Optimization of restoration techniques: In-situ transplantation experiment of an endangered clonal plant species (Typha minima Hoppe)

In the current context of biodiversity erosion, ecological restoration is sometimes the only way to reinforce plant population and preserve them from the deterioration of their natural habitat. Dwarf bulrush (Typha minima Hoppe) is an endangered pioneer clonal plant, which grows in frequently distur...

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Bibliographic Details
Published in:Ecological engineering 2021-02, Vol.160, p.106130, Article 106130
Main Authors: Popoff, Nadège, Jaunatre, Renaud, Le Bouteiller, Caroline, Paillet, Yoan, Favier, Gilles, Buisson, Morgane, Meyer, Camille, Dedonder, Eric, Evette, André
Format: Article
Language:English
Subjects:
Aquatic plants
Biodiversity
Biomass
Colonization
Embankments
Endangered plants
Endangered species
Environmental restoration
Environmental Sciences
Field experiment
Foothills
Freshwater plants
Functional traits
Hydrogeomorphological processes
Minima
Monitoring
Optimization
Pioneer species
Plant population
Plant species
Rare species
Reproduction (biology)
Restoration
Riparian vegetation
Rivers
Strip
Transplantation
Typha
Vegetative reproduction
Water levels
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Summary:In the current context of biodiversity erosion, ecological restoration is sometimes the only way to reinforce plant population and preserve them from the deterioration of their natural habitat. Dwarf bulrush (Typha minima Hoppe) is an endangered pioneer clonal plant, which grows in frequently disturbed habitats along Eurasian temperate piedmont rivers. In the Alps, its population has decreased by 85% over the last century and numerous pressures (e.g. river works) continue to threaten its remnants. The main objective of this study is to identify an adapted ecological engineering protocol for field transplantation of T. minima in order to maximize restoration success. Several transplantation experiments were implemented between 2013 and 2016 along a French alpine river, the Isère. Five distinct transplantation protocols were tested by individually varying the following parameters: bank type (redesigned bank and embankment protection), transplantation height above water level (5 levels between +0.45 m and + 1.55 m above the average water level), initial biomass transplanted (high, medium and low), initial plot shape (linear strip or square plots) and species association (without or with Salicaceae or Poaceae). During the first two or three years, several clonal traits relative to the spatial monopolization and colonization abilities of T. minima were monitored and analyzed. Our analysis showed that T. minima's ability to colonize was optimal on natural banks, at medium transplantation heights and in linear strip plots. In addition, spatial monopolization and colonization speed, through both sexual and vegetative reproduction, were maximized with a higher initial biomass. Lastly, species association did not affect the colonization ability of T. minima. Our study provides valuable information for future conservation plans and restoration projects for T. minima. •Transplanting T. minima on redesigned natural banks rather than on artificial banks improve its vegetative colonization.•T. minima performs better when transplanted between 0.75 and 1.55m above the average river water level.•Transplanting a high initial biomass (30L containers) promotes spatial monopolization of T. minima from the first year.•Transplanting in linear strip plots parallel to the river channel maximizes the area colonized by T. minima.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2020.106130