SSP = single super phosphate (120 kg P/ha). Values with common letters in each column do not differ statistically according to Duncan’s Multiple Range Test at p ≤ 0.01. DW = dry weight, Pt = P. trivialis, Pp = P. poae, Pf = P. fluorescens, and Psp = Pseudomonas The shoot dry weight was significantly higher in seven PSB treatments over NP0K, NPTCPK and NPSSPK. The highest shoot dry weight with NPTCPK+Psp BIHB 813 was statistically at par with NPTCPK+Pp BIHB 730, NPTCPK+Pt https://www.selleckchem.com/products/ganetespib-sta-9090.html BIHB 747, NPTCPK+Pt
BIHB 769, NPTCPK+Pt BIHB 745, NPTCPK+Psp BIHB 756 and NPTCPK+Pf BIHB 740. The root length was significantly higher in fifteen PSB treatments over NP0K and thirteen PSB treatments over NPTCPK and NPSSPK. The maximum increase was obtained with NPTCPK+Pt BIHB 736, followed by NPTCPK+Pt BIHB 745, NPTCPK+Pt BIHB 769, NPTCPK+Pp BIHB 730 and NPTCPK+Psp BIHB 756. The treatments NPTCPK and NPSSPK were statistically at par with NP0K. The root dry weight was significantly higher in NPTCPK+Pt BIHB 749 over other PSB treatments, NP0K, NPTCPK and NPSSPK. The treatments NPTCPK+Pt BIHB 745, NPTCPK+Pt BIHB 747 and NPTCPK+Pt BIHB 757 were statistically
at par and showed significantly higher root dry weight over NP0K, NPTCPK and NPSSPK. Plant NPK KU-57788 cost content The treatments showed significant difference in the nutrient content of roots and shoots (Table 6). The shoot N was statistically higher in seven PSB treatments over NP0K and two PSB treatments over NP0K, NPTCPK and NPSSPK. A non-significant difference in the shoot N was observed with NP0K, NPTCPK and NPSSPK. The shoot P was significantly higher in ten PSB p38 inhibitors clinical trials treatments over NP0K, NPTCPK and NPSSPK. The highest P content obtained with NPTCPK+Pt BIHB 745. The treatments NPTCPK and NPSSPK were statistically at par with NP0K. The shoot K was significantly higher in NPTCPK+Psp BIHB 756, NPTCPK+Pt BIHB 759 and NPTCPK+Pt BIHB 745 over NP0K, NPTCPK and NPSSPK. The root N was significantly higher in eight PSB treatments over NP0K, NPTCPK and NPSSPK. The N content O-methylated flavonoid was statistically at par in NP0K,
NPTCPK and NPSSPK. The highest N was obtained with NPTCPK+Pt BIHB 736. The root P was significantly higher in three PSB treatments over NPSSPK. The maximum increase was obtained with NPTCPK+Pt BIHB 745, followed by NPTCPK+Pp BIHB 752 and NPTCPK+Psp BIHB 756. The P content was significantly higher in NPSSPK over NP0K and NPTCPK. The root K was significantly higher in NPTCPK+Pt BIHB 745 and NPTCPK+Pt BIHB 728 over NP0K, NPTCPK and NPSSPK. Other treatments were statistically at par with NPTCPK and NPSSPK. Soil properties The soil pH, organic matter and available N, P, K contents were significantly affected by PSB treatments (Table 7). The final pH with non-significant difference among various treatments was less than the initial pH. The highest decrease recorded with NPTCPK+Pt BIHB 757 was statistically at par with all other PSB treatments but significantly lower than NP0K, NPTCPK and NPSSPK.