Fine root classification matters: nutrient levels in different functional categories, orders and diameters of roots in boreal Pinus sylvestris across a latitudinal gradient
Background Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots. Aim We examined how the di...
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| Published in: | Plant and soil Vol. 447; no. 1-2; pp. 507 - 520 |
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| Main Authors: | , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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01-02-2020
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| Abstract | Background
Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots.
Aim
We examined how the different diameter cutoffs for root classification mirror concentrations of 11 different nutrients, plus Al in functionally different fine roots of
Pinus sylvestris
based on anatomical/ functional categorization and in relation to their biomass along a latitudinal gradient.
Results
The C:N:P ratios for pooled roots ≤2 mm in diameter reflected the nutrient concentrations of transport roots. In contrast, the C:N:P ratios for all absorptive roots was best reflected by nutrient ratios in the 1st root order, and not by those in root <2 mm. These patterns were more clear along decreasing mean annual temperature, despite increasing contribution of absorptive roots in the fine root biomass. Higher biomass fraction of transport roots did not always mirror higher concentration of element accumulated. Narrowing the root diameter cutoffs to 0.5 mm provided more informative data about nutrient concentrations in the absorptive root pool than <2 mm cut-off.
Conclusions
By analyzing nutrient concentration using ≤2 mm cut-off it is impossible to properly understand nutritional properties of roots with different functional attributes. Given that the diameter of fine root orders vary considerably even within a single species between stands, the diameter cutoffs for absorptive roots should be based on the characteristics of the studied species, and not on a fixed, universal diameter cutoff. |
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| AbstractList | Background: Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots. Aim: We examined how the different diameter cutoffs for root classification mirror concentrations of 11 different nutrients, plus Al in functionally different fine roots of Pinus sylvestris based on anatomical/ functional categorization and in relation to their biomass along a latitudinal gradient. Results: The C:N:P ratios for pooled roots ≤2 mm in diameter reflected the nutrient concentrations of transport roots. In contrast, the C:N:P ratios for all absorptive roots was best reflected by nutrient ratios in the 1st root order, and not by those in root <2 mm. These patterns were more clear along decreasing mean annual temperature, despite increasing contribution of absorptive roots in the fine root biomass. Higher biomass fraction of transport roots did not always mirror higher concentration of element accumulated. Narrowing the root diameter cutoffs to 0.5 mm provided more informative data about nutrient concentrations in the absorptive root pool than <2 mm cut-off. Conclusions: By analyzing nutrient concentration using ≤2 mm cut-off it is impossible to properly understand nutritional properties of roots with different functional attributes. Given that the diameter of fine root orders vary considerably even within a single species between stands, the diameter cutoffs for absorptive roots should be based on the characteristics of the studied species, and not on a fixed, universal diameter cutoff. Background Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots. Aim We examined how the different diameter cutoffs for root classification mirror concentrations of 11 different nutrients, plus Al in functionally different fine roots of Pinus sylvestris based on anatomical/ functional categorization and in relation to their biomass along a latitudinal gradient. Results The C:N:P ratios for pooled roots ≤2 mm in diameter reflected the nutrient concentrations of transport roots. In contrast, the C:N:P ratios for all absorptive roots was best reflected by nutrient ratios in the 1st root order, and not by those in root <2 mm. These patterns were more clear along decreasing mean annual temperature, despite increasing contribution of absorptive roots in the fine root biomass. Higher biomass fraction of transport roots did not always mirror higher concentration of element accumulated. Narrowing the root diameter cutoffs to 0.5 mm provided more informative data about nutrient concentrations in the absorptive root pool than <2 mm cut-off. Conclusions By analyzing nutrient concentration using ≤2 mm cut-off it is impossible to properly understand nutritional properties of roots with different functional attributes. Given that the diameter of fine root orders vary considerably even within a single species between stands, the diameter cutoffs for absorptive roots should be based on the characteristics of the studied species, and not on a fixed, universal diameter cutoff. BackgroundFine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots.AimWe examined how the different diameter cutoffs for root classification mirror concentrations of 11 different nutrients, plus Al in functionally different fine roots of Pinus sylvestris based on anatomical/ functional categorization and in relation to their biomass along a latitudinal gradient.ResultsThe C:N:P ratios for pooled roots ≤2 mm in diameter reflected the nutrient concentrations of transport roots. In contrast, the C:N:P ratios for all absorptive roots was best reflected by nutrient ratios in the 1st root order, and not by those in root <2 mm. These patterns were more clear along decreasing mean annual temperature, despite increasing contribution of absorptive roots in the fine root