Response of primary production and biomass allocation to nitrogen and water supplementation along a grazing intensity gradient in semiarid grassland

•We performed a grazing experiment with water and N fertilizer additions in a steppe.•No evidence for grazing optimization on primary production was found in this study.•Grazing decreased the belowground fraction of net primary production (BNPP/NPP).•Water and N additions significantly increased abo...

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Published inEuropean journal of agronomy Vol. 63; pp. 27 - 35
Main Authors Gong, Xiao Ying, Fanselow, Nicole, Dittert, Klaus, Taube, Friedhelm, Lin, Shan
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2015
Subjects
biomass production
China
Compensatory growth
dry matter partitioning
environmental factors
grazing intensity
herbivores
Inner Mongolian steppe
Morphological traits
N fertilizer
nitrogen
nitrogen fertilizers
plant growth
Precipitation
primary productivity
rotational grazing
Sheep grazing
steppes
China, People's Rep., Inner Mongolia
China
Precipitation
Inner Mongolian steppe
Compensatory growth
Sheep grazing
N fertilizer
Morphological traits
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Abstract •We performed a grazing experiment with water and N fertilizer additions in a steppe.•No evidence for grazing optimization on primary production was found in this study.•Grazing decreased the belowground fraction of net primary production (BNPP/NPP).•Water and N additions significantly increased aboveground net primary production.•The “whole-plant” perspective in studying plant–herbivore interactions was highlighted. Herbivory and resource availability interactively regulate plant growth, biomass allocation, and production. However, the compensatory growth of plants under grazing intensities and manipulated environmental conditions is not well understood. A 2-year experiment with water (unirrigated and irrigated) and nitrogen fertilizer (0 and 75kgNha−1year−1) addition was conducted at sites with 4 grazing intensities (0–7 sheepha−1) in an annually rotational grazing system in Inner Mongolia. In this study, grazing had no significant effect on aboveground net primary production (ANPP) and net primary production (NPP). However, high grazing intensity strongly reduced the fraction of belowground net primary production to NPP. Water and nitrogen additions significantly increased ANPP by 39% and by 23%, respectively, but had no effect on belowground net primary production. ANPP showed lower response to nitrogen addition at high grazing intensity sites than at low grazing intensity sites. We found no evidence for grazing optimization on primary production of semiarid steppe, regardless of resource supplementations. Grazed plants minimized the reduction of ANPP by altering allocation priority and morphological traits. Our study highlights the “whole-plant” perspective when studying plant–herbivore interactions.
AbstractList Herbivory and resource availability interactively regulate plant growth, biomass allocation, and production. However, the compensatory growth of plants under grazing intensities and manipulated environmental conditions is not well understood. A 2-year experiment with water (unirrigated and irrigated) and nitrogen fertilizer (0 and 75kgNha−1year−1) addition was conducted at sites with 4 grazing intensities (0–7 sheepha−1) in an annually rotational grazing system in Inner Mongolia. In this study, grazing had no significant effect on aboveground net primary production (ANPP) and net primary production (NPP). However, high grazing intensity strongly reduced the fraction of belowground net primary production to NPP. Water and nitrogen additions significantly increased ANPP by 39% and by 23%, respectively, but had no effect on belowground net primary production. ANPP showed lower response to nitrogen addition at high grazing intensity sites than at low grazing intensity sites. We found no evidence for grazing optimization on primary production of semiarid steppe, regardless of resource supplementations. Grazed plants minimized the reduction of ANPP by altering allocation priority and morphological traits. Our study highlights the “whole-plant” perspective when studying plant–herbivore interactions.
