Preferences for uptake of different nitrogen forms by co-existing plant species and soil microbes in temperate grasslands.

High potential, but low actual, glycine uptake of dominant plant species in three Australian land-use types with intermediate N availability

Kahmen, Ansgar
Livesley, Stephen J.
Arndt, Stefan K.

December 2009

The traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants c...

Plant-microbial competition for nitrogen uncoupled from soil C:N ratios

Månsson, Katarina
Bengtson, Per
Falkengren-Grerup, Ursula
Bengtsson, Göran

January 2009

A green house experiment was designed to test the idea that competition for inorganic nitrogen (N) b...

Plant and microbial uptake and allocation of organic and inorganic nitrogen related to plant growth forms and soil conditions at two subarctic tundra types

Sørensen, P L
Clemmensen, K E
Michelsen, A
Jonasson, S
Ström, Lena

January 2008

In order to follow the uptake and allocation of N in different plant functional types and microbes i...

Do plant species with different growth strategies vary in their ability to compete with soil microbes for chemical forms of nitrogen?

Harrison, Kathryn A.
Bol, Roland
Bardgett, Richard D.

January 2008

We used dual labelled stable isotope (13C and 15N) techniques to examine how grassland plant species...

Soil microbes compete effectively with plants for organic nitrogen inputs to temperate grasslands.

Bardgett, Richard D.
Streeter, Tania C.
Bol, Roland

May 2003

Although agricultural grassland soils have inherently high rates of net nitrogen (N) mineralization,...

Preferential uptake of soil nitrogen forms by grassland plant species.

Weigelt, Alexandra
Bol, Roland
Bardgett, Richard D.

February 2005

In this study, we assessed whether a range of temperate grassland species showed preferential uptake...

Nitrogen acquisition by plants and microorganisms in a temperate grassland

Liu Q.
Qiao N.
Xu X.
Xin X.
Han J.
Tian Y.
Ouyang H.
Kuzyakov Y.

February 2020

Nitrogen (N) limitation is common in most terrestrial ecosystems, often leading to strong competitio...

Inter-specific variability in organic nitrogen uptake of three temperate grassland species.

Weigelt, Alexandra
King, Rosalind
Bol, Roland
Bardgett, Richard D.

October 2003

We tested the inter-specific variability in the ability of three dominant grasses of temperate grass...

Challenging the paradigm of nitrogen cycling: no evidence of in situ resource partitioning by coexisting plant species in grasslands of contrasting fertility

Wilkinson, Anna
Hill, Paul
Vaieretti, Maria Victoria
Farrar, John
Jones, Davey
Bardgett, Richard

January 2015

In monoculture, certain plant species are able to preferentially utilize different nitrogen (N) form...

Nitrogen competition between three dominant plant species and microbes in a temperate grassland

Ouyang S. N.
Tian, Y. Q.
Liu, Q. Y.
Zhang, L.
Wang, R. X.
Xu, X. L.

January 2016

To test the hypothesis that dominant plant species could acquire different nitrogen (N) forms over a...

Inter-specific competition, but not different soil microbial communities, affects N chemical forms uptake by competing graminoids of upland grasslands.

Eduardo Medina-Roldán
Richard D Bardgett

Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...

Inter-Specific Competition, but Not Different Soil Microbial Communities, Affects N Chemical Forms Uptake by Competing Graminoids of Upland Grasslands

Richard D. Bardgett

October 2015

Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...

Soil microbes compete strongly with plants for soil inorganic and amino acid nitrogen in a semiarid grassland exposed to elevated CO2 and warming

Chen, Janet
Carrillo, Yolima (R17597)
Pendall, Elise (R17757)
Dijkstra, Feike A.
Evans, R. Dave
Morgan, Jack A.
Williams, David G.

January 2015

Free amino acids (FAAs) in soil are an important N source for plants, and abundances are predicted t...

Influence of microbial activity on plant-microbial competition for organic and inorganic nitrogen.

Dunn, Robert M.
Mikola, Juha
Bol, Roland
Bardgett, Richard D.

November 2006

To investigate how the level of microbial activity in grassland soils affects plant–microbial compet...

Interactions of plant species mediated plant competition for inorganic nitrogen with soil microorganisms in an alpine meadow

Song M. H.
Xu X. L.
Hu Q. W.
Tian Y. Q.
Hua O. Y.
Zhou C. P.

January 2007

Sources of competition for limited soil resources, such as nitrogen, include competitive interaction...

High potential, but low actual, glycine uptake of dominant plant species in three Australian land-use types with intermediate N availability

Kahmen, Ansgar
Livesley, Stephen J.
Arndt, Stefan K.

December 2009

The traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants c...

Plant-microbial competition for nitrogen uncoupled from soil C:N ratios

Månsson, Katarina
Bengtson, Per
Falkengren-Grerup, Ursula
Bengtsson, Göran

January 2009

A green house experiment was designed to test the idea that competition for inorganic nitrogen (N) b...

