Mires and Peat (Oct 2019)
The effects of alkalinity and cations on the vitality of Sphagnum palustre L.
Abstract
Sphagnum mosses are poikilohydric bryophytes, i.e. dependent on nearly-constant wet conditions. Exposure to mineral-enriched water has long been recognised as a threat to Sphagnum mosses and a driver of niche formation. Atrophy of Sphagnum is currently attributed to high pH in combination with high calcium concentration. Because the natural occurrence of high pH regularly auto-correlates with alkalinity and calcium concentration it remains unclear which of these factors is detrimental to Sphagnum. In a ten-week controlled laboratory experiment we measured the effects of high pH and bicarbonate concentration in combination with various cations (Ca2+, Na+, K+, Mg2+, Fe3+) on K+ leakage and survival in Sphagnum palustre L. Increased pH (7.2) combined with low (≤ 200 µmol L-1) bicarbonate concentration had no effect. In contrast, high bicarbonate levels (supplied or formed in solution) combined with pH values of 8.0 and higher produced signs of physiological stress (chlorosis and electrolyte leakage) within two weeks and were toxic in all treatments. Cations failed to modulate the adverse effects of high alkalinity; nor could additional potassium alleviate detrimental effects. This study shows that S. palustre is adversely affected by increased bicarbonate concentration and alkalinity, which both show a tight correlation with pH and often with calcium levels in water and bedrock. The management of groundwater and surface water sources for restoration of Sphagnum-dominated habitats and irrigation of Sphagnum farms should focus on lowering alkalinity levels (including pH), whereas cation concentrations may remain elevated.
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