Studies on the Rhizosphere Microflora of Citrus Trees: I. Quantitative Incidence of Microorganisms in Relation to Root and Shoot Growth

Rangaswami, G.; Vasantharajan, V. N.

doi:10.1139/m62-061

Cited by 9 publications

(5 citation statements)

References 4 publications

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“…APPLIED [1,23]. Only a limited number of reports exist on the rhizosphere effect in long duration plants or trees [6,7,11,14,18,24]. The present study was carried out to examine the rhizosphere effect in ten ecologically as well as economically important trees of the Kumaun region of Indian Central Himalaya, covering an altitudinal range from 1200 m to 3610 m amsl (above mean sea level), representing subtropical, temperate and subalpine zones.…”

Section: Introductionmentioning

confidence: 99%

The Rhizosphere Effect in Trees of the Indian Central Himalaya With Special Reference to Altitude

Pandey¹,

Pant²,

Bhavan³

2007

Appl Ecol Env Res

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Abstract. The present paper deals with the rhizosphere effect exerted on the microbial communities by ten representative and important tree species of the Indian Himalayan region. The study covered a wide altitudinal range (1200 to 3610 m above mean sea level) representing subtropical to subalpine climatic conditions. The rhizosphere to soil (R:S) ratio was found to range from 0.2 to 3.5, 0.3 to 2.9, and 0.3 to 3.4, for bacteria, actinomycetes and fungi, respectively. Barring a few exceptions, generally the tree species of subtropical and temperate regions exerted a slight stimulatory effect on the rhizosphere microorganisms. Coniferous species of the subtropical and temperate locations viz., Cedrus, Pinus and Taxus supported relatively higher microbial population in the rhizosphere in comparison to other species. Abies pindrow (a conifer), Betula utilis, and Rhododendron campanulatum, species of the subalpine region were found to exert a distinct negative rhizosphere effect. The negative rhizosphere effect coincided with lowering of the soil pH in the rhizosphere region.

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Section: Introductionmentioning

confidence: 99%

The Rhizosphere Effect in Trees of the Indian Central Himalaya With Special Reference to Altitude

Pandey¹,

Pant²,

Bhavan³

2007

Appl Ecol Env Res

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“…However, sulfur-oxidizing bacteria were absent in citrus rhizosphere (Rangaswami and Vasantharajan 1962b ) . There was no signi fi cant difference of rhizosphere microorganisms among the three Citrus species, though the fungal population in the rhizosphere of the citrus variety Pummelo was slightly higher than that in the other two varieties (Rangaswami and Vasantharajan 1962a ) . Additionally, aspergilli, penicillia, and gram-negative non-sporing rods were higher in rhizospheres than in soil, and Mucor, Rhizopus, gram-positive rods, cocci, and sporeformers less (Rangaswami and Vasantharajan 1962b, c ) .…”

Section: Rhizosphere Microbial Populationmentioning

confidence: 82%

“…Compared with the non-root soil, the bacteria, fungi, and actinomyces quantities of the citrus rhizospheres were 67.6, 12.4, and 26.9 times. However, another study conducted by Rangaswami and Vasantharajan ( 1962a ) showed that the fungi number was 3-6 times in the rhizospheres of the three 6-year-old citrus species in the Annamalai University Experimental Orchard than in soils, actinomycetes 2-6 times, and bacteria 40-90 times. However, sulfur-oxidizing bacteria were absent in citrus rhizosphere (Rangaswami and Vasantharajan 1962b ) .…”

Section: Rhizosphere Microbial Populationmentioning

confidence: 89%

Rhizosphere Microbial Communities: Isolation, Characterization, and Value Addition for Substrate Development

Srivastava

2012

Advances in Citrus Nutrition

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Rhizosphere, the soil region nearest to plant root system, inhabits various microorganisms varying in their community structure and diversity, still remains largely unexploited despite so much of breakthroughs in isolation and characterization, but lacks in addressing citrus speci fi c rhizosphere properties. Exploiting microbial synergisms is one of the popular methods of substrate dynamics and associated changes in nutrient environment of rhizosphere. Soil microbial biomass dominates fungal mycelium accumulates and retains mineral nutrients, immobilizing as much as ~20% of the total soil N and P. The extraradical mycorrhizal mycelial (attains as much as 3% of root weight) networks are recognized as the hidden nutrient/ water-absorbing interfaces (glomalin, a soil-based glycoprotein secreted by AMF as a major seat of activity) in addition to safeguarding citrus against a number of other biotic and abiotic stresses. The microbial diversity existing within top 0-20-cm citrus rhizosphere soil was characterized and isolated by the promising microbes, namely, Bacillus polymyxa , Azoto bacter chroococcum , Bacillus mycoides , Pseudomonas fl uorescens , and Trichoderma harzianum . Pure culture of these microbes in value-added form ( Bacillus polymyxa 33-44 × 10 6 -10 7 cfu mL −1

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“…C. grandis Osbeck (Pummelo), C. sinensis Osbeck (Sathgudi), and C. reticulata Blanco (Mandarin) a s well as control soil were collected as detailed in an earlier paper (12). Two types of roots, viz.…”

Section: Methodsmentioning

confidence: 99%

“…However, studies with larger plants, especially orchard trees, are laclting. I n a previous paper (12) the authors reported on the quantitative incidence of microorganisms in the rhizosphere of three species of Citrus and their relation to root and shoot growths. T h e relative incidences of different morphological, physiological, and nutritional groups of bacteria in the rhizosphere are presented in this paper.…”

Section: Introductionmentioning

confidence: 99%

Studies on the Rhizosphere Microflora of Citrus Trees: Ii. Qualitative Distribution of the Bacterial Flora

Rangaswami¹,

Vasantharajan²

1962

Can. J. Microbiol.

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Studies were made on the relative incidence of various morphological, physiological, and nutritional groups of bacteria in the rhizosphere regions of growing and non-growing roots of three species of Citrus as compared to those in the soil. Gram-negative non-sporing rods were more abundant in the rhizospheres of both growing and non-growing roots than in the soil, whereas Gram-positive rods, cocci, and sporefor~ners were more numerous in the soil than in the rhizospheres. Nitrate reducers, gelatin liquefiers, starch hydrolyzers, and methylene blue reducers occurred in greater numbers in the rhizospheres than in soil. Growing roots seemed t o stimulate preferentially nitrate reducers and gelatin liquefiers, whereas cellulose decomposers and pectin reducers were in higher proportions in non-growing roots than in the growing roots as well as in soil. There was no signihcant difference between populations of azotobacter occurring in the rhizospheres and soil, but sulphur-oxidizing bacteria were absent in the rhizospheres of both growing and non-growing roots. Bacteria that require amino acids for growth were more abundant in the rhizosphere of growing than non-growing roots, whereas those requiring growth factors in yeast extract and soil extract were less abundant in the growing roots than in soil. The numbers associated with non-growing roots appeared t o be intermediate between the growing roots and soil.LManuscript

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Studies on the Rhizosphere Microflora of Citrus Trees: I. Quantitative Incidence of Microorganisms in Relation to Root and Shoot Growth

Cited by 9 publications

References 4 publications

The Rhizosphere Effect in Trees of the Indian Central Himalaya With Special Reference to Altitude

The Rhizosphere Effect in Trees of the Indian Central Himalaya With Special Reference to Altitude

Rhizosphere Microbial Communities: Isolation, Characterization, and Value Addition for Substrate Development

Studies on the Rhizosphere Microflora of Citrus Trees: Ii. Qualitative Distribution of the Bacterial Flora

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