Chemical Composition and Antibacterial Activity of the Essential Oil from Chinese Wild Ledum palustre L. on Vibrio Parahaemolyticus

Objectives: To study the chemical components and antibacterial activity of essential oil from the aerial parts of Ledum palustre L. which were collected in Daxing’anling area of north-eastern China, in September 2014. Methods: The subcritical fluid extraction technology (SFE) was used to isolate the essential oil from the plant’s samples. Micro-SPE and GC-MS methods were applied to the identification of oil components and determination of their content in the essential oil. The antimicrobial activity of the essential oil was tested against the marine pathogen Vibrio parahaemolyticus at incubation of 37 oC. Results: The yield of extract from the aerial parts was 5.31%. The main constituents found were α-thujenal (22.48%), bicyclocompounds(18.72%), β-phellandrene(10.25%), benzene,1-methyl-3-(1-methylethyl)-(6.59%), propanal,2-methyl-3-phenyl(4.01%) and β-terpineol (3.04%). The essential oil from L.palustre at concentration of 5 g/L can inhibit the growth of V.parahaemolyticus obviously. Conclusion: This is the first report of an inhibitory activity of essential oil of L.palustre on the pandemic strain of V.parahaemolyticus in seawater. *Corresponding author: Liangliang Zhang, Jiangsu Province Biomass Energy and Materials Laboratory, Nanjing 210042, China; Tel: +86 25 85482463; Fax: +86 25 85482463; E-mail: zhll20086@163.com Received Date: December 16, 2016 Accepted Date: January 29, 2017 Published Date: February 03, 2017


Introduction
Leum palustre L. also known as wild rosemary or marsh tea, is an evergreen low shrub growing wild in northern China and America, northern and central Europe. The plant grows in peaty soils, shrubby areas, moss and lichen tundra. It's leaves and flowers have a strong smell causing headache in some people. All parts of the plant contain poisonous terpenes that affect the central nervous system, causing aggressive behaviour. L. palustreis widely used in folk medicine and homoeopathy for the treatment of rheumatism, arthritis, and insect bite [1] .
The expectorant and antitussive effect of the marsh tea is due to the ledol contained in the plant's essential oil [1] . The composition of the essential oil from L.palustre varies considerably with habitat [2,3] . The major components present in the essential oil of L.palustre are (+) -ledol [4] , (−) -palustrol [4,5] , (−) -cyclocolorenone [4] , myrcene, p-cymene and limonene [4,6] . Ledol was isolated first time from L. palustre in 1948 [7] ; cyclocolorenone thirty years later [8] . Isolation of volatile compounds from the plants by the sub-critical fluid extraction technology allowed to obtain more components which could not be found by conventional methods (steam distillation, Soxhlet extraction) [9] .
Subcritical fluid extraction (SFE), also called pressurized low-polarity fluid extraction, is one of the most popular techniques which can overcome the defects of the conventional organic solvent extraction and expeller pressing methods. It is an excellent extraction that has numerous advantages such as lower operating temperature and pressures, shorter extraction time, environmental compatibility, good selectivity, one step from the extraction to the separation and avoidance of residual solvents [10,11] . Different subcritical fluids have been used in SFE, but n-butane is used as the subcritical fluid mainly because it needs lower critical pressures and temperatures, and it has excellent dissolving power for lipophilic compound. Also this extract is a low boiling point, inexpensive, colourless, and clean solvent that leaves no solvent residue in the product. Isolation of volatile compounds from the plants by the SFE allowed to obtain more components which could not be found by conventional methods (steam distillation, Soxhlet extraction) [9] .
Vibrio parahaemolyticus is a halophilic gram-negative bacterium that is widely distributed in coastal waters worldwide and is associated with gastroenteritis, wound infections and septicaemia [12] . V. Parahaemolyticus infections are frequently reported in coastal areas, apparently because of the high consumption of sea products and direct contact with estuarine waters [13] . Some efforts are needed to enhance the safety of seafood. Antimicrobial activities of herbs and essential oils have been well known for long time. Many studies reported the activities of herbs or essential oils to food borne pathogenic bacteria [14] . However, a few studies have investigated the effects of herbs and essential oils against marine pathogenic bacteria such as V. parahaemolyticus [15] .
In the present work, the essential oil from the aerial parts of L.palustre L. growing wild in north-eastern China was extracted by SFE and its composition was determined by Micro-SPE and GC-MS methods. The inhibitory activity of the essential oil on a pandemic strain of V. Parahaemolyticus was also investigated.