•We performed a grazing experiment with water and N fertilizer additions in a steppe.•No evidence for grazing optimization on primary production was found in this study.•Grazing decreased the belowground fraction of net primary production (BNPP/NPP).•Water and N additions significantly increased aboveground net primary production.•The “whole-plant” perspective in studying plant–herbivore interactions was highlighted. Herbivory and resource availability interactively regulate plant growth, biomass allocation, and production. However, the compensatory growth of plants under grazing intensities and manipulated environmental conditions is not well understood. A 2-year experiment with water (unirrigated and irrigated) and nitrogen fertilizer (0 and 75kgNha−1year−1) addition was conducted at sites with 4 grazing intensities (0–7 sheepha−1) in an annually rotational grazing system in Inner Mongolia. In this study, grazing had no significant effect on aboveground net primary production (ANPP) and net primary production (NPP). However, high grazing intensity strongly reduced the fraction of belowground net primary production to NPP. Water and nitrogen additions significantly increased ANPP by 39% and by 23%, respectively, but had no effect on belowground net primary production. ANPP showed lower response to nitrogen addition at high grazing intensity sites than at low grazing intensity sites. We found no evidence for grazing optimization on primary production of semiarid steppe, regardless of resource supplementations. Grazed plants minimized the reduction of ANPP by altering allocation priority and morphological traits. Our study highlights the “whole-plant” perspective when studying plant–herbivore interactions.
Herbivory and resource availability interactively regulate plant growth, biomass allocation, and production. However, the compensatory growth of plants under grazing intensities and manipulated environmental conditions is not well understood. A 2-year experiment with water (unirrigated and irrigated) and nitrogen fertilizer (0 and 75 kg N ha super(-1) year super(-1)) addition was conducted at sites with 4 grazing intensities (0-7 sheep ha super(-1)) in an annually rotational grazing system in Inner Mongolia. In this study, grazing had no significant effect on aboveground net primary production (ANPP) and net primary production (NPP). However, high grazing intensity strongly reduced the fraction of belowground net primary production to NPP. Water and nitrogen additions significantly increased ANPP by 39% and by 23%, respectively, but had no effect on belowground net primary production. ANPP showed lower response to nitrogen addition at high grazing intensity sites than at low grazing intensity sites. We found no evidence for grazing optimization on primary production of semiarid steppe, regardless of resource supplementations. Grazed plants minimized the reduction of ANPP by altering allocation priority and morphological traits. Our study highlights the "whole-plant" perspective when studying plant-herbivore interactions.
Author Fanselow, Nicole
Gong, Xiao Ying
Dittert, Klaus
Taube, Friedhelm
Lin, Shan
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  fullname: Gong, Xiao Ying
  organization: Department of Plant Nutrition, China Agricultural University, 100193 Beijing, PR China
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  surname: Fanselow
  fullname: Fanselow, Nicole
  organization: Institute of Plant Nutrition and Soil Science, Christian-Albrechts-University, Hermann-Rodewald-Str. 2, 24118 Kiel, Germany
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  givenname: Klaus
  surname: Dittert
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  organization: Institute of Plant Nutrition and Soil Science, Christian-Albrechts-University, Hermann-Rodewald-Str. 2, 24118 Kiel, Germany
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  givenname: Friedhelm
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  surname: Taube
  fullname: Taube, Friedhelm
  organization: Institute of Crop Science and Plant Breeding – Grass and Forage Science/Organic Agriculture, Christian-Albrechts-University, Hermann-Rodewald-Str. 2, 24118 Kiel, Germany
– sequence: 5
  givenname: Shan
  surname: Lin
  fullname: Lin, Shan
  email: linshan@cau.edu.cn
  organization: Department of Plant Nutrition, China Agricultural University, 100193 Beijing, PR China
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Keywords Precipitation
Inner Mongolian steppe
Compensatory growth
Sheep grazing
N fertilizer
Morphological traits
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Snippet •We performed a grazing experiment with water and N fertilizer additions in a steppe.•No evidence for grazing optimization on primary production was found in...
Herbivory and resource availability interactively regulate plant growth, biomass allocation, and production. However, the compensatory growth of plants under...
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SubjectTerms biomass production
China
Compensatory growth
dry matter partitioning
environmental factors
grazing intensity
herbivores
Inner Mongolian steppe
Morphological traits
N fertilizer
nitrogen
nitrogen fertilizers
plant growth
Precipitation
primary productivity
rotational grazing
Sheep grazing
steppes
Title Response of primary production and biomass allocation to nitrogen and water supplementation along a grazing intensity gradient in semiarid grassland
URI https://dx.doi.org/10.1016/j.eja.2014.11.004
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