Toggle Main Menu Toggle Search

Open Access padlockePrints

Procedure to control hydraulic potential variation in soil microcosms

Lookup NU author(s): Dr Christoph Schmidt, Professor Carlo Leifert

Downloads

Full text for this publication is not currently held within this repository. Alternative links are provided below where available.


Abstract

In this study we designed and tested a methodology to minimize the variation of soil matric potential due to changes in soil water content, thus achieving a close control over the water regime in a microcosm, used to study the biocontrol of Pythium sp. infection of seeds by antagonistic bacteria. The variation of volumetric water content and matric potential were monitored at different depths during an average experimental period of 14 days in soil, contained in replicate 1 315 cm(3) microcosms, each sown with 16 sugar beet (Beta vulgaris) seeds and placed in a phytotron. Several experiments with target soil matric potentials of -10, -100 and -300 kPa were performed. It was found possible to maintain a matric potential of about -10 kPa in soil with minimum water content gradients between different parts of the microcosm by watering uniformly at each depth. With all appropriate watering and sampling procedure it was also possible to control psi(m) between -150 and -50 kPa, with a target value around -100 kPa; and to control psi(m) the range between -250 and -375 kPa for a target value of -300 kPa. In all experiments spatial and temporal variability of matric potential was larger at the top than in the Middle and in the bottom of microcosms. Variability in matric potential between replicate microcosms within each experiments was attributed to slight variation in packing, soil texture and drying rate, initial VWC.


Publication metadata

Author(s): Agostini F, Schmidt CS, Mullins CE, Leifert C

Publication type: Article

Publication status: Published

Journal: International Agrophysics

Year: 2009

Volume: 23

Issue: 3

Pages: 215-227

ISSN (print): 0236-8722

ISSN (electronic):

Publisher: Polish Academy of Sciences

URL: http://www.international-agrophysics.org/artykuly/international_agrophysics/IntAgr_2009_23_3_215.pdf


Share