The Sensitivity of Moss-Associated Nitrogen Fixation towards Repeated Nitrogen Input

Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N2 fixing cyanobacteria that could contribute fundamentally to increase the N pool...

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Published in	PloS one Vol. 11; no. 1; p. e0146655
Main Authors	Rousk, Kathrin, Michelsen, Anders
Format	Journal Article
Language	English
Published	United States Public Library of Science 05.01.2016 Public Library of Science (PLoS)
Subjects	Betula pubescens Boreal forests Bryophyta Bryophyta - physiology Cyanobacteria Cyanobacteria - physiology Deprivation Ecology Ecosystem Ecosystem biology Ecosystems Flowers & plants Forests Hylocomium splendens Inhibition Laboratories Leachates Mosses Nitrates Nitrogen Nitrogen - metabolism Nitrogen fixation Nitrogen Fixation - physiology Peatlands Permafrost Pleurozium schreberi Sensitivity Sphagnum Taiga Taiga & tundra Tundra Tundra ecology United States
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Abstract	Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N2 fixation in H. splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha(-1) yr(-1)) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha(-1) yr(-1), and increased in all treatments during a short period of N deprivation. The sensitivity of N2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha(-1) yr(-1)). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha(-1) yr(-1). Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold.
AbstractList	Nitrogen (N.sub.2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N.sub.2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N.sub.2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N.sub.2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N.sub.2 fixation in H. splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha.sup.-1 yr.sup.-1) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha.sup.-1 yr.sup.-1, and increased in all treatments during a short period of N deprivation. The sensitivity of N.sub.2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha.sup.-1 yr.sup.-1). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha.sup.-1 yr.sup.-1 . Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold. Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N2 fixation in H. splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha(-1) yr(-1)) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha(-1) yr(-1), and increased in all treatments during a short period of N deprivation. The sensitivity of N2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha(-1) yr(-1)). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha(-1) yr(-1). Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold. Nitrogen (N 2 ) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N 2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N 2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N 2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N 2 fixation in H . splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha -1 yr -1 ) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha -1 yr -1 , and increased in all treatments during a short period of N deprivation. The sensitivity of N 2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha -1 yr -1 ). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha -1 yr -1 . Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold. Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N2 fixation in H. splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha(-1) yr(-1)) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha(-1) yr(-1), and increased in all treatments during a short period of N deprivation. The sensitivity of N2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha(-1) yr(-1)). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha(-1) yr(-1). Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold.Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N2 fixation in H. splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha(-1) yr(-1)) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha(-1) yr(-1), and increased in all treatments during a short period of N deprivation. The sensitivity of N2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha(-1) yr(-1)). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha(-1) yr(-1). Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold. Nitrogen (N 2 ) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic tundra, the feather moss Hylocomium splendens is colonized by N 2 fixing cyanobacteria that could contribute fundamentally to increase the N pool in these ecosystems. However, N 2 fixation in mosses is inhibited by N input. Although this has been shown previously, the ability of N 2 fixation to grow less sensitive towards repeated, increased N inputs remains unknown. Here, we tested if N 2 fixation in H . splendens can recover from increased N input depending on the N load (0, 5, 20, 80, 320 kg N ha -1 yr -1 ) after a period of N deprivation, and if sensitivity towards increased N input can decrease after repeated N additions. Nitrogen fixation in the moss was inhibited by the highest N addition, but was promoted by adding 5 kg N ha -1 yr -1 , and increased in all treatments during a short period of N deprivation. The sensitivity of N 2 fixation towards repeated N additions seem to decrease in the 20 and 80 kg N additions, but increased in the highest N addition (320 kg N ha -1 yr -1 ). Recovery of N in leachate samples increased with increasing N loads, suggesting low retention capabilities of mosses if N input is above 5 kg N ha -1 yr -1 . Our results demonstrate that the sensitivity towards repeated N additions is likely to decrease if N input does not exceed a certain threshold.
Audience	Academic
Author	Michelsen, Anders Rousk, Kathrin
AuthorAffiliation	2 Center for Permafrost (CENPERM), University of Copenhagen, Øster Voldgade 10, DK-1350, Copenhagen, Denmark 1 Department of Biology, Terrestrial Ecology Section, University of Copenhagen, Universitetsparken 15, DK-2100, Copenhagen, Denmark University of Saskatchewan, CANADA
AuthorAffiliation_xml	– name: University of Saskatchewan, CANADA – name: 1 Department of Biology, Terrestrial Ecology Section, University of Copenhagen, Universitetsparken 15, DK-2100, Copenhagen, Denmark – name: 2 Center for Permafrost (CENPERM), University of Copenhagen, Øster Voldgade 10, DK-1350, Copenhagen, Denmark
Author_xml	– sequence: 1 givenname: Kathrin surname: Rousk fullname: Rousk, Kathrin – sequence: 2 givenname: Anders surname: Michelsen fullname: Michelsen, Anders
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26731691$$D View this record in MEDLINE/PubMed
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Copyright	COPYRIGHT 2016 Public Library of Science 2016 Rousk, Michelsen. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2016 Rousk, Michelsen 2016 Rousk, Michelsen
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 Competing Interests: The authors have declared that no competing interests exist. Conceived and designed the experiments: KR AM. Performed the experiments: KR. Analyzed the data: KR. Contributed reagents/materials/analysis tools: AM KR. Wrote the paper: KR AM.
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Snippet	Nitrogen (N2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic... Nitrogen (N.sub.2) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic... Nitrogen (N 2 ) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic... Nitrogen (N 2 ) fixation is a major source of available N in ecosystems that receive low amounts of atmospheric N deposition. In boreal forest and subarctic...
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SubjectTerms	Betula pubescens Boreal forests Bryophyta Bryophyta - physiology Cyanobacteria Cyanobacteria - physiology Deprivation Ecology Ecosystem Ecosystem biology Ecosystems Flowers & plants Forests Hylocomium splendens Inhibition Laboratories Leachates Mosses Nitrates Nitrogen Nitrogen - metabolism Nitrogen fixation Nitrogen Fixation - physiology Peatlands Permafrost Pleurozium schreberi Sensitivity Sphagnum Taiga Taiga & tundra Tundra Tundra ecology
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Title	The Sensitivity of Moss-Associated Nitrogen Fixation towards Repeated Nitrogen Input
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