Rhizosphere Effect of Kharif Crops on Phosphatases and Dehydrogenase Activities in a Typic Haplustert

Dotaniya, M. L.; Kushwah, SS; Rajendiran, S.; Coumar, M. Vassanda; Kundu, S.; Rao, A. Subba

doi:10.1007/s40009-013-0205-4

Cited by 26 publications

(7 citation statements)

References 10 publications

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“…Apparently, rhizosphere phosphatase and dehydrogenase activity tends to be higher because of increased microbial numbers in the rhizosphere and the excretion of plant root enzymes. These enzyme activities associated with higher availability and uptake of nutrients, particularly phosphorus in plants (Šarapatka, 2002 andDotaniya et al, 2014).These results are in the same line with previous studies confirming a positive impact of rhizobia with PGPR and AM-fungi activities on soil quality by increasing the activity of soil enzymes (Prasad et al, 2012;Othman andTamimi 2016& Mouradi et al, 2018).…”

Section: Dehydrogenase and Phosphatase Activitiessupporting

confidence: 87%

Response of Rhizobium-Faba Bean Symbiosis System to Rhizobacterial Inoculation and Arbuscular Mycorrhizal Fungi under Graded Levels of Natural Rock Phosphate in Sandy Soil

Abdel-Gawad¹,

Enin

2019

Journal of Soil Sciences and Agricultural Engineering

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Two field trials were conducted during two winter growing seasons of 2016/2017 and 2017/2018, using drip irrigation system. The target of this study was to evaluate the response of Rhizobium-faba bean symbiosis system to rhizobacterial inoculation (Serratia marcescens and Bacillus megaterium) and AM-fungi under graded levels of natural rock phosphate (15,30 and 45 kg P 2 O 5 /fed).The experimental design was arranged in a completely randomized block design with four replicates. The number and dry weight of nodules, N 2-ase activity, plant height, dry weight of shoot and their contents of N, P and K ,the number of pods plant-1 and the number of seeds pod-1 as well as 100-seed weight, the biological yield, seed yield and seed crude protein percentage were evaluated. The study was also concerned with the impacts of such microbial inocula and rock phosphate on dehydrogenase and phosphatase activities in soil rhizosphere. The obtained results elicited that the uninoculated plants were poorly nodulated. While, inoculating faba bean seeds with efficient Rhizobium exerted great improvement in nodulation status and N 2-ase activity. The microbiological properties of rhizosphere soil, which expressed by dehydrogenase enzyme activity and the activity of phosphatases displayed higher response to applied biofertilizers. In fact, the splendid effect was observed with the use of inoculation approach (mixture of Rhizobium, Serratia, Bacillus and AM-fungi), which caused promotive impression in nodulation, the activity of rhizosphere soil enzymes, plant growth aspects and all faba bean yield charactersin relative to other combinations or plants inoculated with Rhizobium only. Irrespective of inoculation, there is an increase in nodulation status, all vegetative growth characters, the activity of rhizosphere soil enzymes and faba bean yield with increasing natural rock-phosphate rate from 60 to 180 kg/fed(15 to 45 kg P 2 O 5 /fed).Hence, data confirmed the superiority of treatment comprising (Rhizobium conjugated mixture of PGPR's and AM-fungi)in combination with 30 or 45 kg P 2 O 5 /fed, which surpassed the other tested combinations and caused a significant augmentation in all studied faba bean parameters. While, inoculation with Rhizobium combined with PGPRs or AM-fungi and fertilized with 45 kg P 2 O 5 /fed came in the second rank. Obtained findings displayed a considerable evidence that inoculation of faba bean seeds with Rhizobium combined with a mixture of rhizobacteria may revealing a good practice for improving faba bean growth and yield characters and leading to healthier food, particularly when this practice supported by effective AM-fungi and natural rock phosphate (30 kg P 2 O 5 /fed).

