Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants

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Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants. / Nielsen, Pia Lund; Andresen, Louise Christoffersen; Michelsen, Anders; Schmidt, Inger Kappel; Pedersen, Jane Kongstad.

In: Agriculture, Ecosystems & Environment. Applied Soil Ecology, Vol. 42, No. 3, 2009, p. 279-287.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Nielsen, PL, Andresen, LC, Michelsen, A, Schmidt, IK & Pedersen, JK 2009, 'Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants', Agriculture, Ecosystems & Environment. Applied Soil Ecology, vol. 42, no. 3, pp. 279-287. https://doi.org/10.1016/j.apsoil.2009.05.006

APA

Nielsen, P. L., Andresen, L. C., Michelsen, A., Schmidt, I. K., & Pedersen, J. K. (2009). Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants. Agriculture, Ecosystems & Environment. Applied Soil Ecology, 42(3), 279-287. https://doi.org/10.1016/j.apsoil.2009.05.006

Vancouver

Nielsen PL, Andresen LC, Michelsen A, Schmidt IK, Pedersen JK. Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants. Agriculture, Ecosystems & Environment. Applied Soil Ecology. 2009;42(3):279-287. https://doi.org/10.1016/j.apsoil.2009.05.006

Author

Nielsen, Pia Lund ; Andresen, Louise Christoffersen ; Michelsen, Anders ; Schmidt, Inger Kappel ; Pedersen, Jane Kongstad. / Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants. In: Agriculture, Ecosystems & Environment. Applied Soil Ecology. 2009 ; Vol. 42, No. 3. pp. 279-287.

Bibtex

@article{e437c790b6f011ddae57000ea68e967b,
title = "Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants",
abstract = "Eutrofication is a threat against nutrient-poor habitats as increased amounts of nutrients in ecosystems may cause changes in the vegetation. Nitrogen (N) deposition leads to conversion of Calluna heathlands into graminoid dominated heath, but low availability of P may hinder or slow down this process.In this study the soil properties under two dominant heathland plants, the dwarf shrub Calluna vulgaris and the grass Deschampsia flexuosa, were investigated, with focus on nutrient content in the organic top soil and soil microbes during the main growing season and effects of nutrient amendments. The concentration of inorganic and dissolved organic N was significantly higher under D. flexuosa than C. vulgaris all though there were the same amounts of total N in the soil below the two species. N and P amendment enhanced available N and P in the soil, but added nutrients had little direct effects on microbes. The microbial biomass on the other hand was positively related to soil water content in fertilized plots indicating that this was due to an indirect effect of enhanced nutrient availability. Microbial N and P pools were respectively 1000 and 100 times higher than the pool of inorganic N and P, and microbes therefore may play an important role in regulating plant nutrient supply. Judged from responses of inorganic and microbial N and P concentrations to added N and P, N seemed to limit C. vulgaris and soil microbes below while P seemed to limit D. flexuosa and soil microbes below this species. There were lower rates of net nitrification, net ammonification and DOC and DON production rates during winter in the soil under C. vulgaris than below D. flexuosa, although all these rates were equal under the two species on an annual basis. This indicates that these microbial processes were taking place during winter but were affected by exudates from C. vulgaris.",
author = "Nielsen, {Pia Lund} and Andresen, {Louise Christoffersen} and Anders Michelsen and Schmidt, {Inger Kappel} and Pedersen, {Jane Kongstad}",
note = "Keywords: Calluna vulgaris; Deschampsia flexuosa; Eutrofication; Fertilization; Heathland; Immobilisation; Mineralization; N; Nutrient limitation; P; Seasonal variation",
year = "2009",
doi = "10.1016/j.apsoil.2009.05.006",
language = "English",
volume = "42",
pages = "279--287",
journal = "Applied Soil Ecology",
issn = "0929-1393",
publisher = "Elsevier",
number = "3",

}

RIS

TY - JOUR

T1 - Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants

AU - Nielsen, Pia Lund

AU - Andresen, Louise Christoffersen

AU - Michelsen, Anders

AU - Schmidt, Inger Kappel

AU - Pedersen, Jane Kongstad

N1 - Keywords: Calluna vulgaris; Deschampsia flexuosa; Eutrofication; Fertilization; Heathland; Immobilisation; Mineralization; N; Nutrient limitation; P; Seasonal variation

PY - 2009

Y1 - 2009

N2 - Eutrofication is a threat against nutrient-poor habitats as increased amounts of nutrients in ecosystems may cause changes in the vegetation. Nitrogen (N) deposition leads to conversion of Calluna heathlands into graminoid dominated heath, but low availability of P may hinder or slow down this process.In this study the soil properties under two dominant heathland plants, the dwarf shrub Calluna vulgaris and the grass Deschampsia flexuosa, were investigated, with focus on nutrient content in the organic top soil and soil microbes during the main growing season and effects of nutrient amendments. The concentration of inorganic and dissolved organic N was significantly higher under D. flexuosa than C. vulgaris all though there were the same amounts of total N in the soil below the two species. N and P amendment enhanced available N and P in the soil, but added nutrients had little direct effects on microbes. The microbial biomass on the other hand was positively related to soil water content in fertilized plots indicating that this was due to an indirect effect of enhanced nutrient availability. Microbial N and P pools were respectively 1000 and 100 times higher than the pool of inorganic N and P, and microbes therefore may play an important role in regulating plant nutrient supply. Judged from responses of inorganic and microbial N and P concentrations to added N and P, N seemed to limit C. vulgaris and soil microbes below while P seemed to limit D. flexuosa and soil microbes below this species. There were lower rates of net nitrification, net ammonification and DOC and DON production rates during winter in the soil under C. vulgaris than below D. flexuosa, although all these rates were equal under the two species on an annual basis. This indicates that these microbial processes were taking place during winter but were affected by exudates from C. vulgaris.

AB - Eutrofication is a threat against nutrient-poor habitats as increased amounts of nutrients in ecosystems may cause changes in the vegetation. Nitrogen (N) deposition leads to conversion of Calluna heathlands into graminoid dominated heath, but low availability of P may hinder or slow down this process.In this study the soil properties under two dominant heathland plants, the dwarf shrub Calluna vulgaris and the grass Deschampsia flexuosa, were investigated, with focus on nutrient content in the organic top soil and soil microbes during the main growing season and effects of nutrient amendments. The concentration of inorganic and dissolved organic N was significantly higher under D. flexuosa than C. vulgaris all though there were the same amounts of total N in the soil below the two species. N and P amendment enhanced available N and P in the soil, but added nutrients had little direct effects on microbes. The microbial biomass on the other hand was positively related to soil water content in fertilized plots indicating that this was due to an indirect effect of enhanced nutrient availability. Microbial N and P pools were respectively 1000 and 100 times higher than the pool of inorganic N and P, and microbes therefore may play an important role in regulating plant nutrient supply. Judged from responses of inorganic and microbial N and P concentrations to added N and P, N seemed to limit C. vulgaris and soil microbes below while P seemed to limit D. flexuosa and soil microbes below this species. There were lower rates of net nitrification, net ammonification and DOC and DON production rates during winter in the soil under C. vulgaris than below D. flexuosa, although all these rates were equal under the two species on an annual basis. This indicates that these microbial processes were taking place during winter but were affected by exudates from C. vulgaris.

U2 - 10.1016/j.apsoil.2009.05.006

DO - 10.1016/j.apsoil.2009.05.006

M3 - Journal article

VL - 42

SP - 279

EP - 287

JO - Applied Soil Ecology

JF - Applied Soil Ecology

SN - 0929-1393

IS - 3

ER -

ID: 8697639