Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community

In subarctic ecosystems, plant growth is mostly limited by nutrient availability and harsh climate. Investigating how soil nutrient availability controls the plant community composition may therefore help to understand indirect effects of climate change. The study was conducted in a long-term field...

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Published in:Plant Ecology
Main Authors: Haugwitz-Hardenberg-Reventlow, M S, Michelsen, A.
Format: Article in Journal/Newspaper
Language:English
Published: 2011
Subjects:
Benomyl
Bryophytes
Fellfield
Lichens
Nutrient availability
Plant biomass
SIMULATED ENVIRONMENTAL-CHANGE
NUTRIENT APPLICATION
MICROBE COMPETITION
FACTORIAL ADDITION
NPK FERTILIZER
DWARF SHRUBS
AMINO-ACIDS
RESPONSES
TUNDRA
SOIL
Subarctic
Tundra
Online Access:https://curis.ku.dk/portal/da/publications/longterm-addition-of-fertilizer-labile-carbon-and-fungicide-alters-the-biomass-of-plant-functional-groups-in-a-subarcticalpine-community(2ccf2bb9-ef6c-4d29-b29d-97a66c308873).html
https://doi.org/10.1007/s11258-010-9857-z
id ftcopenhagenunip:oai:pure.atira.dk:publications/2ccf2bb9-ef6c-4d29-b29d-97a66c308873
record_format openpolar
spelling ftcopenhagenunip:oai:pure.atira.dk:publications/2ccf2bb9-ef6c-4d29-b29d-97a66c308873 2023-12-10T09:54:06+01:00 Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community Haugwitz-Hardenberg-Reventlow, M S Michelsen, A. 2011 https://curis.ku.dk/portal/da/publications/longterm-addition-of-fertilizer-labile-carbon-and-fungicide-alters-the-biomass-of-plant-functional-groups-in-a-subarcticalpine-community(2ccf2bb9-ef6c-4d29-b29d-97a66c308873).html https://doi.org/10.1007/s11258-010-9857-z eng eng info:eu-repo/semantics/restrictedAccess Haugwitz-Hardenberg-Reventlow , M S & Michelsen , A 2011 , ' Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community ' , Plant Ecology , vol. 212 , no. 4 , pp. 715-726 . https://doi.org/10.1007/s11258-010-9857-z Benomyl Bryophytes Fellfield Lichens Nutrient availability Plant biomass SIMULATED ENVIRONMENTAL-CHANGE NUTRIENT APPLICATION MICROBE COMPETITION FACTORIAL ADDITION NPK FERTILIZER DWARF SHRUBS AMINO-ACIDS RESPONSES TUNDRA SOIL article 2011 ftcopenhagenunip https://doi.org/10.1007/s11258-010-9857-z 2023-11-15T23:58:52Z In subarctic ecosystems, plant growth is mostly limited by nutrient availability and harsh climate. Investigating how soil nutrient availability controls the plant community composition may therefore help to understand indirect effects of climate change. The study was conducted in a long-term field experiment on a subarctic-alpine fellfield dominated by woody evergreen shrubs, bryophytes, and lichens. To manipulate nutrient availability additions of NPK fertilizer, labile C, and fungicide (benomyl) were done in a fully factorial design, replicated in six blocks. The treatments were run for 10 years, and the aboveground plant biomass was harvested 4 and 16 years after initiating the experiment. In addition, soil inorganic N and P concentration was analyzed the same years. Increased nutrient availability (NPK fertilizer) largely increased the biomass of graminoids and unexpectedly of bryophytes, but not of other vascular plant groups. Also, limitation of soil nutrient availability caused by labile C addition decreased the relative proportion of green shoots in evergreen shrubs, although these were expected to cope better with the nutrient limitation than the opportunistic graminoids, which, by contrast, were unaffected. Reduced fungal biomass due to benomyl addition was accompanied by increased evergreen shrub and clubmoss biomass. Taken together, the effects of treatments were most pronounced 16 years after initiation of the experiment, but despite changes in biomass the overall plant community composition was resistant to environmental changes In subarctic ecosystems, plant growth is mostly limited by nutrient availability and harsh climate. Investigating how soil nutrient availability controls the plant community composition may therefore help to understand indirect effects of climate change. The study was conducted in a long-term field experiment on a subarctic-alpine fellfield dominated by woody evergreen shrubs, bryophytes, and lichens. To manipulate nutrient availability additions of NPK fertilizer, ... Article in Journal/Newspaper Subarctic Tundra University of Copenhagen: Research Plant Ecology 212 4 715 726
institution Open Polar
collection University of Copenhagen: Research
op_collection_id ftcopenhagenunip
language English
topic Benomyl
Bryophytes
Fellfield
Lichens
Nutrient availability
Plant biomass
SIMULATED ENVIRONMENTAL-CHANGE
NUTRIENT APPLICATION
MICROBE COMPETITION
FACTORIAL ADDITION
NPK FERTILIZER
DWARF SHRUBS
AMINO-ACIDS
RESPONSES
TUNDRA
SOIL
spellingShingle Benomyl
Bryophytes
Fellfield
Lichens
Nutrient availability
Plant biomass
SIMULATED ENVIRONMENTAL-CHANGE
NUTRIENT APPLICATION
MICROBE COMPETITION
FACTORIAL ADDITION
NPK FERTILIZER
DWARF SHRUBS
AMINO-ACIDS
RESPONSES
TUNDRA
SOIL
Haugwitz-Hardenberg-Reventlow, M S
Michelsen, A.
Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
topic_facet Benomyl
Bryophytes
Fellfield
Lichens
Nutrient availability
Plant biomass
SIMULATED ENVIRONMENTAL-CHANGE
NUTRIENT APPLICATION
MICROBE COMPETITION
FACTORIAL ADDITION
NPK FERTILIZER
DWARF SHRUBS
AMINO-ACIDS
RESPONSES
TUNDRA
SOIL
description In subarctic ecosystems, plant growth is mostly limited by nutrient availability and harsh climate. Investigating how soil nutrient availability controls the plant community composition may therefore help to understand indirect effects of climate change. The study was conducted in a long-term field experiment on a subarctic-alpine fellfield dominated by woody evergreen shrubs, bryophytes, and lichens. To manipulate nutrient availability additions of NPK fertilizer, labile C, and fungicide (benomyl) were done in a fully factorial design, replicated in six blocks. The treatments were run for 10 years, and the aboveground plant biomass was harvested 4 and 16 years after initiating the experiment. In addition, soil inorganic N and P concentration was analyzed the same years. Increased nutrient availability (NPK fertilizer) largely increased the biomass of graminoids and unexpectedly of bryophytes, but not of other vascular plant groups. Also, limitation of soil nutrient availability caused by labile C addition decreased the relative proportion of green shoots in evergreen shrubs, although these were expected to cope better with the nutrient limitation than the opportunistic graminoids, which, by contrast, were unaffected. Reduced fungal biomass due to benomyl addition was accompanied by increased evergreen shrub and clubmoss biomass. Taken together, the effects of treatments were most pronounced 16 years after initiation of the experiment, but despite changes in biomass the overall plant community composition was resistant to environmental changes In subarctic ecosystems, plant growth is mostly limited by nutrient availability and harsh climate. Investigating how soil nutrient availability controls the plant community composition may therefore help to understand indirect effects of climate change. The study was conducted in a long-term field experiment on a subarctic-alpine fellfield dominated by woody evergreen shrubs, bryophytes, and lichens. To manipulate nutrient availability additions of NPK fertilizer, ...
format Article in Journal/Newspaper
author Haugwitz-Hardenberg-Reventlow, M S
Michelsen, A.
author_facet Haugwitz-Hardenberg-Reventlow, M S
Michelsen, A.
author_sort Haugwitz-Hardenberg-Reventlow, M S
title Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
title_short Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
title_full Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
title_fullStr Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
title_full_unstemmed Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
title_sort long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community
publishDate 2011
url https://curis.ku.dk/portal/da/publications/longterm-addition-of-fertilizer-labile-carbon-and-fungicide-alters-the-biomass-of-plant-functional-groups-in-a-subarcticalpine-community(2ccf2bb9-ef6c-4d29-b29d-97a66c308873).html
https://doi.org/10.1007/s11258-010-9857-z
genre Subarctic
Tundra
genre_facet Subarctic
Tundra
op_source Haugwitz-Hardenberg-Reventlow , M S & Michelsen , A 2011 , ' Long-term addition of fertilizer, labile carbon, and fungicide alters the biomass of plant functional groups in a subarctic-alpine community ' , Plant Ecology , vol. 212 , no. 4 , pp. 715-726 . https://doi.org/10.1007/s11258-010-9857-z
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1007/s11258-010-9857-z
container_title Plant Ecology
container_volume 212
container_issue 4
container_start_page 715
op_container_end_page 726
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