; van der Heide, T.; Bouma, T.J. (2021). Restoration of biogeomorphic systems by creating windows of opportunity to support natural establishment processes. Ecol. Appl. 31(5): e02333. https://doi.org/10.1002/eap.2333

Additional data:
In: Ecological Applications. Ecological Society of America: Tempe, AZ. ISSN 1051-0761; e-ISSN 1939-5582, more
Peer reviewed article  

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Author keywords
    biogeomorphic systems; microtopography; natural establishment; restoration; salt marshes; windows of opportunity

Authors  Top 
  • Fivash, G.S.
  • Temmink, R.J.M.
  • D’Angelo, M.
  • van Dalen, J., more
  • Lengkeek, W.
  • Didderen, K.
  • Ballio, F.
  • van der Heide, T., more
  • Bouma, T.J., more

Abstract

    In degraded landscapes, recolonization by pioneer vegetation is often halted by the presence of persistent environmental stress. When natural expansion does occur, it is commonly due to the momentary alleviation of a key environmental variable previously limiting new growth. Thus, studying the circumstances in which expansion occurs can inspire new restoration techniques, wherein vegetation establishment is provoked by emulating natural events through artificial means. Using the salt‐marsh pioneer zone on tidal flats as a biogeomorphic model system, we explore how locally raised sediment bed forms, which are the result of natural (bio)geomorphic processes, enhance seedling establishment in an observational study. We then conduct a manipulative experiment designed to emulate these facilitative conditions in order to enable establishment on an uncolonized tidal flat. Here, we attempt to generate raised growth‐promoting sediment bed forms using porous artificial structures. Flume experiments demonstrate how these structures produce a sheltered hydrodynamic environment in which suspended sediment and seeds preferentially settle. The application of these structures in the field led to the formation of stable, raised sediment platforms and the spontaneous recruitment of salt‐marsh pioneers in the following growing season. These recruits were composed primarily of the annual pioneering Salicornia genus, with densities of up to 140 individuals/m2 within the structures, a 60‐fold increase over ambient densities. Lower abundances of five other perennial species were found within structures that did not appear elsewhere in the pioneer zone. Furthermore, recruits grew to be on average three times greater in mass inside of the structures than in the neighboring ambient environment. The success of this restoration design may be attributed to the combination of three factors: (1) enhanced seed retention, (2) suppressed mortality, and (3) accelerated growth rates on the elevated surfaces generated by the artificial structures. We argue that restoration approaches similar to the one shown here, wherein the conditions for natural establishment are actively mimicked to promote vegetation development, may serve as promising tools in many biogeomorphic ecosystems, ranging from coastal to arid ecosystems.


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