Exploration of indigenous free nitrogen-fixing bacteria from rhizosphere of Vigna radiata for agricultural land treatment

Arfarita, Novi; Muhibuddin, Anton; Imai, Tsuyoshi

doi:10.15243/jdmlm.2019.062.1617

Cited by 12 publications

(12 citation statements)

References 11 publications

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“…Kuan et al (2016) noted that almost 80% of the N available to plants comes from the symbiotic group, including Rhizobium which infects plants to form nodules. Whereas the nonsymbiotic group consists of free-living microorganisms, such as, Bacillus, Azotobacter, Azospirillum, and Herbaspirillum (Arfarita et al, 2019), which contributes to approximately 5-10% of the biological N inputs into the soil N cycle (Son, 2001). In a two-year field study, Amirnia et al (2019) demonstrated that N 2 -fixing bacterial strain belonging to the genus of Azotobacter in combination with AMF (Glomus intraradices) enhanced soil fertility and plant growth under rainfed conditions, as application resulted in higher biomass yield, seed yield and seed protein of lentil (Lens culinaris Medik), thus the authors suggested that this bio-fertilizer has great potential in an arid and semi-arid area, in order to fulfill plant nitrogenous requirements and productivity under rainfed conditions.…”

Section: Nitrogen-fixing Bacteria and Phosphate Solubilizing Microorgmentioning

confidence: 99%

Will Phosphate Bio-Solubilization Stimulate Biological Nitrogen Fixation in Grain Legumes?

et al. 2021

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Biological nitrogen fixation (BNF) refers to a bacterially mediated process by which atmospheric N2 is reduced, either symbiotically or non-symbiotically, into ammonia (NH3) in the presence of the enzyme complex nitrogenase. In N2-fixing grain legumes, BNF is often hampered under low phosphorus (P) availability. The P status of legumes, particularly nodules, as well as P availability in the rhizosphere, play a vital role in regulating BNF. Aside from increasing P availability via fertilization, other plant traits (i.e., extensive rooting system and their spatial distribution, hyper-nodulation, root exudates, rhizosphere acidification, and heterogeneity) contribute to greater P uptake and hence more effective BNF. The positive interaction between P availability and BNF can be exploited through beneficial soil P solubilizing microorganisms (PSM). These microorganisms can increase plant-available P by modifying either rhizosphere soil processes or promoting plant traits, which lead to increased P uptake by the production of plant growth-promoting substances, both of which could indirectly influence the efficiency of BNF in legumes. In this review, we report on the importance of microbial P bio-solubilization as a pathway for improving BNF in grain legumes via PSM and P solubilizing bacteria (PSB). Because BNF in legumes is a P-requiring agro-ecological process, the ability of soil PSB to synergize with the rhizobial strains is likely a key belowground process worth investigating for advanced research aiming to improve rhizosphere biological functions necessary for sustainable legume-based cropping systems.

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Section: Nitrogen-fixing Bacteria and Phosphate Solubilizing Microorgmentioning

confidence: 99%

Will Phosphate Bio-Solubilization Stimulate Biological Nitrogen Fixation in Grain Legumes?

et al. 2021

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“…Dari penelitian tersebut didapat bakteri indigenus yang terdiri dari 3 bakteri tanah antara lain bakteri penambat N free Bacillus cereus, bakteri pelarut fosfat Pantoea ananatis dan bakteri penghasil EPS (eksopolisakarida) Pseudomonas plecoglossicida. Arfarita, et al, (2019) telah melakukan penelitian tentang eksploitasi bakteri pengikat nitrogen bebas dari rizosfer tanaman kacang hijau untuk pengolahan lahan pertanian.…”

Section: Pendahuluanunclassified

Pengaruh Aplikasi Pupuk Hayati VP3 bersama Kompos Dibandingkan Dengan Pupuk NPK Terhadap Produksi Tanaman Kacang Hijau (Vigna radiata L.) dan Viabilitas Bakteri Tanah

hidayah¹,

Murwani²,

Arfarita³

2020

FJIP

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Biofertilizer is a living microorganism that is useful for increasing soil fertility and the quality of production of a plant. Biofertilizer VP3 which has been formulated and developed in previous studies contains 3 soil bacteria, namely N free fixing bacteria, phosphate and bacterial solvents EPS producing bacteria (exopolysaccharide). VP3 biological fertilizer that is applied with compost can be used to degrade compost into humus (fine particles / colloids) which plays an important role for microorganisms, soil and plants with applications for a certain period. The design used was a randomized block design (RBD) with 8 treatments 3 replications. Provision of biofertilizers and NPK fertilizers affect the viability of soil bacteria. The treatment of VP3 biofertilizer with compost and combined with NPK fertilizer 25%, 50% and 75% had yields (number of pods and weight of dry seeds) green beans which were not significantly different or not significant, while biological fertilizer treatment with compost with NPK combination 25 % has the yield of green beans which is not significantly different from the treatment of biofertilizers and compost only. The treatment of VP3 biofertilizer with compost alone without a combination of NPK fertilizer is more economical for farmers. Keywords: biofertilizer, compost, green beans, viability bacteria, NPK fertilizer

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“…The used of vermiwash was expected not only to support the microbe viability but also serve as carrier material that is important in manufacturing the biofertiizer. In this study, the bacteria used as inoculants are indigenous bacteria from various place such as : Junrejo in Batu region and two site in Malang region which are Kendalpayak and Jambe Gede, namely : free Nitrogen (N) fixing bacteria (Bacillus licheniformis), soluble Phosphate (P) bacteria (Pantoea ananatis) and Exopolysaccharide (EPS) producing bacteria (Pseudomonas plecoglossicida) obtained from previous studies (Arfarita, Muhibuddin, & Imai, 2019). The information related with the compatibility of the carrier material with the respected microbes, the self life and their pathogenicity are still limited.…”

Section: Introductionmentioning

confidence: 99%

Utilization of Vermiwash for the Production of Liquid Biofertilizers and Its Effect on Viability of Inoculant Bacteria and Green Bean Germination

2020

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Exploration of indigenous free nitrogen-fixing bacteria from rhizosphere of Vigna radiata for agricultural land treatment

Cited by 12 publications

References 11 publications

Will Phosphate Bio-Solubilization Stimulate Biological Nitrogen Fixation in Grain Legumes?

Will Phosphate Bio-Solubilization Stimulate Biological Nitrogen Fixation in Grain Legumes?

Pengaruh Aplikasi Pupuk Hayati VP3 bersama Kompos Dibandingkan Dengan Pupuk NPK Terhadap Produksi Tanaman Kacang Hijau (Vigna radiata L.) dan Viabilitas Bakteri Tanah

Utilization of Vermiwash for the Production of Liquid Biofertilizers and Its Effect on Viability of Inoculant Bacteria and Green Bean Germination

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