Boosting Alfalfa (Medicago sativa L.) Production With Rhizobacteria From Various Plants in Saudi Arabia

Daur, İhsanullah; Saad, Maged M.; Eida, Abdul Aziz; Ahmad, Shakeel; Shah, Zahid Hussain; Ihsan, Muhammad Zahid; Yasir, Muhammad; Sohrab, Sayed Sartaj; Hirt, Heribert

doi:10.3389/fmicb.2018.00477

Cited by 38 publications

(30 citation statements)

References 78 publications

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“…Inoculation of alfalfa plants with any of the isolated strains improved plant water content, chlorophyll, carotenoid, nitrogen, phosphorus, and potassium content as well as other plant growth parameters such as plant height, leaf to stem ratio, fresh and dry weight. This study demonstrates the potential of using the desert rhizobacterial strains to develop novel bio-fertilizers for the improvement of crop production in hyper arid regions such as Saudi Arabia (Daur et al, 2018).…”

Section: Showcase: the Arabian Peninsula Desertsmentioning

confidence: 83%

“…Thus, desert plants display a perfect niche for studying the bacterial diversity as well as isolating their associated PGPR. In order to exploit them for their magnificent capabilities to enhance plant growth and resistance in arid, semi-and hyper-arid environments for obtaining more fertile soil, higher crop yields, increased agriculture sustainability to help improving the desert framing (Marasco et al, 2012;Cherif et al, 2015;Daur et al, 2018;de Zélicourt et al, 2018).…”

Section: Application Of Desert Pgpr For Sustainable Agriculturementioning

confidence: 99%

“…These results emphasize the potential of Azospirillum as a bio-fertilizer to help plant growth in nitrogen-deficient soils (El Sayed et al, 2015). In another study at Hada Al Sham, Daur et al (2018) have isolated several root-adhering rhizobacteria from the desert plants (Setaria viridis, Cenchrus ciliaris, P. antidotale, Amaranthus viridis, and Dichanthium annulatum). The bacterial strains were identified as Bacillus, Actinobacter, and Enterobacter, the biochemical assays confirmed that all the isolates have PGP traits such as IAA, ACC deaminase, siderophores, phosphatase production, and solubilization.…”

Section: Showcase: the Arabian Peninsula Desertsmentioning

confidence: 99%

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Desert Microbes for Boosting Sustainable Agriculture in Extreme Environments

2020

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A large portion of the earth's surface consists of arid, semi-arid and hyper-arid lands. Life in these regions is profoundly challenged by harsh environmental conditions of water limitation, high levels of solar radiation and temperature fluctuations, along with soil salinity and nutrient deficiency, which have serious consequences on plant growth and survival. In recent years, plants that grow in such extreme environments and their naturally associated beneficial microbes have attracted increased interest. The rhizosphere, rhizosheath, endosphere, and phyllosphere of desert plants display a perfect niche for isolating novel microbes. They are well adapted to extreme environments and offer an unexploited reservoir for bio-fertilizers and bio-control agents against a wide range of abiotic and biotic stresses that endanger diverse agricultural ecosystems. Their properties can be used to improve soil fertility, increase plant tolerance to various environmental stresses and crop productivity as well as benefit human health and provide enough food for a growing human population in an environment-friendly manner. Several initiatives were launched to discover the possibility of using beneficial microbes. In this review, we will be describing the efforts to explore the bacterial diversity associated with desert plants in the arid, semi-arid, and hyper-arid regions, highlighting the latest discoveries and applications of plant growth promoting bacteria from the most studied deserts around the world.

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Section: Showcase: the Arabian Peninsula Desertsmentioning

confidence: 83%

Section: Application Of Desert Pgpr For Sustainable Agriculturementioning

confidence: 99%

Section: Showcase: the Arabian Peninsula Desertsmentioning

confidence: 99%

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Desert Microbes for Boosting Sustainable Agriculture in Extreme Environments

2020

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“…Potential PGPB strains were isolated from the rhizosphere soil of alfalfa (Medicago sativa L.) growing at the Agricultural Research Station of King Abdulaziz University located at Hada Al-Sham (21°48 ′ 3 ′′ N, 39°43 ′ 25 ′′ E), Jeddah, Saudi Arabia in November 2017 following the method described by Sarkar et al (2012). The soils of the area are sandy loam, alkaline (pH 7.73), and saline (EC 2.9) (Mahmood et al 2016;Daur et al 2018). In the present study, alfalfa plants were selected because of the availability of the plants during the period of sample collection.…”

Section: Isolation Of Bacteriamentioning

confidence: 99%

Plant growth-promoting bacteria and silicon fertilizer enhance plant growth and salinity tolerance inCoriandrum sativum

Al-Garni

Khan

Bahieldin

2019

Journal of Plant Interactions

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Plant growth-promoting bacteria (PGPB) and silicon (Si) can augment salinity tolerance in plants. In this study, 25 potential PGPB were isolated from alfalfa rhizosphere and screened for their ability to synthesize indole-3-acetic acid, 1-aminocyclopropane-1-carboxylate deaminase, and solubilize tricalcium phosphate. Two promising strains were tentatively identified as Pseudomonas pseudoalcaligenes (KB-10) and P. putida (KB-25) based on phenotypic, biochemical and 16S rRNA gene phylogeny. Subsequently, a pot experiment was conducted to evaluate the effectiveness of KB-10 and KB-25 treatment, alone or in combination with Si fertilizer, in alleviating salinity stress in coriander. The results showed that treatment with PGPB strains and/or Si significantly increased relative water content, concentrations of photosynthetic pigments, peroxidase activity, total biomass, salt tolerance index, and reduced salt-induced total phenolic contents. Overall data suggested that the combined application of PGPB and Si fertilizer could be a feasible and effective approach to improve growth and salinity tolerance in coriander. ARTICLE HISTORY

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“…We also limit the discussion of field agriculture as our work focuses on future CEA. Additional efforts in improving rhizobial interactions and desert-probiotics for crops grown in harsh environments are also steadily developing, with promising results for encouraging heat tolerance and desiccation resistance under outdoor conditions (Bang et al, 2018;Daur et al, 2018;Eida et al, 2018). These efforts can serve as a roadmap for encouraging low-water use in field agriculture for some plants that are grown outdoors in harsh environments (Saad et al, 2020).…”

mentioning

confidence: 99%