This study was carried out at the Experimental Nursery of the Ornamental Horticulture Department, Faculty of Agriculture, Cairo University, Giza, during the two successive seasons of 2000 and 2001, with the aim of investigating the effect of chemical, organic and bio-fertilization treatments on the growth, chemical composition and oil production of African marigold (Tagetes erecta L.) plants. In addition to the control, the fertilization treatments included: (1) N fertilization at the rates of 6 or 12 g ammonium sulphate /pot (N1 and N2, respectively), (2) Bio-fertilization (Bio), (3) Bio + half the previous N fertilization rates (½ N1 or N1), (4) Cattle manure (CM) at the rate of 710 cm3/pot (equivalent to 40 m3/feddan), or (5) Bio + ½ CM (i.e., CM at 355 cm3/pot, equivalent to 20 m3/feddan). All plants (including the control) received chemical PK fertilization (P at 6 g calcium superphosphate, and K at 3 g potassium sulphate / 25-cm pot). The bio-fertilizer was applied to the soil as a liquid inoculum containing Azospirillum brasilense, Klebsiella pneumonia and Pseudomonas putida.
In general, all the tested fertilization treatments had a favourable effect on vegetative growth, flowering, chemical composition and oil production. In most cases, fertilization with CM (especially when added without bio-fertilization) gave the highest values for the different vegetative growth characteristics (plant height, number of branches, fresh and dry weights of leaves, stems and roots). Also, CM (with or without biofertilization) gave the best results for number of flowers/plant, as well as fresh and dry weights of flowers (in most cases). Fertilization treatments also increased the leaf contents of chlorophylls “a", “b", total chlorophylls, carotenoids and xanthophylls (in most cases), as well as the total carbohydrates contents in the different plant parts. Also, most of the fertilization treatments increased the N and P contents in the flowers and roots, as well as the K contents in leaves and stems. Moreover, oil percentage and yield were increased in the flowers and leaves of fertilized plants (compared to the control), with the highest values resulting from plants supplied with CM, with or without biofertilization (especially in the second season). Linalool, limonene, ocimene, caryophyllene and eugenol were the main components of the oil extracted from Tagetes erecta flowers and leaves. Β-ionone was also detected at lower percentages in Tagetes erecta oil. Low percentages of α-pinene and β-pinene were identified as oil components in the flowers, but were almost completely absent in oil extracted from the leaves. Also, the percentage of ocimene was generally higher in the oil from flowers than in the oil from leaves. On the other hand, the percentage of eugenol was higher in oil from leaves than in oil from flowers. In general, the different fertilization treatments generally increased the percentages of caryophyllene and eugenol in oil extracted from the flowers. In oil from the leaves, using N1, N2 or bio-fertilization increased the ocimene and eugenol percentages, while cattle manure generally increased the limonene and linalool percentages. Also, the limonene, eugenol and β-ionone percentages in the leaves oil were increased by fertilization using ½ N1 + bio-fertilization, while the β-pinene and linalool percentages were increased by N1 + bio-fertilization. Fertilization with N1 gave the highest percentages of eugenol and β-ionone in oil from the flowers, as well as the highest percentages of ocimene, caryophyllene and eugenol in oil from the leaves.
Conclusively, from the recorded results, it was concluded that the different fertilization treatments had a favourable effect on the growth, flowering, chemical composition and oil production of Tagetes erecta plants, with fertilization using CM giving the best results.