Patterns of variation in plant diversity vary over different spatial levels in seasonal coastal wetlands

Aim To quantify the responses of alpha and beta diversity to multivariate gradients, incorporating variation in environmental and management variability in coastal dune slacks. Location United Kingdom dune slacks. Methods Plant community composition, plant nutrient status and soil characteristics we...

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Bibliographic Details
Published in:Diversity & distributions 2022-09, Vol.28 (9), p.1875-1890
Main Authors: Dwyer, Ciara, Millett, Jonathan, Jones, Laurence, Bartholomeus, Ruud P., van Willegen, Lisanne, Chavasse, Anna, Pakeman, Robin J.
Format: Article
Language:English
Subjects:
alpha diversity
beta diversity
Biodiversity
Climate change
Coastal management
Community composition
Deposition
dune slacks
Dunes
eco‐hydrology
Endangered & extinct species
Environmental management
Flowers & plants
Genera
Hydrologic regime
Hydrology
Nitrogen
Nutrient status
Nutrients
Plant communities
Plant diversity
Plant populations
plants
RESEARCH ARTICLE
Sand
Soil characteristics
Soil water
Soils
spatial scale
Species
Taxonomy
Variability
Variation
Water depth
Water shortages
Water table
Water table depth
wetland
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Summary:Aim To quantify the responses of alpha and beta diversity to multivariate gradients, incorporating variation in environmental and management variability in coastal dune slacks. Location United Kingdom dune slacks. Methods Plant community composition, plant nutrient status and soil characteristics were measured for 164 quadrats in 41 dune slacks across 12 coastal sand dune systems. Data were collated on climate and atmospheric deposition. Hydrological regimes at daily resolution were modelled and calibrated using daily‐to‐monthly site measurements, from which we calculated quadrat‐level hydrological metrics. Alpha diversity (richness, Shannon diversity and Pielou's evenness) metrics and beta diversity (turnover and nestedness) for species and genera were calculated across three spatial levels from sand dune system (highest) to dune slack to quadrat (lowest). Results Diversity patterns depended on the spatial and taxonomic level considered. At smaller spatial levels (between dune slacks and between quadrats), alpha and beta diversity varied along gradients driven by soil characteristics, water table depth and atmospheric deposition. At larger spatial levels (between sand dune systems), patterns of beta diversity were a consequence of plant nutrient status. There was little variability in alpha diversity along this same gradient, with only small changes in Pielou's species evenness. Patterns at a coarser taxonomic level (genus) mirrored those at the species level. Main conclusion We show that patterns of variation in plant diversity are dependent on the spatial level considered, but taxonomic level made little difference in understanding these patterns. Therefore, if we do not consider patterns across different spatial levels, important environmental and management drivers could be missed. The high biodiversity value and degree of threat to these European protected habitats makes such understanding invaluable for their conservation.
ISSN:1366-9516
1472-4642
DOI:10.1111/ddi.13589