420 I Ketut Widnyana and Cokorda Ja

420 I Ketut Widnyana and Cokorda Javandira / Agriculture and Agricultural Science Procedia 9 ( 2016 ) 419 – 423
directly as biological fertilizer and stimulants biologically by producing hormones to grow crops such as IAA
(indole acetic acid), gibberellin, cytokine, ethylene, dissolving minerals, and indirectly also prevents pathogenic
microorganisms through formation of siderophore and an antibiotic ( McMilan, 2007 ; Sarma et al., 2009).
Rhizobacteria Group of Pseudomonas (P. fluorescens, P. putida, and P. aeruginosa) is known to be beneficial to
plants. Some strains have long been known as a biological control agent (Xu and Gross, 1986; Weller, 1988). The
bacteria are also known as plant growth promoting rhizobacteria (PGPR), either directly or as a result of its ability to
control the disease (Weller and Cook, 1986; Van Peer and Schippers, 1988). An explanation of some strains of
Pseudomonas spp. associated with the plant, which can encourage the growth of plants or suppress plant diseases
continues to grow, and knowledge of the mechanisms involved continue to increase.
Rhizobacteria of the group Bacillus sp. which is one group of gram-positive bacteria are often used as a
biological control root diseases. Members of this genus have an advantage, because the bacteria form spores that are
easily stored, have long life durability, and relatively easily inoculated into the ground. The Bacillus bacteria Strain
PRBS-1 and strain AP-3 have inhibited five soybean seed pathogenic fungi in vitro, Rhizoctonia solani,
Colletotrichum truncatum, Sclerotinia sclerotiorum, Macrophomina phaseolina and Phomopsis sp. The results have
shown the potential of using selected strains of B. subtilis in the biological control of seed pathogens, as well as in
promoting soybean growth. (Araújo et al., 2005).
Tenuta (2004) says PGPR mechanisms to improve plant health can occur through three ways, namely: a)
Decrease development of pest/disease (bioprotectant): has a direct influence on the plant in the face of pests and
diseases, b) Producing phytohormones (biostimulant): IAA (Indole Acetic Acid); cytokines; gibberellins; and
inhibiting ethylene production: to increase the surface area of fine roots, c) Increasing the availability of nutrients for
plants (biofertilizer). Meanwhile, according to McMilan (2007), several roles PGPR in spurring the growth of the
plants: (a) increase nitrogen fixation in legumes, (b) increase the population of bacteria nitrogen- other, (c) increase
the supply of other nutrients, such as phosphorus, sulfur, iron and copper, (d) production of hormones, (e) increase
the population of beneficial fungi or bacteria, (f) controlling fungal pathogens, (g) controlling pathogens because
bacteria, and (h) controlling insect pests.
Rhizobacteria Pseudomonas spp. has a positive effect by occupying the plant root tissue surface and provides
compounds that are beneficial to plants. Some of these bacteria enter further into the network and into endophyte
without causing damage or morphological changes in plants (Rosenblueth and Martinez-Romero, 2006). Population
density of endophytic bacteria on the roots of a healthy garden higher than the hospital garden. The test results of the
germination endophytic bacteria showed that as many as five isolates of endophytic bacteria that EB4, EB7, EB10,
EB12, EB14 and has the ability to accelerate germination and stimulate root growth of tomato plants. Endophytic
bacteria on the roots of corn plants capable of accelerating the growth of corn sprouts for two weeks of planting.
This study was conducted to obtain information on the speed of germination of the seeds of tomatoes after
immersion in suspense Pseudomonas sp., Bacillus sp. and both bacteria mixture with a population density of
different bacteria and different soaking time. Results of previous studies show that both the bacterial isolates are
compatible with each other.