Nurse species could facilitate the recruitment of mangrove seedlings after hydrological rehabilitation

•Hydrological restoration in mangroves favors secondary succession.•In restored mangroves facilitating plants such as Batis sp and Salicornia sp., are pioneers.•Facilitating plants modify the microhabitat for the mangrove seedlings growth. Changes in hydrology are one of the main causes of mangrove...

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Published inEcological engineering Vol. 130; pp. 263 - 270
Main Authors Teutli-Hernández, Claudia, Herrera-Silveira, Jorge A, Comín, Francisco A., López, Margarita Menéndez
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.05.2019
Elsevier BV
Subjects
Colonization
Dominant species
Ecological succession
Facilitator species
Hydrologic rehabilitation
Hydrology
Mangroves
Mineral nutrients
Nutrient content
Nutrients
Organic matter
Organic phosphorus
Phosphorus
Reforestation
Rehabilitation
Restoration
Salinity
Salinity effects
Secondary succession
Seedlings
Soil
Soil conditions
Mangroves
Nutrients
Facilitator species
Secondary succession
Hydrologic rehabilitation
Salinity
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Summary:•Hydrological restoration in mangroves favors secondary succession.•In restored mangroves facilitating plants such as Batis sp and Salicornia sp., are pioneers.•Facilitating plants modify the microhabitat for the mangrove seedlings growth. Changes in hydrology are one of the main causes of mangrove degradation; however, the reforestation of mangrove has been the main restoration activity and very little information on how pioneer species can facilitate the colonization and development of the mangrove species is available. After carrying out a water reconnection as the sole restoration action, secondary succession has occurred in the mangrove rehabilitation area of Celestun (Yucatan, SE Mexico). Two pioneer species, Batis maritima and Salicornia virginica were observed in plots with different coverage (0%, 20%, 100%) where the three natural mangrove species were established, with Laguncularia racemosa as the dominant species in density. The greatest interstitial mean salinity (79.9g/kg) was recorded in the plots with 20% cover, while the lowest salinity (40.7g/kg) was recorded in the plots with 100% of coverage. At the end of sampling period nutrient content (carbon, nitrogen and phosphorus) and organic matter in the sediment were greatest in the plots with 100% cover, whereas the lowest concentrations were observed in the site devoid of vegetation. The percentage cover of S. virginica and B. maritima changed over time; in the plot that started with 100% cover it decreased until it disappeared at the end of the study period, whereas it increased in the plots with 20% and 0% cover. This study shows that B. maritima and S. virginica has a function as “facilitator species” initially colonizing the bare soil and modifying its conditions (decreasing interstitial salinity and increasing nutrient), which favored colonization and growing of mangrove seedlings.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2017.07.030