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Section: Dehydrogenase and Phosphatase Activitiessupporting

confidence: 87%

Response of Rhizobium-Faba Bean Symbiosis System to Rhizobacterial Inoculation and Arbuscular Mycorrhizal Fungi under Graded Levels of Natural Rock Phosphate in Sandy Soil

Abdel-Gawad¹,

Enin

2019

Journal of Soil Sciences and Agricultural Engineering

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“…The research findings confirmed with Dotaniya et al, (2014) observed that different crop growth stages showed different amount of dehydrogenase activity in soil, it might be due to secretion of root exudates and biochemical changes in plant system. More microbial activities increased the Dehydrogenase enzymatic activity in the rhizosphere, due to more availability of food materials for its growth.…”

Section: Dehydrogenasesupporting

confidence: 85%

“…The results supported by the findings of Naseby et al, (2000) stated that the acid phosphatase activity was more dependent upon the nutritional status of the plant. Dotaniya et al, (2014) confirmed that different crop growth stages showed different amount of acid phosphatase activity, it might be due to secretion of root exudates and biochemical changes in plant system. Similar findings confirmed by Kaleeswari (2007).…”

Section: Acid Phosphatasementioning

confidence: 62%

Influence of Ammonium Molybdate on Enzymatic Activity and Nodulation in Pigeonpea Grown on Vertisol

Waikar¹,

Sallawar²

2021

Int.J.Curr.Microbiol.App.Sci

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“…The potential activity of β-glucosidase in studied arable field showed significant seasonal changes patterns and was significantly higher in April than in August in both study years. Seasonal variation of enzymatic activity could be associated with the different stages of plant growth (Dotaniya et al 2014). In our study, increased BG activity was observed during the intensive growth of winter wheat (April 2007) and winter rape (April 2008).…”

Section: Discussionsupporting

confidence: 50%

Spatio-Temporal Variability of Soil Beta-glucosidase Activity at the Arable Field Scale

Piotrowska-Długosz

Długosz

2017

pjss

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12 Abstract. Knowledge about the spatio-temporal variability of soil enzymatic properties is crucial in evaluating their structure-function relationship and their impact on ecosystem functions. The aim of this study was to assess the spatio-temporal variability of soil β-glucosidase (BG) activity against selected physico-chemical properties at the arable field scale. A grid soil sampling (10×10 m) was used to measure the spatial variation of soil properties across a 0.4-ha field. The BG activity was analyzed in soil samples that were collected from the upper 20 cm of Luvisols at 50 locations in April and August 2007 and 2008. Additionally, total organic carbon (C ORG ), total nitrogen (N TOT ) concentrations, soil pH KCl as well as texture and water content were determined. The dataset was analyzed using classical statistical and geostatistical methods. Based on the analysis of variance, it was found that the BG activity, C ORG , and water content showed significant differences between the four sampling dates. The BG activity showed a high contribution of nugget effect in sill (over 50%) and revealed a moderate spatial structure. The range of spatial autocorrelation calculated for the BG activity was between 15.0 and 61.0 m. Less intensive sampling grid should be recommended for soil BG activity in further studies concerning spatial variability in arable field scale. In turn, more frequent sampling must be included in the sampling strategy in order to better understand whether the BG activity always shows permanent spatial patterns in soil or whether it is more randomized.

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Rhizosphere Effect of Kharif Crops on Phosphatases and Dehydrogenase Activities in a Typic Haplustert

Cited by 26 publications

References 10 publications

Response of Rhizobium-Faba Bean Symbiosis System to Rhizobacterial Inoculation and Arbuscular Mycorrhizal Fungi under Graded Levels of Natural Rock Phosphate in Sandy Soil

Response of Rhizobium-Faba Bean Symbiosis System to Rhizobacterial Inoculation and Arbuscular Mycorrhizal Fungi under Graded Levels of Natural Rock Phosphate in Sandy Soil

Influence of Ammonium Molybdate on Enzymatic Activity and Nodulation in Pigeonpea Grown on Vertisol

Spatio-Temporal Variability of Soil Beta-glucosidase Activity at the Arable Field Scale

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