Sabinene - 14.6 980 β-Pinene 0.4 0.

Sabinene - 14.6 980 β-Pinene 0.4 0.5 999 n-Octanal 0.4 0.1 1006 α-Phellandrene 0.4 0.7 1026 ρ-Cymene - 0.1 1028 β-Phellandrene 7.5 - 1034 1, 8-Cineole 7 0.5 1043 2-Heptanol acetate 0.6 0.4 1061 g-Terpinene - 0.1 1090 α-Terpinolene - 0.4 1100 Linalool 1.6 - - 1,5-Heptadiene# - 0.3 1153 Citronellal 1.3 1.4 1167 Borneol 1.3 2 - 1,6-Octadien-3-ol# - 0.7 1189 α-Terpineol 1.1 - 1090 2-Nonanone - 0.1 1253 Geraniol 6.6 0.8 1267 Geranial 3 - 1287 Bornyl acetate 1.6 - 1289 α-Thujenal - 0.3 1290 Lavandulyl acetate - 6.7 1318 Z-Citral 30.1 26.1 1353 Citronelly acetate 0.4 0.1 1359 Eugenol - 0.4 1381 Geranyl acetate 0.7 1.6 1391 β-Elemene - 0.2 1410 α-Gurjunene - 0.3 1412 α-Cedrene - 0.9 1435 trans-α-Bergamotene - 0.1 1437 g-Elemene - 0.2 1443 (Z)-β-Farnesene - 0.1 1456 (E)-β-Farnesene - 0.7 1463 Dehydro-Aromadendrene - 0.2 1481 ar-Curcumene 0.8 1.1 1483 g-Curcumene - 0.1 Continued 1485 Germacrene D - 0.3 1489 epi-Bicyclosesquiphellandrene - 2.6 1490 β-Selinene - 0.6 1494 Zingiberene 5.3 7.2 1506 (E,E)-α-Farnesene 1.8 1.5 1508 β-Bisabolene 1.6 1.9 1515 (Z)-g-Bisabolene - 0.2 1523 β-Sequiphellandrene 1.9 - 1525 Selina-4(14), 11-diene - 0.3 - Cyclohexanemethanol# - 1.1 1533 (Z)-Nerolidol - 0.4 1550 Elemol 0.9 - 1563 (E)-Nerolidol 0.2 - 1651 β-Eudesmol 1.2 0.7 1742 Zerumbone - 1.2 Total identified 90.1 99.6 Monoterpene hydrocarbon 20.6 32.6 Oxygenated monoterpenoids 54.7 39.9 Sesquiterpene hydrocarbons 11.4 18.5 Oxygentaed Sesquiterpene 2.3 1.1 Others 1 2.7 * Identification by RI, MS and co-injection; a Retention indices on HP-5MS capillary column; - not identified; # identification by MS fragmentation pattern only. fitted with a fused silica capillary HP-5 MS column (30 m × 0.25 mm, film thickness 0.25 m) and interface with a mass spectrometer HP 5973 MSD was used for the GC/MS analysis, under the same conditions used for GC analysis, with He (10 mL/min) as carrier gas. The MS conditions were as follows: ionization voltage 70 eV; emission current 40 mA; acquisitions scan mass range of 35 - 350 amu at a sampling rate of 1.0 scan/s. 2.5. Identification of Constituents The identification of constituents was performed on the basis of retention indices (RI) determined with reference to a homologous series of n-alkanes, under identical experimental conditions, co-injection with either standards (Sigma-Aldrich, St. Louis, MO, USA) or known essential oil constituents, MS library search (NIST 08 and Wiley 9th Version), and by comparing with MS literature data [7,8]. The relative amounts of individual components were calculated based on the GC peak area (FID response) Copyright © 2013 SciRes. AJPS Chemical Constituents of the Root Essential Oils of Zingiber rubens Roxb., and Zingiber zerumbet (L.) Smith Copyright © 2013 SciRes. AJPS 9 Table 2. Major compounds of previously studied Z. zerumbet oils from different regions. LC P Major Compounds Ref India Rh zerumbone (76.3% - 84.8%) [5] Malaysia Rh zerumbone (68.9%) [5] Vietnam St (Z)-nerolidol (16.8% - 22.3%) [9] Lv zerumbone (21.3% - 2.4%), trans-phytol (7.0% - 12.6%), β-caryophyllene (10.4% - 11.2%) [9] Fl (Z)-nerolidol (36.3%), β-caryophyllene (13.2%) [9] Vietnam - zerumbone (72.3%) [10] India - curzerenone (14.4%), zerumbone (12.6%), camphor (12.8%), isoborneol (8.9%), 1,8-cineole (7.1%) [11] French Polynesia Rh zerumbone (63.0%) [12] Reunion Island Rh zerumbone (37%), α-humulene (14.4%), camphene (13.8%) [13] Lv (E)-nerolidol (21.4%), β-caryophyllene (6.9%), linalool (7.7%), α-pinene, (10.3%), β-pinene (31.4%) [13] Fl (E)-nerolidol (34.9%), β-caryophyllene (10.2%), linalool (17.1%) [13] Bangladesh Rh zerumbone (46.8%), b-caryophyllene (19.0%), 1,5,5,8-tetramethyl-12-oxabicyclo[9.1.0]-dodeca-3,7-dien (4.3%) [14] LC = Location; P = Plant part; Rh = Rhizomes; Lv = Leaves; St = Stem; Fl = Flowers; -, part unknown. without using correction factors. 3. Results and Discussion The identities of compounds identified in the oil samples could be seen in Table 1. A total of 24 compounds were identified in the Z. rubens root oil, representing 90.1% of the oil content. The oil composed largely of monoterpenes (75.3%) dominated by ()-citral (30.1%), camphene (9.7%), β-phellandrene (7.5%) and 1,8-cineole (7.0%). Zingiberene (5.3%) was significant among the sesquiterpenoids. Literature information is scanty on the volatile oil of Z. rubens and as such this may represent the first of its kind. A total of 46 compounds could be identified from the root oil of Z. zerumbet, representing 99.6% of the oil content. Also, monoterpenoids (76.1%) were in abundance in the oil. The major constituents were ()- citral (26.1%), camphene (16.3%), sabinene (14.6%), zingiberene (7.2%) and lavandulyl acetate (6.7%). This oil has low content of zerumbone (1.2%). Essential oils from various parts of Z. zerumbet have been analysed. The investigations revealed that the content of its predominant compound, zerumbone, varied from one geographical location to another [5,9-14]. For example, its contents from sample of