The potential of exopolysaccharide-producing bacteria from rhizosphere of rubber plants for improving soil aggregate

This study aimed to examine the effect of bacteria found in the rhizosphere of rubber plants in producing exopolysaccharides to improve aggregate stability of sandy soils. Samples of soil have been taken in rhizosphere of rubber plants in West Kalimantan. Serial soil samples were diluted and culture...

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Bibliographic Details
Published inJournal of Degraded and Mining Lands Management Vol. 5; no. 3; pp. 1275 - 1281
Main Authors Harahap, Nasrul, Santosa, Dwi Andreas, Gofar, Nuni
Format Journal Article
LanguageEnglish
Published Malang Universitas Brawijaya 01.04.2018
University of Brawijaya
Subjects
Bacteria
Burkholderia
Carbon sources
Colonies
Dilution
Exopolysaccharides
exopolysaccharides,Sandy soil, rubber, bacteria,soil aggregate
Klebsiella
Molecular chains
Morphology
Mucus
Organic matter
Organic soils
Rhizosphere
Rubber
Sandy soils
Scanning electron microscopy
Soil bacteria
Soil improvement
Soil microorganisms
Soil stability
Soil treatment
Sucrose
Sugar
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Summary:This study aimed to examine the effect of bacteria found in the rhizosphere of rubber plants in producing exopolysaccharides to improve aggregate stability of sandy soils. Samples of soil have been taken in rhizosphere of rubber plants in West Kalimantan. Serial soil samples were diluted and cultured on ATCC no.14 medium to select potential bacteria to produce exopolysaccharides. Forty-five isolates of exopolysaccharide-producing bacteria isolated from the rhizosphere of rubber plants was inoculated on ATCC no.14 medium. Based on the observations of morphological colony of these isolates, most of them had similarities in colour and shape so that only ten different isolates were obtained based on the morphological colony. Ten isolates were re-grown on MacConcey medium. Three isolates formed thick or slimy mucus when cultured on MacConcey medium. Three isolates grown on the medium of ATCC 14 resulted in dry weight of exopolysaccharide (mg/mL) varying from 0.28 to 7.59 mg/mL with sucrose and glucose as carbon sources. The results of the molecular identification of the three isolates of Klebsiella sp. LW-13, Klebsiella pneumoniae strain DSM 30104 and Burkholderia anthina strain MYSP113 showed that Klebsiella sp. LW-13 and Burkholderia anthina strain MYSP113 with 2% organic matter increased soil aggregate stability from highly unstable (30.67%) to unstable (45.01-48.20%). This aligned with the results by scanning electron microscopy (SEM) on treated soil and without bacteria treatments.
ISSN:2339-076X
2502-2458
DOI:10.15243/jdmlm.2018.053.1275