Planting techniques and abiotic variation at two salt marsh restoration sites in the Bay of Fundy

Salt marshes provide many important ecosystem services, and interest in their restoration is growing in response to climate change. In Maritime Canada, salt marsh restoration projects have focused on restoring tidal flow without planting. Over time, these sites can show persistent deficits in vegeta...

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Bibliographic Details
Published in:Restoration ecology 2023-03, Vol.31 (3), p.n/a
Main Authors: Rabinowitz, Tasha R. M., Lundholm, Jeremy T., Graham, Jennie M., Bowron, Tony M., Proosdij, Danika
Format: Article
Language:English
Subjects:
Aquatic plants
Climate change
Ecosystem services
Growth rate
Halophytes
Indigenous species
managed realignment
Maritime Canada
Native organisms
Nutrients
Plant communities
Planting
Plugs
Restoration
Revegetation
Salt marshes
Saltmarshes
Soil nutrients
Soil salinity
Soils
Spartina
Survival
Tidal currents
Tidal flow
tidal wetland restoration
Transplants
vegetation restoration
Winter
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Summary:Salt marshes provide many important ecosystem services, and interest in their restoration is growing in response to climate change. In Maritime Canada, salt marsh restoration projects have focused on restoring tidal flow without planting. Over time, these sites can show persistent deficits in vegetation diversity. We evaluated six techniques for encouraging revegetation (plugs, field transplants, seed, wrack, tilling, and no planting) with eight native species (Carex paleacea, Juncus gerardii, Limonium carolinianum, Plantago maritima, Poa palustris, Solidago sempervirens, Sporobolus alterniflorus, and Sporobolus michauxianus) at two Bay of Fundy salt marsh restoration sites. Community recovery and plant performance (growth rate, summer and winter survival, and health) were monitored over 2 years. Planting plugs produced the highest abundance of perennial halophytes over both years with high survival rates (76.4% ± 0.02 SE), whereas plants transplanted from adjacent sites had higher mortality and slightly lower cover. All planted species survived and grew. Growth rate, health, and winter survival were all more strongly related to site than planting technique, indicating that location was more important to success than technique. We found evidence that differences in elevation, inundation, soil salinity, and soil nutrients at each site may explain these differences in performance. Plugs and field transplants may both be useful for restoration in the future and mixing methods to capitalize on respective strengths may produce best results when planting. Our results also highlight the need to tailor planting plans to individual sites as plants may respond uniquely in different situations.
ISSN:1061-2971
1526-100X
DOI:10.1111/rec.13707