biomass. Higher biomass fraction of transport roots did not always mirror higher concentration of element accumulated. Narrowing the root diameter cutoffs to 0.5 mm provided more informative data about nutrient concentrations in the absorptive root pool than <2 mm cut-off.ConclusionsBy analyzing nutrient concentration using ≤2 mm cut-off it is impossible to properly understand nutritional properties of roots with different functional attributes. Given that the diameter of fine root orders vary considerably even within a single species between stands, the diameter cutoffs for absorptive roots should be based on the characteristics of the studied species, and not on a fixed, universal diameter cutoff. Background Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on position in a branching hierarchy, with absorptive roots (responsible for resource acquisition), and transport roots. Aim We examined how the different diameter cutoffs for root classification mirror concentrations of 11 different nutrients, plus Al in functionally different fine roots of Pinus sylvestris based on anatomical/ functional categorization and in relation to their biomass along a latitudinal gradient. Results The C:N:P ratios for pooled roots [less than or equal to]2 mm in diameter reflected the nutrient concentrations of transport roots. In contrast, the C:N:P ratios for all absorptive roots was best reflected by nutrient ratios in the 1st root order, and not by those in root <2 mm. These patterns were more clear along decreasing mean annual temperature, despite increasing contribution of absorptive roots in the fine root biomass. Higher biomass fraction of transport roots did not always mirror higher concentration of element accumulated. Narrowing the root diameter cutoffs to 0.5 mm provided more informative data about nutrient concentrations in the absorptive root pool than <2 mm cut-off. Conclusions By analyzing nutrient concentration using [less than or equal to]2 mm cut-off it is impossible to properly understand nutritional properties of roots with different functional attributes. Given that the diameter of fine root orders vary considerably even within a single species between stands, the diameter cutoffs for absorptive roots should be based on the characteristics of the studied species, and not on a fixed, universal diameter cutoff. |
| Audience | Academic |
| Author | Helmisaari, Heljä-Sisko Zadworny, Marcin Repo, Tapani Oleksyn, Jacek Mucha, Joanna Nihlgård, Bengt Reich, Peter B. Żytkowiak, Maciej Małek, Stanisław |
| Author_xml | – sequence: 1 givenname: Joanna orcidid: 0000-0002-1290-9639 surname: Mucha fullname: Mucha, Joanna email: jmucha@man.poznan.pl organization: Institute of Dendrology, Polish Academy of Sciences – sequence: 2 givenname: Marcin surname: Zadworny fullname: Zadworny, Marcin organization: Institute of Dendrology, Polish Academy of Sciences – sequence: 3 givenname: Heljä-Sisko surname: Helmisaari fullname: Helmisaari, Heljä-Sisko organization: Department of Forest Sciences, University of Helsinki – sequence: 4 givenname: Bengt surname: Nihlgård fullname: Nihlgård, Bengt organization: Institute of Biology, Lund University – sequence: 5 givenname: Tapani surname: Repo fullname: Repo, Tapani organization: Natural Resources Institute Finland (Luke), Natural Resources – sequence: 6 givenname: Maciej surname: Żytkowiak fullname: Żytkowiak, Maciej organization: Department of Econometrics, Poznan University of Economics and Business – sequence: 7 givenname: Stanisław surname: Małek fullname: Małek, Stanisław organization: Department of Forest Ecology and Reclamation, Faculty of Forestry, University of Agriculture in Krakow – sequence: 8 givenname: Peter B. surname: Reich fullname: Reich, Peter B. organization: Department of Forest Resources, University of Minnesota, Hawkesbury Institute for the Environment, Western Sydney University – sequence: 9 givenname: Jacek surname: Oleksyn fullname: Oleksyn, Jacek organization: Institute of Dendrology, Polish Academy of Sciences, Department of Forest Resources, University of Minnesota |
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| CitedBy_id | crossref_primary_10_1080_02827581_2021_1981430 crossref_primary_10_1007_s11104_023_06473_x crossref_primary_10_1093_treephys_tpaa060 crossref_primary_10_1111_nph_18870 crossref_primary_10_12677_IJE_2021_101010 crossref_primary_10_1111_gcb_15668 crossref_primary_10_1186_s40663_021_00301_3 crossref_primary_10_1007_s00442_022_05206_8 crossref_primary_10_1016_j_pedobi_2021_150708 crossref_primary_10_3389_ffgc_2023_1206225 crossref_primary_10_1016_j_foreco_2021_119384 crossref_primary_10_1038_s41598_021_83151_x |
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| Keywords | Fine roots Nutrients Diameter cutoffs Absorptive vs. transport roots |
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Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on... Background Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on... BackgroundFine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on... Background: Fine roots and their symbionts are the key drivers of processes such as nutrient cycling and belowground productivity. Their function depends on... |
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| SubjectTerms | Absorptive vs. transport roots Absorptivity Biologi Biological Sciences Biomass Biomedical and Life Sciences Botanik Botany Classification Diameter cutoffs Ecology Fine roots Life Sciences Natural Sciences Naturvetenskap Nutrient concentrations Nutrient cycles Nutrient transport Nutrients Pine trees Pinus sylvestris Plant Physiology Plant Sciences Regular Article Roots Soil Science & Conservation Symbionts Transport |
| Title | Fine root classification matters: nutrient levels in different functional categories, orders and diameters of roots in boreal Pinus sylvestris across a latitudinal gradient |
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