Plant and microbial uptake and allocation of organic and inorganic nitrogen related to plant growth forms and soil conditions at two subarctic tundra types

Sørensen, P L
Clemmensen, K E
Michelsen, A
Jonasson, S
Ström, Lena

January 2008

In order to follow the uptake and allocation of N in different plant functional types and microbes i...

Do plant species with different growth strategies vary in their ability to compete with soil microbes for chemical forms of nitrogen?

Harrison, Kathryn A.
Bol, Roland
Bardgett, Richard D.

January 2008

We used dual labelled stable isotope (13C and 15N) techniques to examine how grassland plant species...

Soil microbes compete effectively with plants for organic nitrogen inputs to temperate grasslands.

Bardgett, Richard D.
Streeter, Tania C.
Bol, Roland

May 2003

Although agricultural grassland soils have inherently high rates of net nitrogen (N) mineralization,...

Preferential uptake of soil nitrogen forms by grassland plant species.

Weigelt, Alexandra
Bol, Roland
Bardgett, Richard D.

February 2005

In this study, we assessed whether a range of temperate grassland species showed preferential uptake...

Nitrogen acquisition by plants and microorganisms in a temperate grassland

Liu Q.
Qiao N.
Xu X.
Xin X.
Han J.
Tian Y.
Ouyang H.
Kuzyakov Y.

February 2020

Nitrogen (N) limitation is common in most terrestrial ecosystems, often leading to strong competitio...

Inter-specific variability in organic nitrogen uptake of three temperate grassland species.

Weigelt, Alexandra
King, Rosalind
Bol, Roland
Bardgett, Richard D.

October 2003

We tested the inter-specific variability in the ability of three dominant grasses of temperate grass...

Challenging the paradigm of nitrogen cycling: no evidence of in situ resource partitioning by coexisting plant species in grasslands of contrasting fertility

Wilkinson, Anna
Hill, Paul
Vaieretti, Maria Victoria
Farrar, John
Jones, Davey
Bardgett, Richard

January 2015

In monoculture, certain plant species are able to preferentially utilize different nitrogen (N) form...

Nitrogen competition between three dominant plant species and microbes in a temperate grassland

Ouyang S. N.
Tian, Y. Q.
Liu, Q. Y.
Zhang, L.
Wang, R. X.
Xu, X. L.

January 2016

To test the hypothesis that dominant plant species could acquire different nitrogen (N) forms over a...

Inter-specific competition, but not different soil microbial communities, affects N chemical forms uptake by competing graminoids of upland grasslands.

Eduardo Medina-Roldán
Richard D Bardgett

Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...

Inter-Specific Competition, but Not Different Soil Microbial Communities, Affects N Chemical Forms Uptake by Competing Graminoids of Upland Grasslands

Richard D. Bardgett

October 2015

Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...

Soil microbes compete strongly with plants for soil inorganic and amino acid nitrogen in a semiarid grassland exposed to elevated CO2 and warming

Chen, Janet
Carrillo, Yolima (R17597)
Pendall, Elise (R17757)
Dijkstra, Feike A.
Evans, R. Dave
Morgan, Jack A.
Williams, David G.

January 2015

Free amino acids (FAAs) in soil are an important N source for plants, and abundances are predicted t...

Influence of microbial activity on plant-microbial competition for organic and inorganic nitrogen.

Dunn, Robert M.
Mikola, Juha
Bol, Roland
Bardgett, Richard D.

November 2006

To investigate how the level of microbial activity in grassland soils affects plant–microbial compet...

Interactions of plant species mediated plant competition for inorganic nitrogen with soil microorganisms in an alpine meadow

Song M. H.
Xu X. L.
Hu Q. W.
Tian Y. Q.
Hua O. Y.
Zhou C. P.

January 2007

Sources of competition for limited soil resources, such as nitrogen, include competitive interaction...

High potential, but low actual, glycine uptake of dominant plant species in three Australian land-use types with intermediate N availability

Kahmen, Ansgar
Livesley, Stephen J.
Arndt, Stefan K.

December 2009

The traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants c...

Plant-microbial competition for nitrogen uncoupled from soil C:N ratios

Månsson, Katarina
Bengtson, Per
Falkengren-Grerup, Ursula
Bengtsson, Göran

January 2009

A green house experiment was designed to test the idea that competition for inorganic nitrogen (N) b...

Plant and microbial uptake and allocation of organic and inorganic nitrogen related to plant growth forms and soil conditions at two subarctic tundra types

Sørensen, P L
Clemmensen, K E
Michelsen, A
Jonasson, S
Ström, Lena

January 2008

In order to follow the uptake and allocation of N in different plant functional types and microbes i...

Preferences for uptake of different nitrogen forms by co-existing plant species and soil microbes in temperate grasslands.

Abstract

Extracted data

Preferences for uptake of different nitrogen forms by co-existing plant species and soil microbes in temperate grasslands.

Abstract

Extracted data

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