Plant materials
The aerial parts of Chinese L. palustre were collected in Daxing'anling area of north-eastern China, in September 2014. The samples were dried at room temperature. Voucher specimens (No. CAF20140827001) were deposited at the Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry.

Subcritical fluid extraction
Essential oil was isolated from the dried aerial parts of L. palustre (2.37 kg) by the subcritical fluid extraction technology (SFE) with butane (Nanjing Special Gas Factory Co., Ltd., > 99%) as a solvent. The SFE process was performed according to Liu et al [11] using the apparatus (Henan Subcritical Extraction Biological Technology, Co., Ltd, Anyang, China). A G445-5/6-13 pump (Beijing Huizhi Mechanical and Electrical Equipment Co., Ltd, China) with digital flow-rate and readouts was used to impel the n-butane extractant fluid through the system. The extraction capacity was 5 L and the maximum flow rate of the n-butane fluid was 80 L/hour.
The extraction experiment was carried out three times and the extraction yield was determined gravimetrically by the mass of extracted oil divided by the mass of L. palustre loaded in the extraction vessel, namely: The extraction yield (%) = (mass of extracted oil/mass of dried material) × 100%

Chemical analysis
The samples were analysed on a Varian Saturn 2000 System using a 1079 injector that had been fitted with the Chromato Probe kit. This kit allows the thermal desorption of small amounts of solids or liquids contained in quartz micro -vials [16] , or in our case the thermal desorption of the trapped volatiles. The adsorbent tube was loaded into the probe, which was then inserted into the modified GC injector.
The injector split vent was opened (1/20) and the injector heated to 40 ºC to flush any air from the system. The split vent was closed after 2 minutes and the injector was heated at 200 ºC/minute, and then held at 200 ºC for 4.2 minutes, after which the split vent was, opened (1/10) and the injector cooled down.
A ZB-5 column (5% phenyl polysiloxane) was used for the analyses (60 m long, inner diameter 0.25 mm, film thickness 0.25 μm, Phenomenex). Electronic flow control (EFC) was used to maintain a constant helium carrier gas flow of 1.8 mL/minute. The GC oven temperature was held for 7 minutes at 40º C then increased by 6 ºC per minute to 250 ºC and held for 1 minute. The MS interface was 260 ºC and the ion trap worked at 175 ºC. The mass spectra were taken at 70 eV (in EI mode) with a scanning speed of 1 scan-1 from m/z 30 to 350. The GC-MS data were processed using the Saturn Software package 5.2.1. Component identification was carried out using the NIST 08 mass spectral data base (NIST algorithm).

Inhibitory activity of the essential oil on V. parahaemolyticus:
The extract of L.palustre was subjected for inhibitory activity against the test organism (V. parahaemolyticus, supplied by Prof. Yuanyue Li in Jimei University, Xiamen, China) by the modified disc method. Petri dishes containing 100 μL of different concentrations of extract (5 g/L, 10 g/L and 15 g/L) and Tryptic Soy Agar medium (TSA) prepared in sterilized diluted seawater (10 -1 , 10 -2 and 10 -3 ) were labelled corresponding to the samples (T1-T3 and Control). Then 10 μL of the test organism was taken from the V. parahaemolyticus stock (broth) and swabbed on 2% agar medium by using sterilized buds. The plates were then incubated at 37ºC for 24 hours. The antimicrobial activity of the test extract was observed through the condition of bacterium growth on the plates.