Physiology and microbial community structure in soil at extreme water content

Uhlirova, E.. Ustav Pudni BiologieE-mail:uhlirova@bf.jcu.cz; Elhottova, D.. Ustav Pudni Biologie; Triska, J.. Ustav Krajinne Ekologie; Santruckova, H.. Ustav Pudni Biologie

Physiology and microbial community structure in soil at extreme water content

Uhlirova, E.(Akademie Ved, Ceske Budejovice (Czech Republic). Ustav Pudni Biologie)E-mail:[email protected] | Elhottova, D.(Akademie Ved, Ceske Budejovice (Czech Republic). Ustav Pudni Biologie) | Triska, J.(Akademie Ved, Ceske Budejovice (Czech Republic). Ustav Krajinne Ekologie) | Santruckova, H.(Akademie Ved, Ceske Budejovice (Czech Republic). Ustav Pudni Biologie)

A sandy loam soil was brought to 6 water contents (13-100% WHC) to study the effects of extreme soil moistures on the physiological status of microbiota (represented by biomass characteristics, specific respiration, bacterial growth, and phospholipid fatty acids (PLFA) as stress indicators) as well as microbial community structure (assessed using PLFA fingerprints). In dry soils, microbial biomass and activity declined as a consequence of water and/or nutrient deficiency (indicated by PLFA). These microbial communities were dominated by G+ bacteria and actinomycetes. Oxygen deficits in water-saturated soils did not eliminate microbial activity but the enormous accumulation of poly-3-hydroxybutyrate by bacteria showed the unbalanced growth in excess carbon conditions. High soil water content favored G- bacteria.

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Mots clés AGROVOC

acide gras actinomycetales agua del suelo anaerobiose anaerobiosis anoxia anoxie azote bacteria gram negativa bacteria gram positiva biomasa biomass biomasse carbon carbone carbono champignon contenido de agua en el suelo crecimiento croissance cyanobacteria drought eau du sol environmental factors facteur du milieu factores ambientales fatty acids fungi gas exchange growth hongos humedad humidity intercambio de gases loam soils microorganismos del suelo nitrogen phosphatide phospholipids privation d'eau respiration sandy soils soil chemicophysical properties soil microorganisms soil water soil water content soil water deficit sol sableux sol sablolimoneux suelo arenoso suelo franco teneur en eau du sol thymidine timidina water deprivation water holding capacity

Informations bibliographiques

Publié dans

Folia Microbiologica (Czech Republic)

Volume 50 Numéro 2 ISSN 0015-5632

Pagination

pp. 161-166

D'autres materias

Respiracion; Deficit hydrique du sol; Propiedades fisico-quimicas suelo; Humidite; Gram positive bacteria; Gram negative bacteria; Propriete physicochimique du sol; Capacidad de retencion de agua; Echange gazeux; Microorganisme du sol; Privacion del agua; Bacterie gram negatif; Deficit de humedad en el suelo; Nitrogeno; Bacterie gram positif; Sequia; Fosfolipidos; Capacite de retention d'eau; Secheresse; Acidos grasos

Langue

anglais

Note

Summary (En)

3 tables

50 ref.

Type

Summary

Sur AGRIS depuis: 2005-05-15

Format: AGRIS AP

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Cette notice bibliographique a été fournie par Library of Antonin Svehla

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Liens

http://www.cssm.info/priloha/fm2005_161.pdf http://www.biomed.cas.cz/mbu/folia/

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Physiology and microbial community structure in soil at extreme water content

Mots clés AGROVOC

Informations bibliographiques