Abstract

The paper presents the results of research on cacti such as Gymnocalycium baldianum, Gymnocalycium mihanovichii, Notocactus eugeniae and Notocactus leninghausii, aimed at improving plant growth and defense against the pathogenic fungus Fusarium sp., through the use of Gigaspora margarita inoculated in the growing medium. Objectives of the work were: i) use Gigaspora margarita to assess if the use of arbuscular mycorrhizae can lead to an increase in the growth rate of Notocactus and Gymnocalycium, plants generally slow in their growth cycle; ii) to evaluate if the use of mycorrhizae can lead to an extension of the duration of the flower, to promote pollination of bees; iii) to assess if the use of Gigaspora Margarita allows greater protection of the roots against the fungus Fusarium sp. which often affects the roots of these cacti. The two experimental groups in cultivation were: i) group without arbuscular michorriza, irrigated with water and substrate previously fertilized; group with Gigaspora Margarita, irrigated with water and substrate previously fertilized. All plants treated with Gigaspora margarita showed a significant increase in plant height and circumference, vegetative and root weight of the plants, number of new suckers, number of flowers and fruits and flower life. In addition, there was significant control of the fungus Fusarium sp. in plants in which Gigaspora margarita was inoculated into the substrate, in fact a reduced infection of the roots due to this pathogen was found. The application of mycorrhiza in the cultivation of plants can guarantee the possibility to obtain a higher quality product, a higher resistance to biotic stress, an increase in growth rate, very interesting aspects in the succulent and cactus plants sector.

Highlights

  • An arbuscular mycorrhiza is characterized by a type of mycorrhiza in which the symbiont fungus (AM fungus, or AMF) penetrates the cortical cells of the roots of a vascular plant that forms arbuscules [1]

  • The evolution of the arbuscular mycorrhizal symbiosis seems to have played a fundamental role in the initial colonization of the soil by plants and in the evolution of vascular plants

  • Plant growth The test showed a significant increase in agronomic parameters analyzed in plants treated with Gigaspora margarita on Gymnocalycium baldianum, Gymnocalycium mihanovichii, Notocactus eugeniae and Notocactus leninghausii

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Summary

Introduction

An arbuscular mycorrhiza is characterized by a type of mycorrhiza in which the symbiont fungus (AM fungus, or AMF) penetrates the cortical cells of the roots of a vascular plant that forms arbuscules [1]. The evolution of the arbuscular mycorrhizal symbiosis seems to have played a fundamental role in the initial colonization of the soil by plants and in the evolution of vascular plants This kind of symbiosis is a highly evolved mutualistic relationship found between fungi and plants, the most prevalent known plant symbiosis and AMF is found in 80% of today's vascular plant families [3,4]. The enormous advances in research on mycorrhizal physiology and ecology over the last 40 years have led to a greater understanding of the multiple roles of MFA in the ecosystem This knowledge can benefit man in the management of the ecosystem, in restoring the balance of soil characteristics and obvious to improve

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