Biostimulatory Potential of Microorganisms from Rosemary (Rosmarinus officinalis L.) Rhizospheric Soil

D. Stamenov, S. Đurić, T. H. Jafari
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Abstract

Summary The objective of the present paper was to isolate microorganisms (Pseudomonas sp., Bacillus sp. and Azotobacter sp.) from the rhizospheric soil of rosemary (Rosmarinus officinalis L.) and investigate their biostimulatory (plant growth-promoting – PGP) and biocontrol potential. The bacteria isolated from the rhizosphere of rosemary included 15 bacteria of the genus Pseudomonas, 20 of the genus Bacillus, and 11 of the genus Azotobacter. Based on the morphological characteristics of colonies and cells, representative isolates of each genus were chosen (marked as Pseudomonas sp. P42, P43, P44; for Bacillus isolates B83, B84, B85, B92, B93; and for Azotobacter isolates A15 and A16) for different physiological and biochemical examination. The study included in vitro screening of the bacterial isolates for their PGP and biocontrol properties. Pseudomonas isolates showed the ability to live at low temperature (10ºC) and high pH (9), and to use different sources of carbon. All Pseudomonas isolates produced lipase, siderophore, hydrogen cyanide, and utilized organic and inorganic phosphorus, while only isolate P42 produced amylase, pectinase and cellulase. Only Bacillus isolates could grow at 45 ºC (all Bacillus isolates), pH 5 (isolates B83), and on a medium containing NaCl 5 and 7% (all isolates). Isolates denoted as B83 and B93 produced lipase, amylase, and pectinase. All isolates had the ability to solubilize phosphate, produce siderophores (except B85) and hydrogen cyanide, while only two isolates (B84 and B85) produced IAA. Azotobacter isolates had the optimal growth at 37ºC and minimal growth on a medium with pH 6 and 9. All Azotobacter isolates used all carbohydrates as a source of carbon and produced lipase, amylase, and hydrogen cyanide. The best result in suppressing the growth of pathogenic fungi Fusarium oxysporum was achieved by using isolate B92. Application of isolate B83 led to the greatest growth suppression of Sclerotinium sclerotiorum.
迷迭香微生物的生物刺激潜能根际的土壤
摘要从迷迭香根际土壤中分离出假单胞菌(Pseudomonas sp.)、芽孢杆菌(Bacillus sp.)和固氮杆菌(Azotobacter sp.),并研究其生物刺激(植物生长促进- PGP)和生物防治潜力。从迷迭香根际分离得到15种假单胞菌属细菌、20种芽孢杆菌属细菌和11种固氮杆菌属细菌。根据菌落和细胞的形态特征,选取各属具有代表性的分离株(标记为Pseudomonas sp. P42, P43, P44;菌株B83、B84、B85、B92、B93;对固氮菌分离株A15和A16进行不同的生理生化检测。该研究包括体外筛选菌株的PGP和生物防治性能。分离的假单胞菌显示出在低温(10℃)和高pH(9)下生存的能力,并利用不同的碳源。所有假单胞菌分离株都产生脂肪酶、铁载体、氰化氢和利用有机磷和无机磷,而只有P42分离株产生淀粉酶、果胶酶和纤维素酶。只有芽孢杆菌菌株能在45℃(所有菌株)、pH 5(菌株B83)和含NaCl 5和7%(所有菌株)的培养基上生长。分离物B83和B93产生脂肪酶、淀粉酶和果胶酶。除B85外,所有菌株均具有溶解磷酸盐、产生铁载体和氰化氢的能力,只有B84和B85两株菌株产生IAA。分离的固氮细菌在37℃时生长最佳,在pH为6和9的培养基上生长最低。所有分离的固氮菌都以碳水化合物为碳源,并产生脂肪酶、淀粉酶和氰化氢。分离物B92对尖孢镰刀菌的抑制效果最好。B83对菌核菌生长的抑制作用最大。
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