Nitrogen uptake pattern of herbaceous plants: coping strategies in altered neighbor species

The mechanisms for maintaining the species diversity of plant communities under conditions of resource limitation is an important subject in ecology. How interspecific relationships influence the pattern of nutrient absorption by coexisting species in N-limited ecosystems is still disputed. We inves...

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Published in	Biology and fertility of soils Vol. 53; no. 7; pp. 729 - 735
Main Authors	Hong, Jiangtao, Ma, Xingxing, Zhang, Xiaoke, Wang, Xiaodan
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2017 Springer Nature B.V
Subjects	Absorption Agriculture ammonium nitrogen Aridity Biodiversity Biomedical and Life Sciences Capacity Carex China Community ecology Complementarity coping strategies Dominant species Ecological effects Ecosystems Extreme environments Flowers & plants Glycine Glycine (amino acid) herbaceous plants Interspecific Interspecific relationships Leontopodium Life Sciences Mineral nutrients Neighborhoods Niches nitrate nitrogen Nitrogen Nitrogen isotopes Phenotypic plasticity Plant communities Plant diversity Plant ecology Plant species Plastic properties Plasticity Resource partitioning Resource utilization Short Communication Soil Science & Conservation Species diversity stable isotopes Steppes Stipa Tracer techniques Tracers Uptake China Nitrogen forms Niche complementarity Nitrogen uptake Neighbor removals Species coexistence
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Abstract	The mechanisms for maintaining the species diversity of plant communities under conditions of resource limitation is an important subject in ecology. How interspecific relationships influence the pattern of nutrient absorption by coexisting species in N-limited ecosystems is still disputed. We investigated the effect of neighbor species on the uptake of inorganic and organic N by three common plant species using 15 N tracer techniques in a semi-arid alpine steppe on the northern Tibet. The results showed that the plant species varied in their capacity to absorb NO 3 − -N, NH 4 + -N, and glycine-N with or without neighbor species. Carex moorcroftii and Leontopodium nanum showed much more plasticity in resource utilization than Stipa purpurea when neighbor species were present. When C. moorcroftii and S. purpurea coexisted, they all increased their 15 N uptake for the NO 3 − -N ( C. moorcroftii 2.2-fold increase and S. purpurea 2.2-fold increase) and glycine-N treatments ( C. moorcroftii 2.9-fold increase and S. purpurea 3.4-fold increase), which indicated that neighborhood had a positive effect for N absorption between the two species. However, L. nanum was a less effective competitor for N utilization than the neighbor species across almost all treatments. The dominant species appeared to have an inhibitory effect on N absorption by the accompanying species in this alpine steppe environment. Thus, interspecific neighbor pairs may result in both a mutually beneficial cooperative relationship and a competitive relationship among neighbors in resource use patterns in extreme environments. Resource use plasticity in altered neighbor species may be due to phenotypic plasticity based on the conditions of the realized niche, offering a valuable insight into niche complementarity and providing a general and important mechanism for resource partitioning in an alpine area.
AbstractList	The mechanisms for maintaining the species diversity of plant communities under conditions of resource limitation is an important subject in ecology. How interspecific relationships influence the pattern of nutrient absorption by coexisting species in N-limited ecosystems is still disputed. We investigated the effect of neighbor species on the uptake of inorganic and organic N by three common plant species using 15N tracer techniques in a semi-arid alpine steppe on the northern Tibet. The results showed that the plant species varied in their capacity to absorb NO3 −-N, NH4 +-N, and glycine-N with or without neighbor species. Carex moorcroftii and Leontopodium nanum showed much more plasticity in resource utilization than Stipa purpurea when neighbor species were present. When C. moorcroftii and S. purpurea coexisted, they all increased their 15N uptake for the NO3 −-N (C. moorcroftii 2.2-fold increase and S. purpurea 2.2-fold increase) and glycine-N treatments (C. moorcroftii 2.9-fold increase and S. purpurea 3.4-fold increase), which indicated that neighborhood had a positive effect for N absorption between the two species. However, L. nanum was a less effective competitor for N utilization than the neighbor species across almost all treatments. The dominant species appeared to have an inhibitory effect on N absorption by the accompanying species in this alpine steppe environment. Thus, interspecific neighbor pairs may result in both a mutually beneficial cooperative relationship and a competitive relationship among neighbors in resource use patterns in extreme environments. Resource use plasticity in altered neighbor species may be due to phenotypic plasticity based on the conditions of the realized niche, offering a valuable insight into niche complementarity and providing a general and important mechanism for resource partitioning in an alpine area. The mechanisms for maintaining the species diversity of plant communities