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Interrelationships between bryophytes, pH and phosphate availability in grasslands and on exposed soil in southern Sweden.

Tyler, Torbjörn LU ; Nilsson, Staffan LU and Mijic, Dora (2025) In Journal of Bryology 47(1). p.55-70
Abstract
Introduction. We aimed to investigate effects of soil pH and phosphate availability on bryophyte species in unshaded dry–mesic habitats, and to explore their implications for bioindication and conservation.
Methods. Species abundance, pH and water-soluble phosphate data were collected from 1098 relevés in southernmost Sweden. Soil variable effects on 95 bryophyte taxa and species richness were evaluated and visualised as heat maps. Changes in community composition along chemistry gradients were analysed based on cumulative graphs.
Results. For 96% of the species, cover differed significantly between plots with low, medium and high pH and phosphate availability; 84% of species were significantly affected by pH, 57% by phosphate, and... (More)
Introduction. We aimed to investigate effects of soil pH and phosphate availability on bryophyte species in unshaded dry–mesic habitats, and to explore their implications for bioindication and conservation.
Methods. Species abundance, pH and water-soluble phosphate data were collected from 1098 relevés in southernmost Sweden. Soil variable effects on 95 bryophyte taxa and species richness were evaluated and visualised as heat maps. Changes in community composition along chemistry gradients were analysed based on cumulative graphs.
Results. For 96% of the species, cover differed significantly between plots with low, medium and high pH and phosphate availability; 84% of species were significantly affected by pH, 57% by phosphate, and 54% by pH:PO4 interaction. Effect sizes were twice as large for pH as for phosphate, and minimal for their interaction. Interaction effects were evident for only a few species, in such cases indicating that low phosphate availability promotes ‘calcifuge’ species at high pH. Community composition changed relatively evenly along all gradients. However, per-plot species richness peaked at around pH 7 at low phosphate availability, and around pH 8 at median phosphate availability, thus reflecting a pH:PO4 interaction effect. Conclusions. Both pH and phosphate availability strongly affect bryophyte species, and hence community composition and richness, although phosphate is generally less influential. Interaction effects exist but are weak, and low rather than high phosphate availability appears to favour species at suboptimal pH, suggesting that the ‘calcifuge–calcicole’ behaviour of bryophytes may not be determined by toxic aluminium and phosphate solubility, as they are in tracheophytes. (Less)
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author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Journal of Bryology
volume
47
issue
1
pages
16 pages
publisher
Taylor & Francis
external identifiers
  • scopus:105003391469
ISSN
1743-2820
DOI
10.1080/03736687.2025.2470062
language
English
LU publication?
yes
id
2b67ef01-98ac-4f57-9e68-09500485ecd0
date added to LUP
2025-05-06 14:55:16
date last changed
2025-05-08 17:19:25
@article{2b67ef01-98ac-4f57-9e68-09500485ecd0,
  abstract     = {{Introduction. We aimed to investigate effects of soil pH and phosphate availability on bryophyte species in unshaded dry–mesic habitats, and to explore their implications for bioindication and conservation.<br/>Methods. Species abundance, pH and water-soluble phosphate data were collected from 1098 relevés in southernmost Sweden. Soil variable effects on 95 bryophyte taxa and species richness were evaluated and visualised as heat maps. Changes in community composition along chemistry gradients were analysed based on cumulative graphs.<br/>Results. For 96% of the species, cover differed significantly between plots with low, medium and high pH and phosphate availability; 84% of species were significantly affected by pH, 57% by phosphate, and 54% by pH:PO4 interaction. Effect sizes were twice as large for pH as for phosphate, and minimal for their interaction. Interaction effects were evident for only a few species, in such cases indicating that low phosphate availability promotes ‘calcifuge’ species at high pH. Community composition changed relatively evenly along all gradients. However, per-plot species richness peaked at around pH 7 at low phosphate availability, and around pH 8 at median phosphate availability, thus reflecting a pH:PO4 interaction effect. Conclusions. Both pH and phosphate availability strongly affect bryophyte species, and hence community composition and richness, although phosphate is generally less influential. Interaction effects exist but are weak, and low rather than high phosphate availability appears to favour species at suboptimal pH, suggesting that the ‘calcifuge–calcicole’ behaviour of bryophytes may not be determined by toxic aluminium and phosphate solubility, as they are in tracheophytes.}},
  author       = {{Tyler, Torbjörn and Nilsson, Staffan and Mijic, Dora}},
  issn         = {{1743-2820}},
  language     = {{eng}},
  month        = {{03}},
  number       = {{1}},
  pages        = {{55--70}},
  publisher    = {{Taylor & Francis}},
  series       = {{Journal of Bryology}},
  title        = {{Interrelationships between bryophytes, pH and phosphate availability in grasslands and on exposed soil in southern Sweden.}},
  url          = {{http://dx.doi.org/10.1080/03736687.2025.2470062}},
  doi          = {{10.1080/03736687.2025.2470062}},
  volume       = {{47}},
  year         = {{2025}},
}