Nitrogen limitation constrains sustainability of ecosystem response to CO2

Enhanced plant biomass accumulation in response to elevated atmospheric CO2 concentration could dampen the future rate of increase in CO2 levels and associated climate warming. However, it is unknown whether CO2-induced stimulation of plant growth and biomass accumulation will be sustained or whethe...

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Veröffentlicht in:	Nature (London) 2006-04, Vol.440 (7086), p.922-925
Hauptverfasser:	Reich, P.B, Hobbie, S.E, Lee, T, Ellsworth, D.S, West, J.B, Tilman, D, Knops, J.M.H, Naeem, S, Trost, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Accumulation Agricultural and forest climatology and meteorology. Irrigation. Drainage Agricultural and forest meteorology Agronomy. Soil science and plant productions ammonium nitrate Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Biomass Carbon dioxide Carbon Dioxide - metabolism Carbon Dioxide - pharmacology Climate change dry matter accumulation Ecosystem Ecosystems elevated atmospheric gases fertilizer application field experimentation Flowers & plants forbs Fundamental and applied biological sciences. Psychology General agroecology General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping General agronomy. Plant production Generalities, techniques Generalities. Agricultural and farming systems. Agricultural development Generalities. Techniques. Climatology. Meteorology. Climatic models of plant production Global warming grasses Grasslands Greenhouse Effect Humanities and Social Sciences legumes letter multidisciplinary Nitrogen Nitrogen - metabolism Nitrogen - pharmacology nutrient availability Plant biomass Plant growth Poaceae - drug effects Poaceae - growth & development Poaceae - metabolism Science Science (multidisciplinary) Soil - analysis Soil-plant relationships. Soil fertility Soil-plant relationships. Soil fertility. Fertilization. Amendments Soils Sustainable ecosystems Synecology Terrestrial ecosystems Time Factors Vegetation
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container_title	Nature (London)
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creator	Reich, P.B Hobbie, S.E Lee, T Ellsworth, D.S West, J.B Tilman, D Knops, J.M.H Naeem, S Trost, J
description	Enhanced plant biomass accumulation in response to elevated atmospheric CO2 concentration could dampen the future rate of increase in CO2 levels and associated climate warming. However, it is unknown whether CO2-induced stimulation of plant growth and biomass accumulation will be sustained or whether limited nitrogen (N) availability constrains greater plant growth in a CO2-enriched world. Here we show, after a six-year field study of perennial grassland species grown under ambient and elevated levels of CO2 and N, that low availability of N progressively suppresses the positive response of plant biomass to elevated CO2. Initially, the stimulation of total plant biomass by elevated CO2 was no greater at enriched than at ambient N supply. After four to six years, however, elevated CO2 stimulated plant biomass much less under ambient than enriched N supply. This response was consistent with the temporally divergent effects of elevated CO2 on soil and plant N dynamics at differing levels of N supply. Our results indicate that variability in availability of soil N and deposition of atmospheric N are both likely to influence the response of plant biomass accumulation to elevated atmospheric CO2. Given that limitations to productivity resulting from the insufficient availability of N are widespread in both unmanaged and managed vegetation, soil N supply is probably an important constraint on global terrestrial responses to elevated CO2.
