The genus Echinophora (Apiaceae) ha

The genus Echinophora (Apiaceae) have four species in the flora of Iran including Echinophora orientalis Hedge et Lamond, Echinophora sibthorpiana Guss, Echinophora cinerea Boiss., and Echinophora platyloba DC. which two latter are exclusive of Iran ( Mozaffarian, 2004). The Mediterranean and Middle East regions seem to be the only areas where this genus is established ( Mazloomifar, Saber-Tehrani, Rustaiyan, & Masoudi, 2004). E. platyloba DC. (known as “Khosharizeh or Khosharouzeh” in Persian) ( Mozaffarian, 2004) is wild growing and could be found in different parts of central, northwestern and western of Iran ( Asghari et al., 2003, Entezari et al., 2009, Ghahreman, 1993 and Mozaffarian, 2004). E. platyloba is a perennial aromatic herb, which is well known for its favorable aromatic property. The fresh and dry aerial parts and essential oil of the plant are used as flavoring agent in food products, especially dairy ( Mazloomifar et al., 2004 and Sadrai et al., 2002). E. platyloba is used as seasoning and an anti-mold agent in pickled cauliflower, gherkin, and a kind of native cheese in Chaharmahal va Bakhtiari province ( Asghari et al., 2003, Avijgan et al., 2010, Ghasemi Pirbalouti et al., 2013 and Sadrai et al., 2002). E. platyloba has been used as a medicinal plant in Iranian folk medicine for many years. For therapeutic purposes, this plant and its essential oil have been used as an antimicrobial ( Asghari, Abedi, Jalali, & Farsi, 2007), antioxidant ( Ghasemi Pirbalouti et al., 2013), and antifungal activities ( Asghari et al., 2003 and Mazloomifar et al., 2004).

Herbal medicines are a branch of traditional medicine of countries such as Iran, which have been played vital role in treatment of diseases until a century ago. Among the plant products, essential oils have been widely investigated for their toxicities against various fungi, bacteria and insects (Bakkali, Averbeck, Averbeck, & Idaomar, 2008).

The antifungal activities of essential oils have been widely documented and suggested to be the effect of their major compounds or a synergistic or antagonistic effect of various compounds. The inhibitory activities of the essential oils from Carum carvi, Cymbopogon nardus, Pelargonium roseum, Pimenta dioica, and Thymus vulgaris against Fusarium oxysporum and Fusarium verticillioides were determined ( Zabka, Pavela, & Slezakova, 2009). Furthermore, Achillea gypsicola and Achillea biebersteinii oils were shown a broad spectrum of antifungal activity against Fusarium species ( Kordali et al., 2009). Results of previous studies indicated that the antifungal activities of the essential oils from Thymus zygis subsp. sylvestris, Salvia officinalis and Orthosiphon stamineus against some strains of Penicillium, Aspergillus, Cladosporium and Fusarium fungi ( Goncalves et al., 2010 and Pinto et al., 2007), and phytopathogenic fungi such as Botrytis cinerea, Rhizoctonia solani, Fusarium solani, Colletotricum capsici, and Phytophthora capsici ( Amzad Hossain, Ismail, Rahman, & Chul Kang, 2008).

For many years, a variety of different synthetic chemicals (benzimidazoles, aromatic hydrocarbons, and sterol biosynthesis inhibitors) has been used as antifungal agents to inhibit the growth of plant pathogenic fungi (Pavela, 2007). Plant components with antifungal properties are accounted as valuable resources in plant industrial and they can be beneficial in treating the diseases (Avijgan, Hafizi, Saadat, & Nilforoushzadeh, 2006). There is a growing interest on the research of the possible use of natural products such as plant-based essential oils and extracts, which may be less damaging for fungal pathogens control (Bouchra, Achouri, Hassani, & Hmamouchi, 2003). Many essential oils and their constituents are found to exhibit antifungal properties, but the high cost of production of essential oils and the low concentration of active principles often prevent their direct use in the control of fungal diseases of plants. In spite of this limitation, currently, there is much research performed for the development of safer antifungal agents such as plant-based essential oils to control phytopathogenic fungi causing severe destruction to crops in agriculture (Bouchra et al., 2003).

A view of literature has revealed that there is no previous works on the essential oil of E. platyloba seed, and the essential oils from other Echinophora species ( Ahmad et al., 1999, Baser et al., 2000 and Baser et al., 1998), in addition, no studies have documented on the antifungal activity of this herb. Therefore, considering the folkloric application of E. platyloba and its biological properties, the aim of the present study was to examine the chemical composition of essential oil from E. platyloba seed and antifungal activity against six phytopathogens by two different screening methods.