Quantitative imaging of rhizosphere pH and CO2 dynamics with planar optodes | Zendy

Stephan Bloßfeld | Zendy; Christina Schreiber | Zendy; Gregor Liebsch | Zendy; A. J. Kuhn | Zendy; Philippe Hinsinger | Zendy

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Quantitative imaging of rhizosphere pH and CO2 dynamics with planar optodes

Author(s) -

Stephan Bloßfeld,

Christina Schreiber,

Gregor Liebsch,

A. J. Kuhn,

Philippe Hinsinger

Publication year - 2013

Publication title -

annals of botany

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.567

H-Index - 176

eISSN - 1095-8290

pISSN - 0305-7364

DOI - 10.1093/aob/mct047

Subject(s) - rhizosphere , biology , bulk soil , biogeochemical cycle , plant root , soil water , agronomy , botany , horticulture , ecology , bacteria , genetics

Live imaging methods have become extremely important for the exploration of biological processes. In particular, non-invasive measurement techniques are key to unravelling organism-environment interactions in close-to-natural set-ups, e.g. in the highly heterogeneous and difficult-to-probe environment of plant roots: the rhizosphere. pH and CO2 concentration are the main drivers of rhizosphere processes. Being able to monitor these parameters at high spatio-temporal resolution is of utmost importance for relevant interpretation of the underlying processes, especially in the complex environment of non-sterile plant-soil systems. This study introduces the application of easy-to-use planar optode systems in different set-ups to quantify plant root-soil interactions.

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