under conditions of resource limitation is an important subject in ecology. How interspecific relationships influence the pattern of nutrient absorption by coexisting species in N-limited ecosystems is still disputed. We investigated the effect of neighbor species on the uptake of inorganic and organic N by three common plant species using 15 N tracer techniques in a semi-arid alpine steppe on the northern Tibet. The results showed that the plant species varied in their capacity to absorb NO 3 − -N, NH 4 + -N, and glycine-N with or without neighbor species. Carex moorcroftii and Leontopodium nanum showed much more plasticity in resource utilization than Stipa purpurea when neighbor species were present. When C. moorcroftii and S. purpurea coexisted, they all increased their 15 N uptake for the NO 3 − -N ( C. moorcroftii 2.2-fold increase and S. purpurea 2.2-fold increase) and glycine-N treatments ( C. moorcroftii 2.9-fold increase and S. purpurea 3.4-fold increase), which indicated that neighborhood had a positive effect for N absorption between the two species. However, L. nanum was a less effective competitor for N utilization than the neighbor species across almost all treatments. The dominant species appeared to have an inhibitory effect on N absorption by the accompanying species in this alpine steppe environment. Thus, interspecific neighbor pairs may result in both a mutually beneficial cooperative relationship and a competitive relationship among neighbors in resource use patterns in extreme environments. Resource use plasticity in altered neighbor species may be due to phenotypic plasticity based on the conditions of the realized niche, offering a valuable insight into niche complementarity and providing a general and important mechanism for resource partitioning in an alpine area. The mechanisms for maintaining the species diversity of plant communities under conditions of resource limitation is an important subject in ecology. How interspecific relationships influence the pattern of nutrient absorption by coexisting species in N-limited ecosystems is still disputed. We investigated the effect of neighbor species on the uptake of inorganic and organic N by three common plant species using ¹⁵N tracer techniques in a semi-arid alpine steppe on the northern Tibet. The results showed that the plant species varied in their capacity to absorb NO₃ ⁻-N, NH₄ ⁺-N, and glycine-N with or without neighbor species. Carex moorcroftii and Leontopodium nanum showed much more plasticity in resource utilization than Stipa purpurea when neighbor species were present. When C. moorcroftii and S. purpurea coexisted, they all increased their ¹⁵N uptake for the NO₃ ⁻-N (C. moorcroftii 2.2-fold increase and S. purpurea 2.2-fold increase) and glycine-N treatments (C. moorcroftii 2.9-fold increase and S. purpurea 3.4-fold increase), which indicated that neighborhood had a positive effect for N absorption between the two species. However, L. nanum was a less effective competitor for N utilization than the neighbor species across almost all treatments. The dominant species appeared to have an inhibitory effect on N absorption by the accompanying species in this alpine steppe environment. Thus, interspecific neighbor pairs may result in both a mutually beneficial cooperative relationship and a competitive relationship among neighbors in resource use patterns in extreme environments. Resource use plasticity in altered neighbor species may be due to phenotypic plasticity based on the conditions of the realized niche, offering a valuable insight into niche complementarity and providing a general and important mechanism for resource partitioning in an alpine area.
Author	Hong, Jiangtao Zhang, Xiaoke Ma, Xingxing Wang, Xiaodan
Author_xml	– sequence: 1 givenname: Jiangtao surname: Hong fullname: Hong, Jiangtao organization: Institute of Mountain Hazards and Environment, Chinese Academy of Sciences – sequence: 2 givenname: Xingxing surname: Ma fullname: Ma, Xingxing organization: College of Urban and Environment Sciences, Shanxi Normal University – sequence: 3 givenname: Xiaoke surname: Zhang fullname: Zhang, Xiaoke organization: School of Public Administration, Hohai University – sequence: 4 givenname: Xiaodan surname: Wang fullname: Wang, Xiaodan email: wxd@imde.ac.cn, imdexdwww@gmail.com organization: Institute of Mountain Hazards and Environment, Chinese Academy of Sciences
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SubjectTerms	Absorption Agriculture ammonium nitrogen Aridity Biodiversity Biomedical and Life Sciences Capacity Carex China Community ecology Complementarity coping strategies Dominant species Ecological effects Ecosystems Extreme environments Flowers & plants Glycine Glycine (amino acid) herbaceous plants Interspecific Interspecific relationships Leontopodium Life Sciences Mineral nutrients Neighborhoods Niches nitrate nitrogen Nitrogen Nitrogen isotopes Phenotypic plasticity Plant communities Plant diversity Plant ecology Plant species Plastic properties Plasticity Resource partitioning Resource utilization Short Communication Soil Science & Conservation Species diversity stable isotopes Steppes Stipa Tracer techniques Tracers Uptake
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Title	Nitrogen uptake pattern of herbaceous plants: coping strategies in altered neighbor species
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