Climate change accelerates recovery of the Tatra Mountain lakes from acidification and increases their nutrient and chlorophyll a concentrations

Climate change accelerates recovery of the Tatra Mountain lakes from acidification and increases their nutrient and chlorophyll a concentrations

We evaluated changes in the concentration of cations, anions, nutrients (dissolved organic carbon, DOC; phosphorus, P; and nitrogen forms including nitrate, NO 3 − and total organic nitrogen, TON), and chlorophyll a (Chl- a ) in 31 Tatra Mountain lakes in Slovakia and Poland during their recovery fr...

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Bibliographic Details
Published in:Aquatic sciences Vol. 81; no. 4; pp. 1 - 13
Main Authors: Kopáček, Jiří, Kaňa, Jiří, Bičárová, Svetlana, Brahney, Janice, Navrátil, Tomáš, Norton, Stephen A., Porcal, Petr, Stuchlík, Evžen
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-10-2019
Springer Nature B.V
Subjects:
Acid deposition
Acidic lakes
Acidic soils
Acidification
Anions
Apatite
Bedrock
Biomedical and Life Sciences
Calcite
Calcium
Calcium ions
Catchment area
Catchments
Cations
Chelation
Chlorophyll
Chlorophyll a
Climate change
Composition
Deposition
Dissolved organic carbon
Dissolved organic phosphorus
Ecology
Erosion
Freshwater & Marine Ecology
Lakes
Leaching
Life Sciences
Marine & Freshwater Sciences
Mineral nutrients
Mountain lakes
Nitrogen
Nutrient concentrations
Nutrients
Oceanography
Organic acids
Organic chemistry
Organic nitrogen
Phosphates
Phosphorus
Recovery
Research Article
Soil
Soil chemistry
Soil erosion
Soil pH
Soils
Understanding mountain lakes in a changing world
Weathering
Weathering
Chlorophyll
Phosphorus
Organic nitrogen
Accessory calcite and apatite
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Summary:We evaluated changes in the concentration of cations, anions, nutrients (dissolved organic carbon, DOC; phosphorus, P; and nitrogen forms including nitrate, NO 3 − and total organic nitrogen, TON), and chlorophyll a (Chl- a ) in 31 Tatra Mountain lakes in Slovakia and Poland during their recovery from acidic deposition (1992–2018). Typical effects of decreasing acidic deposition on the lakes’ water composition, such as decreasing base cation concentrations, were confounded by climate change and catchment characteristics, including areal proportions of well-developed soils and scree. A climate-related increase in physical erosion provided freshly exposed unweathered granodiorite (the dominant bedrock) to chemical weathering. Dissolution of accessory calcite in the granodiorite increased the in-lake Ca 2+ and HCO 3 − concentrations and reversed the Ca 2+ trends, which originally decreased in parallel with strong acid anions. These changes were most pronounced in steep, scree-rich areas, which are most sensitive to physical weathering. Fresh apatite [Ca 5 (PO 4 ) 3 (F, Cl, OH)] in the crushed granodiorite acts as a P source at soil pH’s between 4 and 5 and in the presence of chelating organic acids within soils. These conditions enhance apatite solubility, which in part explains increasing P in lakes with scree-dominated catchments. Soil recovery from acidification due to decreasing acidic deposition and the neutralizing effect of weathering of erosion-derived accessory calcite were the most likely causes of elevated DOC and P export from soils. Their elevated leaching was accompanied by increasing in-lake concentrations of Chl- a and TON. The increasing TON concentrations were, as for Ca 2+ , most pronounced in the scree-rich catchments, and represented the most sensitive indicator of the changes in the lake water nutrient composition.
ISSN:1015-1621
1420-9055
DOI:10.1007/s00027-019-0667-7