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Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports. / Reichel, Rüdiger; Kamau, Catherine Wambui; Kumar, Amit et al.
In: Biology and Fertility of Soils, Vol. 58, No. 4, 01.05.2022, p. 375-388.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Reichel, R, Kamau, CW, Kumar, A, Li, Z, Radl, V, Temperton, VM, Schloter, M & Brüggemann, N 2022, 'Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports', Biology and Fertility of Soils, vol. 58, no. 4, pp. 375-388. https://doi.org/10.1007/s00374-022-01624-1

APA

Reichel, R., Kamau, C. W., Kumar, A., Li, Z., Radl, V., Temperton, V. M., Schloter, M., & Brüggemann, N. (2022). Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports. Biology and Fertility of Soils, 58(4), 375-388. https://doi.org/10.1007/s00374-022-01624-1

Vancouver

Reichel R, Kamau CW, Kumar A, Li Z, Radl V, Temperton VM et al. Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports. Biology and Fertility of Soils. 2022 May 1;58(4):375-388. doi: 10.1007/s00374-022-01624-1

Bibtex

@article{b818475245d44d8fa5d104d8e4454381,
title = "Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports",
abstract = "Plant residues with larger carbon (C) to nitrogen (N) ratios can stimulate microbial growth and thereby protect soil nutrients from leaching. In poorly fertilized soil, excessive immobilization may limit nutrient availability and thus plant growth. Little is known about the impact of a shallow straw incorporation on soil microbial regulation of top-dressing fertilizer nutrients and spring crop establishment. We aimed to evaluate if wheat straw in combination with mineral fertilizer has more positive effects on plant performance than mineral fertilization alone and if this relates to changes of the extractable C:N:P ratio and microbial activity close to the roots. In order to conduct small-scale sampling with minimal disturbance during growth of spring barley (Hordeum vulgare L.), we developed rhizotrons with resealable ports. Rhizotrons were filled with loamy-sandy soil and fertilized with an equivalent of 150 kg N and 80 kg P ha−1. Half of the rhizotrons received the top dressing together with 4500 kg wheat straw-C ha−1. Throughout a 90-day greenhouse experiment, we analyzed soil C:N:P dynamics, and carbon dioxide (CO2) and nitrous oxide (N2O) emission, together with microbial biomass, selected bacterial genes (abundance), and transcripts (activity) in bulk and root-affected soil at multiple times. We focused on nitrifiers and denitrifiers and linked our data to barley growth. Interactions between straw and roots caused shifts towards larger C:P and C:N ratios in root-affected soil. These shifts were associated with increased 16S rRNA transcripts and denitrifier activities. Straw increased microbial biomass by 124% in the topsoil and at the same time increased root biomass by 125% and number of tillers by 80%. We concluded that microbial activation at the root-straw interface may positively feed back on soil nutrient regulation and plant performance. Further research has to evaluate if plant roots actively prime mining of previously immobilized nutrients in the straw detritusphere or if effects of pathogen suppression and growth promotion are dominating.",
keywords = "Barley, Denitrification, N immobilization, Nitrification, Nutrient stoichiometry, Rhizotron, Rhizotron sampling, Wheat straw, Biology, Ecosystems Research",
author = "R{\"u}diger Reichel and Kamau, {Catherine Wambui} and Amit Kumar and Zhijie Li and Viviane Radl and Temperton, {Vicky M.} and Michael Schloter and Nicolas Br{\"u}ggemann",
note = "Open Access funding enabled and organized by Projekt DEAL. The “INPLAMINT” project—Increasing agricultural nutrient-use efficiency by optimizing plant-soil-microorganism interactions—was supported by the BonaRes soil sustainability program of the Federal German Ministry for Education and Research (BMBF). Grant numbers: FKZ 031B0508A, 031B0508C, 031B0508H. ",
year = "2022",
month = may,
day = "1",
doi = "10.1007/s00374-022-01624-1",
language = "English",
volume = "58",
pages = "375--388",
journal = "Biology and Fertility of Soils",
issn = "0178-2762",
publisher = "Springer Science and Business Media Deutschland GmbH",
number = "4",

}

RIS

TY - JOUR

T1 - Spring barley performance benefits from simultaneous shallow straw incorporation and top dressing as revealed by rhizotrons with resealable sampling ports

AU - Reichel, Rüdiger

AU - Kamau, Catherine Wambui

AU - Kumar, Amit

AU - Li, Zhijie

AU - Radl, Viviane

AU - Temperton, Vicky M.

