越南晋江省海田县变性岩山风化物中磷酸、钾增溶菌的测定

C. N. Diệp
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引用次数: 0

摘要

磷(P)和钾(K)是植物的主要必需常量营养素。利用含磷肥和增钾菌的生物肥料是维持土壤中有效磷和钾的一种替代方案。为了开发生物肥料,有必要从变性岩山风化物中寻找溶磷增钾菌。在改良Aleksandrov培养基上从越南kienjiang HaTien Mountain土壤/风化岩石样品中分离到25株菌株。菌落呈圆形或不规则,白色至黄色,细胞呈杆状,可活动。用特异性引物fd1和rP对25株细菌中的17株进行了PCR鉴定,结果表明它们具有溶磷和溶钾能力。其中,7株菌株具有较高的磷酸盐和钾溶解能力(>10 mg -1 P2O5和>50 mg -1 K2O)。选取7株菌株进行dna测序,利用BLAST N软件与NCBI GenBank数据库进行比对。结果表明,DNV16菌株与溶毛微杆菌菌株A3RC1 (JQ689178)的同源性为99.30%;菌株TC1D与根状芽孢杆菌PeD7 (MN258894)的同源性为99.27%;CH9E菌株与农杆菌ICMP5856 (KX621317)的同源性为99.43%;菌株TC1A与菌株2914 (MT611870)的同源性为99.90%;菌株CH7D与巨型芽孢杆菌菌株LCR107 (FJ976616)的同源性为99.88%;菌株TD6B与枯草芽孢杆菌R0-14 (MN330151)的同源性为99.81%,菌株CH7A与白孢芽孢杆菌FORCN138 (MW363338)的同源性为99.80%。菌株TC1A具有较高的溶磷和溶钾能力,在生物肥料生产中具有广阔的应用前景。
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Determination of Phosphate and Potassium Solubilizing Bacteria from Weathered Materials of Denatured Rock Mountain, HaTien, KienGiang Province, Vietnam
Phosporus (P) and potassium (K) are the major essential macronutrients for plants. Utilization of bio-fertilizers contained phosphate and potassium solubilizing bacteria is an alternative solution to maintain the available P and K in the soil. In order to develop such as bio-fertilizer, it is necessary to find out phosphate- and potassium-solubilizing bacteria from weathered materials of denatured rock mountain. Twenty-five strains were isolated on modified Aleksandrov medium from samples of soils/weathered rocks of HaTien Mountain, KienGiang, Vietnam. Their colonies were round or irregular, white to yellow and their cells were rod-shaped and motile. Seventeen of twenty-five bacterial strains were identified by PCR technique with specific primers fd1 and rP, showed that they were capable of dissolving both phosphate and potassium. Among of them, the seven strains had high phosphate and potassium dissolution capacites (>10 mgL-1 P2O5 and >50 mgL-1 K2O) effectively. The seven strains were chosen to sequence DNAs and then compared with GenBank database of NCBI by BLAST N software. The results showed that DNV16 strain was 99.30 % of identity with Microbacterium trichothecenolyticum strain A3RC1 (JQ689178); TC1D strain was 99.27 % of identity with Flectobacillus rhizosphaerae strain PeD7 (MN258894); CH9E strain was 99.43 % of identity with Agrobacterium tumefaciens strain ICMP5856 (KX621317); TC1A strain was 99.90 % of identity with Bacillus paramycoides strain 2914 (MT611870); CH7D strain was 99.88% of identity with Bacillus megaterium strain LCR107 (FJ976616); TD6B strain was 99.81 % of identiy with Bacillus subtilis strain R0-14 (MN330151) and CH7A strain 99.80 % with Bacillus albus strain FORCN138 (MW363338). The strain TC1A was the high phosphate and potassium solubilizing ability and its potential for use in bio-fertilizer prodution in the future.
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