增益植物健康之多功能蘇力菌研究

65

173-181.

3. Arkhipova, T. N., Veselov, S. U., Melentiev,

A. I., Martynenko, E. V., and Kudoyarova,

G. R. 2005. Ability of bacterium

Bacillus

subtilis

to produce cytokinins and to in-

fluence the growth and endogenous hor-

mone content of lettuce plants. Plant Soil

272: 201-209.

4. Arora, N., Ahmad, T., Rajagopal, R., and

Bhatnagar, R. K. 2003. A constitutively

expressed 36 kDa exochitinase from

Bacil-

lus thuringiensis

HD1. Biochem. Biophys.

Res. Commun. 307: 620-625.

5. Barriuso, J., Ramos, S. B., and Gutier-

rez Manero, F. J. 2008. Protection against

pathogen and salt stress by four plant

growth-promoting rhizobacteria isolated

from

Pinus

sp. On

Arabidopsis thaliana

.

Phytopathology 98: 666-672.

6. Castro, A., Stulen, I., Posthumus, F. S., and

De Kok, L. J. 2006. Changes in growth and

nutrient uptake in

Brassica oleracea

ex-

posed to atmospheric ammonia. Ann. Bot.

97: 121-131.

7. Castro-Sowinski, S., Herschkovitz, Y.,

Okon, Y., and Jurkevitch, Y. 2007. Effects

of inoculation with plant growth-promot-

ing rhizobacteria on resident rhizosphere

microorganisms. FEMS Microbiol. Lett.

276: 1-11.

8. Chen, X. H., Koumoutsi, A., Scholz, R.,

Schneider, K., Vater, J., Siissmuth, R., Piel,

J., and Borriss, R. J. 2009. Genome analy-

sis of

Bacillus amyloliquefaciens

FZB42

reveals its potential for biocontrol of plant

pathogens. J. Biotechnol. 140: 27-37.

9. Dobbelaere, S., Croonenborghs, A., Thys,

A., Broek, A. V., and Vanderleyden, J.

1999. Phytostimulatory effect of

Azospi-

rillum brasilense

wild type and mutant

strains altered in IAA production on

wheat. Plant Soil 212: 155-164.

10. Geddie, J. L., and Sutherland, I. W. 1993.

Uptake of metals by bacterial polysaccha-

rides. J. Appl. Bacteriol. 74: 467-472.

11. Glick, B. R. 1995. The enhancement of

plant growth by free-living bacteria. Can. J.

Microbiol. 41: 109-117.

12. Glick, B. R., and Bashan, Y. 1997. Genetic

manupulation of plant growth-promoting

bacteria to enhance biocontrol of phy-

topahogens. Biotechnol. Adv. 15: 353-378.

13. Glick, B. R., Liu, C., Ghosh, S., and

Dumbrof, E. B. 1997. Early development

of canola seedlings in the presence of the

plant growth-promoting rhizobacterium

Pseudomonas putida

GR12-2. Soil Biol.

Biochem. 29: 1233-1239.

14. Gordon, S. A., and Weber, R. P. 1951. Col-

orimetric estimation of indoleacetic acids.

Plant Physiol. 26: 192-195.

15. Han, H. S., and Lee, K. D. 2005. Plant

growth promoting rhizobacteria effect on

antioxidant status, photosynthesis, min-