PHYSIOLOGICAL-ACTIVITY OF A BIOLUMINESCENT PSEUDOMONAS-FLUORESCENS (STRAIN-2-79) IN THE RHIZOSPHERE OF MYCORRHIZAL AND NONMYCORRHIZAL PEPPER (CAPSICUM-ANNUUM-L)
P. Marschner et De. Crowley, PHYSIOLOGICAL-ACTIVITY OF A BIOLUMINESCENT PSEUDOMONAS-FLUORESCENS (STRAIN-2-79) IN THE RHIZOSPHERE OF MYCORRHIZAL AND NONMYCORRHIZAL PEPPER (CAPSICUM-ANNUUM-L), Soil biology & biochemistry, 28(7), 1996, pp. 869-876
Physiological status and root-colonization of Pseudomonas fluorescens
2-79RL were examined in presence or absence of mycorrhizae on the root
s of pepper over 6 weeks. Due to incorporation of a ribosomal promoter
-driven lux marker into the chromosome of this bacterium, the end of t
he lag phase and onset of exponential growth is marked by an exponenti
al increase in bioluminescence. In vitro, the duration of the lag phas
e of bioluminescence after transfer of cells to rich medium increased
when the cells had been grown under low nutrient conditions or subject
ed to prolonged starvation. Lag phase duration thus provided a marker
for assessment of changes in the physiological status of P. fluorescen
s 2-79RL. Pepper plants, non-mycorrhizal or mycorrhizal with Glomus in
traradices (GI) or Glomus deserticulum (GD), were grown for 42 days in
microcosms containing soil inoculated with P. flurorescens 2-79RL. A
blotting technique using filter paper strips was developed to sample c
ells from the rhizosphere, after which the cells were resuspended for
enumeration and determination of lag phase duration. During the first
3 weeks, the population density of P. fluorescens 2-79RL (cfu mm(-2))
decreased by one order of magnitude on the roots and by two orders of
magnitude in the bulk soil. The lag phase of bioluminescence remained
stable during the first 20 days in the rhizosphere and the bulk soil,
but then increased up to day 27 and remained at the higher level until
day 38. The length of the lag phase was greater in the bulk soil than
in the rhizosphere. Compared with the non-mycorrhizal plants, mycorrh
izal infection by GD significantly decreased shoot dry weight and the
population of P. fluorescens 2-79RL in the rhizosphere at the root tip
and on the older root parts. GD also significantly increased the leng
th of the lag phase of bioluminescence on the older root parts. The ef
fect of GI was less pronounced. The results show this bacterium may be
subject to moderate to severe starvation in the rhizosphere and that
there are differential effects of specific mycorrhizal fungi on both t
he population and activity of this root-colonizing pseudomonad. Copyri
ght (C) 1996 Elsevier Science Ltd.