AU - Schloter, Michael

AU - Brüggemann, Nicolas

N1 - Open Access funding enabled and organized by Projekt DEAL. The “INPLAMINT” project—Increasing agricultural nutrient-use efficiency by optimizing plant-soil-microorganism interactions—was supported by the BonaRes soil sustainability program of the Federal German Ministry for Education and Research (BMBF). Grant numbers: FKZ 031B0508A, 031B0508C, 031B0508H.

PY - 2022/5/1

Y1 - 2022/5/1

N2 - Plant residues with larger carbon (C) to nitrogen (N) ratios can stimulate microbial growth and thereby protect soil nutrients from leaching. In poorly fertilized soil, excessive immobilization may limit nutrient availability and thus plant growth. Little is known about the impact of a shallow straw incorporation on soil microbial regulation of top-dressing fertilizer nutrients and spring crop establishment. We aimed to evaluate if wheat straw in combination with mineral fertilizer has more positive effects on plant performance than mineral fertilization alone and if this relates to changes of the extractable C:N:P ratio and microbial activity close to the roots. In order to conduct small-scale sampling with minimal disturbance during growth of spring barley (Hordeum vulgare L.), we developed rhizotrons with resealable ports. Rhizotrons were filled with loamy-sandy soil and fertilized with an equivalent of 150 kg N and 80 kg P ha−1. Half of the rhizotrons received the top dressing together with 4500 kg wheat straw-C ha−1. Throughout a 90-day greenhouse experiment, we analyzed soil C:N:P dynamics, and carbon dioxide (CO2) and nitrous oxide (N2O) emission, together with microbial biomass, selected bacterial genes (abundance), and transcripts (activity) in bulk and root-affected soil at multiple times. We focused on nitrifiers and denitrifiers and linked our data to barley growth. Interactions between straw and roots caused shifts towards larger C:P and C:N ratios in root-affected soil. These shifts were associated with increased 16S rRNA transcripts and denitrifier activities. Straw increased microbial biomass by 124% in the topsoil and at the same time increased root biomass by 125% and number of tillers by 80%. We concluded that microbial activation at the root-straw interface may positively feed back on soil nutrient regulation and plant performance. Further research has to evaluate if plant roots actively prime mining of previously immobilized nutrients in the straw detritusphere or if effects of pathogen suppression and growth promotion are dominating.

AB - Plant residues with larger carbon (C) to nitrogen (N) ratios can stimulate microbial growth and thereby protect soil nutrients from leaching. In poorly fertilized soil, excessive immobilization may limit nutrient availability and thus plant growth. Little is known about the impact of a shallow straw incorporation on soil microbial regulation of top-dressing fertilizer nutrients and spring crop establishment. We aimed to evaluate if wheat straw in combination with mineral fertilizer has more positive effects on plant performance than mineral fertilization alone and if this relates to changes of the extractable C:N:P ratio and microbial activity close to the roots. In order to conduct small-scale sampling with minimal disturbance during growth of spring barley (Hordeum vulgare L.), we developed rhizotrons with resealable ports. Rhizotrons were filled with loamy-sandy soil and fertilized with an equivalent of 150 kg N and 80 kg P ha−1. Half of the rhizotrons received the top dressing together with 4500 kg wheat straw-C ha−1. Throughout a 90-day greenhouse experiment, we analyzed soil C:N:P dynamics, and carbon dioxide (CO2) and nitrous oxide (N2O) emission, together with microbial biomass, selected bacterial genes (abundance), and transcripts (activity) in bulk and root-affected soil at multiple times. We focused on nitrifiers and denitrifiers and linked our data to barley growth. Interactions between straw and roots caused shifts towards larger C:P and C:N ratios in root-affected soil. These shifts were associated with increased 16S rRNA transcripts and denitrifier activities. Straw increased microbial biomass by 124% in the topsoil and at the same time increased root biomass by 125% and number of tillers by 80%. We concluded that microbial activation at the root-straw interface may positively feed back on soil nutrient regulation and plant performance. Further research has to evaluate if plant roots actively prime mining of previously immobilized nutrients in the straw detritusphere or if effects of pathogen suppression and growth promotion are dominating.

KW - Barley

KW - Denitrification

KW - N immobilization

KW - Nitrification

KW - Nutrient stoichiometry

KW - Rhizotron

KW - Rhizotron sampling

KW - Wheat straw

KW - Biology

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=85124874577&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/59ccb49c-666c-33e2-9870-2aa45e0d31e9/

U2 - 10.1007/s00374-022-01624-1

DO - 10.1007/s00374-022-01624-1

M3 - Journal articles

AN - SCOPUS:85124874577

VL - 58

SP - 375

EP - 388

JO - Biology and Fertility of Soils

JF - Biology and Fertility of Soils

SN - 0178-2762

IS - 4

ER -

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