Abstract
Mycorrhiza application in horticultural production in the Eastern Mediterranean region of Turkey has been studied under field conditions for several years. The effects of different arbuscular mycorrhizal fungi (AMF) have been evaluated under field conditions for cucumber production. The parameters measured were seedling survival, plant growth and yield, and root colonization. In 1998 and 1999, Glomus mosseae and Glomus etunicatum inoculated cucumber seedlings were treated with and without P (100 kg P2O5 ha-1) application. A second experiment was set up to evaluate the response of cucumber to the inoculation with a consortia of indigenous mycorrhizae, G. mosseae, G. etunicatum, Glomus clarum, Glomus caledonium and a mixture of these four species. Inoculated and control non inoculated cucumber seedlings were established under field conditions in 1998, 2001, 2002 and 2004. Seedling quality, seedling survival under field conditions and yield response to mycorrhiza were tested. Fruits were harvested periodically; at blossom, plant leaves and root samples were taken for nutrient content and mycorrhizal colonization analysis respectively. The field experiment results showed that mycorrhiza inoculation significantly increased cucumber seedling survival, fruit yield, P and Zn shoot concentrations. Indigenous mycorrhiza inoculum was successful in colonizing plant roots and resulted in better plant growth and yield. The relative effectiveness of each of the inocula tested was not consistent in the different experiments, although inoculated plants always grew better than control no inoculated. The most relevant result for growers was the increased survival of seedlings.
Highlights
Horticultural cultivation is becoming widespread in the Mediterranean region of Turkey
The mycorrhizal potential of the symbiosis to improve horticultural production is recognized (Estaun et al, 2002), it has not been implemented under field conditions, integrating this biotechnology in large horticultural production systems (Ortas, 2008)
In the second experiment there were seven mycorrhiza treatments: control non inoculated seedlings, seedlings inoculated with indigenous mycorrhiza G. mosseae, G. etunicatum, G. clarum, G. caledonium and a mixture of these species
Summary
Horticultural cultivation is becoming widespread in the Mediterranean region of Turkey. A reduction of the fertilizers input together with selecting cultivars and species better adapted to these constrains is necessary to increase the sustainability of crop production. Arbuscular mycorrhizal fungi (AMF) can be integrated in soil management to achieve low-cost sustainable agricultural systems (Hooker and Black, 1995). Mycorrhizal fungi occur in most of the soils and colonize roots of many plant species. AMF can benefit plants by stimulating the production of growth regulating substances, increasing photosynthesis, improving osmotic adjustment under drought and salinity stresses and increasing resistance to pests and soil borne diseases (Al-Karaki, 2006). These benefits are mainly attributed to improved phosphorous nutrition (Plenchette et al, 2005). The mycorrhizal potential of the symbiosis to improve horticultural production is recognized (Estaun et al, 2002), it has not been implemented under field conditions, integrating this biotechnology in large horticultural production systems (Ortas, 2008)
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