doi_str_mv	10.1038/nature04486
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Our results indicate that variability in availability of soil N and deposition of atmospheric N are both likely to influence the response of plant biomass accumulation to elevated atmospheric CO2. Given that limitations to productivity resulting from the insufficient availability of N are widespread in both unmanaged and managed vegetation, soil N supply is probably an important constraint on global terrestrial responses to elevated CO2.</description><identifier>ISSN: 0028-0836</identifier><identifier>EISSN: 1476-4687</identifier><identifier>DOI: 10.1038/nature04486</identifier><identifier>PMID: 16612381</identifier><identifier>CODEN: NATUAS</identifier><language>eng</language><publisher>London: Nature Publishing Group UK</publisher><subject>Accumulation ; Agricultural and forest climatology and meteorology. Irrigation. Drainage ; Agricultural and forest meteorology ; Agronomy. Soil science and plant productions ; ammonium nitrate ; Animal and plant ecology ; Animal, plant and microbial ecology ; Biological and medical sciences ; Biomass ; Carbon dioxide ; Carbon Dioxide - metabolism ; Carbon Dioxide - pharmacology ; Climate change ; dry matter accumulation ; Ecosystem ; Ecosystems ; elevated atmospheric gases ; fertilizer application ; field experimentation ; Flowers & plants ; forbs ; Fundamental and applied biological sciences. Psychology ; General agroecology ; General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping ; General agronomy. Plant production ; Generalities, techniques ; Generalities. Agricultural and farming systems. Agricultural development ; Generalities. Techniques. Climatology. Meteorology. 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However, it is unknown whether CO2-induced stimulation of plant growth and biomass accumulation will be sustained or whether limited nitrogen (N) availability constrains greater plant growth in a CO2-enriched world. Here we show, after a six-year field study of perennial grassland species grown under ambient and elevated levels of CO2 and N, that low availability of N progressively suppresses the positive response of plant biomass to elevated CO2. Initially, the stimulation of total plant biomass by elevated CO2 was no greater at enriched than at ambient N supply. After four to six years, however, elevated CO2 stimulated plant biomass much less under ambient than enriched N supply. This response was consistent with the temporally divergent effects of elevated CO2 on soil and plant N dynamics at differing levels of N supply. 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Academic</collection><jtitle>Nature (London)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Reich, P.B</au><au>Hobbie, S.E</au><au>Lee, T</au><au>Ellsworth, D.S</au><au>West, J.B</au><au>Tilman, D</au><au>Knops, J.M.H</au><au>Naeem, S</au><au>Trost, J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Nitrogen limitation constrains sustainability of ecosystem response to CO2</atitle><jtitle>Nature (London)</jtitle><stitle>Nature</stitle><addtitle>Nature</addtitle><date>2006-04-13</date><risdate>2006</risdate><volume>440</volume><issue>7086</issue><spage>922</spage><epage>925</epage><pages>922-925</pages><issn>0028-0836</issn><eissn>1476-4687</eissn><coden>NATUAS</coden><abstract>Enhanced plant biomass accumulation in response to elevated atmospheric CO2 concentration could dampen the future rate of increase in CO2 levels and associated climate warming. However, it is unknown whether CO2-induced stimulation of plant growth and biomass accumulation will be sustained or whether limited nitrogen (N) availability constrains greater plant growth in a CO2-enriched world. Here we show, after a six-year field study of perennial grassland species grown under ambient and elevated levels of CO2 and N, that low availability of N progressively suppresses the positive response of plant biomass to elevated CO2. Initially, the stimulation of total plant biomass by elevated CO2 was no greater at enriched than at ambient N supply. After four to six years, however, elevated CO2 stimulated plant biomass much less under ambient than enriched N supply. This response was consistent with the temporally divergent effects of elevated CO2 on soil and plant N dynamics at differing levels of N supply. Our results indicate that variability in availability of soil N and deposition of atmospheric N are both likely to influence the response of plant biomass accumulation to elevated atmospheric CO2. Given that limitations to productivity resulting from the insufficient availability of N are widespread in both unmanaged and managed vegetation, soil N supply is probably an important constraint on global terrestrial responses to elevated CO2.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>16612381</pmid><doi>10.1038/nature04486</doi><tpages>4</tpages><oa>free_for_read</oa></addata></record>
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subjects	Accumulation Agricultural and forest climatology and meteorology. Irrigation. Drainage Agricultural and forest meteorology Agronomy. Soil science and plant productions ammonium nitrate Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Biomass Carbon dioxide Carbon Dioxide - metabolism Carbon Dioxide - pharmacology Climate change dry matter accumulation Ecosystem Ecosystems elevated atmospheric gases fertilizer application field experimentation Flowers & plants forbs Fundamental and applied biological sciences. Psychology General agroecology General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping General agronomy. Plant production Generalities, techniques Generalities. Agricultural and farming systems. Agricultural development Generalities. Techniques. Climatology. Meteorology. Climatic models of plant production Global warming grasses Grasslands Greenhouse Effect Humanities and Social Sciences legumes letter multidisciplinary Nitrogen Nitrogen - metabolism Nitrogen - pharmacology nutrient availability Plant biomass Plant growth Poaceae - drug effects Poaceae - growth & development Poaceae - metabolism Science Science (multidisciplinary) Soil - analysis Soil-plant relationships. Soil fertility Soil-plant relationships. Soil fertility. Fertilization. Amendments Soils Sustainable ecosystems Synecology Terrestrial ecosystems Time Factors Vegetation
title	Nitrogen limitation constrains sustainability of ecosystem response to CO2
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