Importance of groundwater and macrophytes for the nutrient balance at oligotrophic Lake Hampen, Denmark

Daniela Oliveira Ommen; Jacob Baarstrøm Kidmose; Sachin Karan; Mogens Flindt; Peter Knudegaard Engesgaard; Bertel Nilsson; Frede Østergaard Andersen

doi:10.1002/eco.213

Importance of groundwater and macrophytes for the nutrient balance at oligotrophic Lake Hampen, Denmark

Daniela Oliveira Ommen, Jacob Baarstrøm Kidmose, Sachin Karan, Mogens Flindt, Peter Knudegaard Engesgaard, Bertel Nilsson, Frede Østergaard Andersen

Geology

20 Citations (Scopus)

Abstract

An ecohydrological study was carried out at an oligotrophic seepage lake, Lake Hampen, Denmark, to determine the seepage in and out of the lake and determine the mass budgets for nutrients. The lake is primarily surrounded by forest, although there are agricultural fields bordering a small portion of the lake perimeter. The water and mass balances indicate that there is a groundwater input of 1643 × 10³ m³ year^-1 into the lake (∼70% of total input) and a groundwater output of 1997 × 10³ m³ year^-1. The groundwater input carries with it 2253 kg N year^-1 (∼67% of total input) and 40 kg P year^-1 (∼85% of total input). The majority of the nitrogen is leached from the agricultural fields bordering the lake. Concentrations as high as 1750 μM nitrate were measured in the rhizosphere of the littoral zone at this location. It is estimated that the macrophytes are able to take up 1695 kg N year^-1 (∼50% of the input). The phosphorus uptake by plants was 310% of the input, indicating that plants are highly dependent on accumulated and remineralized phosphorus in the lake. The nutrients lost through recharge was much lower than input through groundwater discharge entailing a high retention of nutrients in the lake (92-96%). A significant part of the retained nitrogen may be lost through denitrification. Although the plant uptake may have slowed the eutrophication of the lake, the excess nutrients may over time give rise to eutrophication and a shift towards pelagic production.

Original language	English
Journal	Ecohydrology (Online)
Volume	5
Issue number	3
Pages (from-to)	286-296
Number of pages	11
ISSN	1936-0584
DOIs	https://doi.org/10.1002/eco.213
Publication status	Published - May 2012

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10.1002/eco.213

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title = "Importance of groundwater and macrophytes for the nutrient balance at oligotrophic Lake Hampen, Denmark",

abstract = "An ecohydrological study was carried out at an oligotrophic seepage lake, Lake Hampen, Denmark, to determine the seepage in and out of the lake and determine the mass budgets for nutrients. The lake is primarily surrounded by forest, although there are agricultural fields bordering a small portion of the lake perimeter. The water and mass balances indicate that there is a groundwater input of 1643 × 103 m3 year-1 into the lake (∼70% of total input) and a groundwater output of 1997 × 103 m3 year-1. The groundwater input carries with it 2253 kg N year-1 (∼67% of total input) and 40 kg P year-1 (∼85% of total input). The majority of the nitrogen is leached from the agricultural fields bordering the lake. Concentrations as high as 1750 μM nitrate were measured in the rhizosphere of the littoral zone at this location. It is estimated that the macrophytes are able to take up 1695 kg N year-1 (∼50% of the input). The phosphorus uptake by plants was 310% of the input, indicating that plants are highly dependent on accumulated and remineralized phosphorus in the lake. The nutrients lost through recharge was much lower than input through groundwater discharge entailing a high retention of nutrients in the lake (92-96%). A significant part of the retained nitrogen may be lost through denitrification. Although the plant uptake may have slowed the eutrophication of the lake, the excess nutrients may over time give rise to eutrophication and a shift towards pelagic production.",

author = "Ommen, {Daniela Oliveira} and Kidmose, {Jacob Baarstr{\o}m} and Sachin Karan and Mogens Flindt and Engesgaard, {Peter Knudegaard} and Bertel Nilsson and Andersen, {Frede {\O}stergaard}",

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T1 - Importance of groundwater and macrophytes for the nutrient balance at oligotrophic Lake Hampen, Denmark

AU - Ommen, Daniela Oliveira

AU - Kidmose, Jacob Baarstrøm

AU - Karan, Sachin

AU - Flindt, Mogens

AU - Engesgaard, Peter Knudegaard

AU - Nilsson, Bertel

AU - Andersen, Frede Østergaard

PY - 2012/5

Y1 - 2012/5

N2 - An ecohydrological study was carried out at an oligotrophic seepage lake, Lake Hampen, Denmark, to determine the seepage in and out of the lake and determine the mass budgets for nutrients. The lake is primarily surrounded by forest, although there are agricultural fields bordering a small portion of the lake perimeter. The water and mass balances indicate that there is a groundwater input of 1643 × 103 m3 year-1 into the lake (∼70% of total input) and a groundwater output of 1997 × 103 m3 year-1. The groundwater input carries with it 2253 kg N year-1 (∼67% of total input) and 40 kg P year-1 (∼85% of total input). The majority of the nitrogen is leached from the agricultural fields bordering the lake. Concentrations as high as 1750 μM nitrate were measured in the rhizosphere of the littoral zone at this location. It is estimated that the macrophytes are able to take up 1695 kg N year-1 (∼50% of the input). The phosphorus uptake by plants was 310% of the input, indicating that plants are highly dependent on accumulated and remineralized phosphorus in the lake. The nutrients lost through recharge was much lower than input through groundwater discharge entailing a high retention of nutrients in the lake (92-96%). A significant part of the retained nitrogen may be lost through denitrification. Although the plant uptake may have slowed the eutrophication of the lake, the excess nutrients may over time give rise to eutrophication and a shift towards pelagic production.

AB - An ecohydrological study was carried out at an oligotrophic seepage lake, Lake Hampen, Denmark, to determine the seepage in and out of the lake and determine the mass budgets for nutrients. The lake is primarily surrounded by forest, although there are agricultural fields bordering a small portion of the lake perimeter. The water and mass balances indicate that there is a groundwater input of 1643 × 103 m3 year-1 into the lake (∼70% of total input) and a groundwater output of 1997 × 103 m3 year-1. The groundwater input carries with it 2253 kg N year-1 (∼67% of total input) and 40 kg P year-1 (∼85% of total input). The majority of the nitrogen is leached from the agricultural fields bordering the lake. Concentrations as high as 1750 μM nitrate were measured in the rhizosphere of the littoral zone at this location. It is estimated that the macrophytes are able to take up 1695 kg N year-1 (∼50% of the input). The phosphorus uptake by plants was 310% of the input, indicating that plants are highly dependent on accumulated and remineralized phosphorus in the lake. The nutrients lost through recharge was much lower than input through groundwater discharge entailing a high retention of nutrients in the lake (92-96%). A significant part of the retained nitrogen may be lost through denitrification. Although the plant uptake may have slowed the eutrophication of the lake, the excess nutrients may over time give rise to eutrophication and a shift towards pelagic production.

U2 - 10.1002/eco.213

DO - 10.1002/eco.213

M3 - Journal article

SN - 1936-0584

VL - 5

SP - 286

EP - 296

JO - Ecohydrology

JF - Ecohydrology

IS - 3

ER -

Importance of groundwater and macrophytes for the nutrient balance at oligotrophic Lake Hampen, Denmark

Abstract

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