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Trichoderma spp. Improves Flowering, Quality, and Nutritional Status of Ornamental Plants
Scientists all over the world conduct research to determine the influence of Trichoderma spp. on various groups of plants, mostly crops. However, there is little information on the influence of these fungi on ornamental plants. Therefore, the authors of this study analyzed the influence of Trichoderma spp. on the growth, flowering, quality, and nutritional status of ornamental plants. The research showed that Trichoderma spp. in this group of plants stimulate the elongation and thickening of shoots and the formation of leaves. These fungi also stimulate or inhibit leaf elongation. They also accelerate the flowering of plants, stimulate the elongation of inflorescence shoots and inflorescences, and the development of flowers. Apart from that, Trichoderma spp. positively influence the content of chlorophyll and carotenoids in leaves, and they stimulate the uptake of micro- and macroelements.
Flowering, Quality and Nutritional Status of Tropaeolum majus L. ‘Spitfire’ after Application of Trichoderma spp.
The aim of this study was to compare the influence of three species of fungi of the Trichoderma genus (T. aureoviride Rifai—Ta8, T. hamatum/Bonord/Bainier—Th15, and T. harzianum Rifai—Thr2) on the quality, flowering, and nutritional status of Tropaeolum majus L. ‘Spitfire’. Early flowering was only influenced by T. hamatum, which delayed it by 6 days. T. aureoviride, T. hamatum, and T. harzianum stimulated the flowering of the ‘Spitfire’ cultivar but did not affect the size of the flowers. The plants treated with T. harzianum after being planted in pots flowered the most abundantly. Trichoderma spp. caused the plants to grow more intensively, producing longer and more leafy shoots with a greater number of offshoots. Trichoderma spp. stimulated the uptake of macronutrients, except for phosphorus (P). In the case of calcium (Ca) and sodium (Na), this phenomenon was only observed in plants treated with T. aureoviride and T. hamatum, and for magnesium (Mg), only when T. hamatum was applied to sown seeds. As for the developed root systems, as far as the micronutrients are concerned, Trichoderma spp. stimulated the uptake of zinc (Zn) and manganese (Mn). Apart from that, there was a higher iron (Fe) content in the plants treated with T. harzianum on both dates and T. aureoviride after planting the plants in pots.
Flowering, Nutritional Status, and Content of Chloroplast Pigments in Leaves of Gladiolus hybridus L. ‘Advances Red’ after Application of Trichoderma spp.
In this study, we attempt to assess the influence of Trichoderma spp. on the flowering and nutritional status of Gladiolus hybridus L. ‘Advances Red’, as well as on the content of chlorophyll a + b and carotenoids in the leaves. During both years of the experiment, there was a treatment in which Trichoderma fungi were not used (control), and in another treatment, plants were treated with these fungi. After five weeks of cultivation, when leaf apexes were visible above the surface of the substrate, each plant was irrigated with a suspension (20 mL) of mix of Trichoderma spp. (T. viride Schumach-Tv14, T. harzianum Rifai-Thr2, T. hamatum/Bonord/Bainier-Th15). The treatment of the plants Trichoderma-spp. improved their uptake of macro- (P, K and Ca) and micronutrients (Zn, Fe and B), and increased the chlorophyll a + b and carotenoids in their leaves. Trichoderma spp. accelerated the flowering of Gladiolus hybridus L. ‘Advances Red’ by 10–14 days. The fungi stimulated the elongation of inflorescence shoots and inflorescences, in which the number of flowers increased, but flower diameter did not change. Trichoderma spp. improved the nutrients uptake, chlorophyll a + b and carotenoids, and flowering; hence, Trichoderma spp. treatment is suggested for enhancing inflorescence and inflorescence shoots in Gladiolus hybridus.