Physiotyping of Plants and Modeling the Soil Plant Atmospheric Continuum (SPAC)

Gert Bachmann; Franz Hadacek

doi:10.1007/978-1-0716-3778-4_4

Physiotyping of Plants and Modeling the Soil Plant Atmospheric Continuum (SPAC)

Gert Bachmann (Korresp. Autor*in)
, Franz Hadacek

Department für Funktionelle und Evolutionäre Ökologie

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

This chapter presents a holistic and quantitative approach to the carbon cycle in plant systems biology. It includes (rapid) phenotyping and monitoring of physiological key interactions of plants with its respective soil and atmospheric environment (soil plant atmospheric continuum-SPAC). The approach aims at qualifying and quantifying key components of this microhabitat as influenced by a single plant or a local group of plants in order to contribute to a flux-based modelling approach. The toolset consists of plant biometry, gas exchange, metabolomics, ionomics, root exudate characterization as well as soil biological and physical-chemical characterization. The results are presented as a basic interaction and input-output model aka conceptual system model employing H. T. Odum-style plots based on empirical data.

Originalsprache	Englisch
Seiten (von - bis)	69-80
Seitenumfang	12
Fachzeitschrift	Methods in Molecular Biology
Jahrgang	2787
DOIs	https://doi.org/10.1007/978-1-0716-3778-4_4
Publikationsstatus	Veröffentlicht - 2024

Fördermittel

This work was supported by the Austrian Science Foundation (FWF) and the University of Vienna. We would like to thank Prof. Wolfram Weckwerth (University of Vienna) for supporting the setup of the \u201CPhyto-Qi\u201D plant and soil physiology laboratory and the \u201CGenesis\u201D electrochemistry laboratory

ÖFOS 2012

106031 Pflanzenphysiologie

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10.1007/978-1-0716-3778-4_4

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title = "Physiotyping of Plants and Modeling the Soil Plant Atmospheric Continuum (SPAC)",

abstract = "This chapter presents a holistic and quantitative approach to the carbon cycle in plant systems biology. It includes (rapid) phenotyping and monitoring of physiological key interactions of plants with its respective soil and atmospheric environment (soil plant atmospheric continuum-SPAC). The approach aims at qualifying and quantifying key components of this microhabitat as influenced by a single plant or a local group of plants in order to contribute to a flux-based modelling approach. The toolset consists of plant biometry, gas exchange, metabolomics, ionomics, root exudate characterization as well as soil biological and physical-chemical characterization. The results are presented as a basic interaction and input-output model aka conceptual system model employing H. T. Odum-style plots based on empirical data.",

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author = "Gert Bachmann and Franz Hadacek",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature 2024.",

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doi = "10.1007/978-1-0716-3778-4\_4",

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AU - Bachmann, Gert

AU - Hadacek, Franz

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature 2024.

PY - 2024

Y1 - 2024

N2 - This chapter presents a holistic and quantitative approach to the carbon cycle in plant systems biology. It includes (rapid) phenotyping and monitoring of physiological key interactions of plants with its respective soil and atmospheric environment (soil plant atmospheric continuum-SPAC). The approach aims at qualifying and quantifying key components of this microhabitat as influenced by a single plant or a local group of plants in order to contribute to a flux-based modelling approach. The toolset consists of plant biometry, gas exchange, metabolomics, ionomics, root exudate characterization as well as soil biological and physical-chemical characterization. The results are presented as a basic interaction and input-output model aka conceptual system model employing H. T. Odum-style plots based on empirical data.

AB - This chapter presents a holistic and quantitative approach to the carbon cycle in plant systems biology. It includes (rapid) phenotyping and monitoring of physiological key interactions of plants with its respective soil and atmospheric environment (soil plant atmospheric continuum-SPAC). The approach aims at qualifying and quantifying key components of this microhabitat as influenced by a single plant or a local group of plants in order to contribute to a flux-based modelling approach. The toolset consists of plant biometry, gas exchange, metabolomics, ionomics, root exudate characterization as well as soil biological and physical-chemical characterization. The results are presented as a basic interaction and input-output model aka conceptual system model employing H. T. Odum-style plots based on empirical data.

KW - Soil/chemistry

KW - Plants/metabolism

KW - Atmosphere/chemistry

KW - Phenotype

KW - Models, Biological

KW - Carbon Cycle

KW - Metabolomics/methods

KW - Plant Roots/metabolism

KW - Ecosystem

KW - Physiotypes

KW - Carbon cycle

KW - Odum plots

KW - Systems biology

KW - Phenotyping

KW - Root exudate

KW - SPAC

UR - https://www.scopus.com/pages/publications/85191390998

U2 - 10.1007/978-1-0716-3778-4_4

DO - 10.1007/978-1-0716-3778-4_4

M3 - Article

C2 - 38656482

SN - 1064-3745

VL - 2787

SP - 69

EP - 80

JO - Methods in Molecular Biology

JF - Methods in Molecular Biology

ER -

Physiotyping of Plants and Modeling the Soil Plant Atmospheric Continuum (SPAC)

Abstract

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ÖFOS 2012

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