Belowground responses of woody plants to nitrogen addition in a phosphorus-rich region of northeast China

Key Message Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus pohuashanensis and Acanthopanax sessiliflorus. Soil in the cultivated fields of Changbai Mountain region of China is rich in phosphorus (P)...

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Published in	Trees (Berlin, West) Vol. 34; no. 1; pp. 143 - 154
Main Authors	Guo, Jing, Gao, Yingzhi, Eissenstat, David M., He, Chunguang, Sheng, Lianxi
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.02.2020 Springer Nature B.V
Subjects	Acanthopanax Agriculture Arbuscular mycorrhizas Biomass Biomedical and Life Sciences Carbon China Colonization dry matter partitioning Eleutherococcus sessiliflorus Fertilization fertilizer application fields Forestry Fungi Life Sciences Mountain regions Mountains mycorrhizal fungi Nitrogen nitrogen fertilizers Nutrient uptake Ontogeny Original Article Phosphorus Plant Anatomy/Development Plant growth Plant Pathology Plant Physiology Plant Sciences Plants (botany) root growth Roots Shoots soil Soils Sorbus Sorbus aucuparia subsp. pohuashanensis vesicular arbuscular mycorrhizae Woody plants China Biomass partitioning Carbon investment Arbuscular mycorrhiza
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Abstract	Key Message Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus pohuashanensis and Acanthopanax sessiliflorus. Soil in the cultivated fields of Changbai Mountain region of China is rich in phosphorus (P) and deficient in nitrogen (N) for most woody plants. However, currently N deposition is increasing and reducing its limitation on plant growth. How N addition shifts carbon investment among shoots, roots and arbuscular mycorrhizal (AM) fungi is not well understood, especially in woody plants growing in the field. We examine the responses of the growth, biomass partitioning and AM colonization of Sorbus pohuashanensis Hedl. and Acanthopanax sessiliflorus Seem. to low and high N fertilization in northeastern China on high-P soil over 3 years. With N addition, both plants increased shoot biomass by 20–45%, and N and P content by 13–30%, while root biomass increased only by 2.1–5.4%. The slower increase in root growth relative to shoot growth resulted in lower root mass fraction. After plant size (ontogeny) was accounted for, root mass fraction still decreased significantly with high N fertilization in both species. Mycorrhizal colonization intensity and AM-colonized root length decreased with an increase in N addition. In this P-rich site, the limited increase in root biomass and large decrease in AM colonization with N addition presumably promoted plant growth and nutrient uptake. Our results imply that the growth of these two species may be improved by increased carbon allocation to shoots, as N addition permitted sufficient nutrient uptake by roots and AM fungi to meet shoot nutrient demand without additional belowground carbon expenditure.
AbstractList	KEY MESSAGE: Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus pohuashanensis and Acanthopanax sessiliflorus. Soil in the cultivated fields of Changbai Mountain region of China is rich in phosphorus (P) and deficient in nitrogen (N) for most woody plants. However, currently N deposition is increasing and reducing its limitation on plant growth. How N addition shifts carbon investment among shoots, roots and arbuscular mycorrhizal (AM) fungi is not well understood, especially in woody plants growing in the field. We examine the responses of the growth, biomass partitioning and AM colonization of Sorbus pohuashanensis Hedl. and Acanthopanax sessiliflorus Seem. to low and high N fertilization in northeastern China on high-P soil over 3 years. With N addition, both plants increased shoot biomass by 20–45%, and N and P content by 13–30%, while root biomass increased only by 2.1–5.4%. The slower increase in root growth relative to shoot growth resulted in lower root mass fraction. After plant size (ontogeny) was accounted for, root mass fraction still decreased significantly with high N fertilization in both species. Mycorrhizal colonization intensity and AM-colonized root length decreased with an increase in N addition. In this P-rich site, the limited increase in root biomass and large decrease in AM colonization with N addition presumably promoted plant growth and nutrient uptake. Our results imply that the growth of these two species may be improved by increased carbon allocation to shoots, as N addition permitted sufficient nutrient uptake by roots and AM fungi to meet shoot nutrient demand without additional belowground carbon expenditure. Key Message Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus pohuashanensis and Acanthopanax sessiliflorus. Soil in the cultivated fields of Changbai Mountain region of China is rich in phosphorus (P) and deficient in nitrogen (N) for most woody plants. However, currently N deposition is increasing and reducing its limitation on plant growth. How N addition shifts carbon investment among shoots, roots and arbuscular mycorrhizal (AM) fungi is not well understood, especially in woody plants growing in the field. We examine the responses of the growth, biomass partitioning and AM colonization