Abstract
Human-induced land use in coastal areas is one of the main threats for seagrass meadows globally causing eutrophication and sedimentation. These environmental stressors induce sudden ecosystem shifts toward new alternative stable states defined by lower seagrass richness and abundance. Enhalus acoroides, a large-sized tropical seagrass species, appears to be more resistant toward environmental change compared to coexisting seagrass species. We hypothesize that reproductive strategy and the extent of seedling recruitment of E. acoroides are altered under disturbance and contribute to the persistence and resilience of E. acoroides meadows. In this research, we studied eight populations of E. acoroides in four lagoons along the South Central Coast of Vietnam using 11 polymorphic microsatellite loci. We classified land use in 6 classes based on Sentinel-2 L2A images and determined the effect of human-induced land use at different spatial scales on clonal richness and structure, fine-scale genetic structure and genetic diversity. No evidence of population size reductions due to disturbance was found, however, lagoons were strongly differentiated and may act as barriers to gene flow. The proportion and size of clones were significantly higher in populations of surrounding catchments with larger areas of agriculture, urbanization and aquaculture. We postulate that large resistant genets contribute to the resilience of E. acoroides meadows under high levels of disturbance. Although the importance of clonal growth increases with disturbance, sexual reproduction and the subsequent recruitment of seedlings remains an essential strategy for the persistence of populations of E. acoroides and should be prioritized in conservation measures to ensure broad-scale and long-term resilience toward future environmental change.
Highlights
Seagrasses are marine aquatic angiosperms that can form dense meadows in shallow coastal waters
XD2 which has the second-largest clonal subrange only has a small number of maximum ramets per genet which is explained by one clone harboring a space up to 11 m but which only consists of four ramets and could be an indication of small scale dispersal by clonal fragments or fragmentation of ramets. β was strongly correlated with R (R2 = 0.94), negatively correlated with NGmax (R2 = –0.73) but not significantly correlated with V (R2 = –0.65) showing that populations with a low Pareto index have higher proportions of clones and contain larger genets
Human activities consisting of agriculture, urbanization and aquaculture were broadly present in the sampling area though the area of human-induced land use differed between lagoons and over spatial scales
Summary
Seagrasses are marine aquatic angiosperms that can form dense meadows in shallow coastal waters. Two reproductive strategies exist where new genetic individuals are recruited as a result of sexual reproduction and once settled can reproduce clonally by rhizome extension with the vertical formation of genetically identical shoots (Kendrick et al, 2012, 2017; McMahon et al, 2014). Population growth and dispersal strategies vary between species with repeated recruitment of newly developed seeds as one extreme and one initial seed recruitment followed by vegetative growth as the other (Eriksson, 1993; Kendrick et al, 2012; McMahon et al, 2014). Temporal and spatial intraspecific variation in clonality and reproductive output has been described in seagrasses with disturbance, latitude, sea surface temperature and local scale processes as possible environmental drivers (Diaz-Almela et al, 2007; van Dijk and van Tussenbroek, 2010; McMahon et al, 2017; Connolly et al, 2018; Yue et al, 2020)
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