Water stress effects on toluene biodegradation by Pseudomonas putida
Authors: Holden P.A.1; Halverson L.J.1; Firestone M.K.1
Source: Biodegradation, Volume 8, Number 3, 1997 , pp. 143-151(9)
Publisher: Springer
- Free Content
- New Content
- Subscribed Content
- Free Trial Content
Abstract:
We quantified the effects of matric and solute water potential on toluene biodegradation by Pseudomonas putida mt-2, a bacterial strain originally isolated from soil. Across the matric potential range of 0 to – 1.5 MPa, growth rates were maximal for P. putida at – 0.25 MPa and further reductions in the matric potential resulted in concomitant reductions in growth rates. Growth rates were constant over the solute potential range 0 to – 1.0 MPa and lower at – 1.5 MPa. First order toluene depletion rate coefficients were highest at 0.0 MPa as compared to other matric water potentials down to – 1.5 MPa. Solute potentials down to – 1.5 MPa did not affect first order toluene depletion rate coefficients. Total yield (protein) and carbon utilization efficiency were not affected by water potential, indicating that water potentials common to temperate soils were not sufficiently stressful to change cellular energy requirements. We conclude that for P. putida: (1) slightly negative matric potentials facilitate faster growth rates on toluene but more negative water potentials result in slower growth, (2) toluene utilization rate per cell mass is highest without matric water stress and is unaffected by solute potential, (3) growth efficiency did not differ across the range of matric water potentials 0.0 to – 1.5 MPa.
Keywords: matric potential; Pseudomonas putida; toluene; water potential; water stress
Language: English
Document Type: Regular paper
Affiliations: 1: Department of Environmental Science, Policy & Management, Ecosystem Sciences Division, University of California, Berkeley, California 94720, U.S.A.
- Free Content
- New Content
- Subscribed Content
- Free Trial Content
Click here for Page Help