of Sorbus pohuashanensis Hedl. and Acanthopanax sessiliflorus Seem. to low and high N fertilization in northeastern China on high-P soil over 3 years. With N addition, both plants increased shoot biomass by 20–45%, and N and P content by 13–30%, while root biomass increased only by 2.1–5.4%. The slower increase in root growth relative to shoot growth resulted in lower root mass fraction. After plant size (ontogeny) was accounted for, root mass fraction still decreased significantly with high N fertilization in both species. Mycorrhizal colonization intensity and AM-colonized root length decreased with an increase in N addition. In this P-rich site, the limited increase in root biomass and large decrease in AM colonization with N addition presumably promoted plant growth and nutrient uptake. Our results imply that the growth of these two species may be improved by increased carbon allocation to shoots, as N addition permitted sufficient nutrient uptake by roots and AM fungi to meet shoot nutrient demand without additional belowground carbon expenditure. Key MessageNitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus pohuashanensis and Acanthopanax sessiliflorus.Soil in the cultivated fields of Changbai Mountain region of China is rich in phosphorus (P) and deficient in nitrogen (N) for most woody plants. However, currently N deposition is increasing and reducing its limitation on plant growth. How N addition shifts carbon investment among shoots, roots and arbuscular mycorrhizal (AM) fungi is not well understood, especially in woody plants growing in the field. We examine the responses of the growth, biomass partitioning and AM colonization of Sorbus pohuashanensis Hedl. and Acanthopanax sessiliflorus Seem. to low and high N fertilization in northeastern China on high-P soil over 3 years. With N addition, both plants increased shoot biomass by 20–45%, and N and P content by 13–30%, while root biomass increased only by 2.1–5.4%. The slower increase in root growth relative to shoot growth resulted in lower root mass fraction. After plant size (ontogeny) was accounted for, root mass fraction still decreased significantly with high N fertilization in both species. Mycorrhizal colonization intensity and AM-colonized root length decreased with an increase in N addition. In this P-rich site, the limited increase in root biomass and large decrease in AM colonization with N addition presumably promoted plant growth and nutrient uptake. Our results imply that the growth of these two species may be improved by increased carbon allocation to shoots, as N addition permitted sufficient nutrient uptake by roots and AM fungi to meet shoot nutrient demand without additional belowground carbon expenditure.
Author	Sheng, Lianxi Gao, Yingzhi Eissenstat, David M. He, Chunguang Guo, Jing
Author_xml	– sequence: 1 givenname: Jing surname: Guo fullname: Guo, Jing organization: Key Laboratory of Vegetation Ecology, Institute of Grassland Science, Northeast Normal University, State Environmental Protection Key Laboratory of Wetland Ecology and Vegetation Restoration, Northeast Normal University, Department of Ecosystem Science and Management, The Pennsylvania State University – sequence: 2 givenname: Yingzhi surname: Gao fullname: Gao, Yingzhi email: gaoyz108@nenu.edu.cn organization: Key Laboratory of Vegetation Ecology, Institute of Grassland Science, Northeast Normal University – sequence: 3 givenname: David M. surname: Eissenstat fullname: Eissenstat, David M. organization: Department of Ecosystem Science and Management, The Pennsylvania State University – sequence: 4 givenname: Chunguang surname: He fullname: He, Chunguang email: he-cg@nenu.edu.cn organization: State Environmental Protection Key Laboratory of Wetland Ecology and Vegetation Restoration, Northeast Normal University – sequence: 5 givenname: Lianxi surname: Sheng fullname: Sheng, Lianxi organization: State Environmental Protection Key Laboratory of Wetland Ecology and Vegetation Restoration, Northeast Normal University
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Snippet	Key Message Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of... Key MessageNitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of Sorbus... KEY MESSAGE: Nitrogen addition leads to large increases in shoot growth but limited increases in root growth and reductions in mycorrhizal colonization of...
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SubjectTerms	Acanthopanax Agriculture Arbuscular mycorrhizas Biomass Biomedical and Life Sciences Carbon China Colonization dry matter partitioning Eleutherococcus sessiliflorus Fertilization fertilizer application fields Forestry Fungi Life Sciences Mountain regions Mountains mycorrhizal fungi Nitrogen nitrogen fertilizers Nutrient uptake Ontogeny Original Article Phosphorus Plant Anatomy/Development Plant growth Plant Pathology Plant Physiology Plant Sciences Plants (botany) root growth Roots Shoots soil Soils Sorbus Sorbus aucuparia subsp. pohuashanensis vesicular arbuscular mycorrhizae Woody plants
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Title	Belowground responses of woody plants to nitrogen addition in a phosphorus-rich region of northeast China
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