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Trichoderma narcissi (Tochinai & Shimada) Tochinai & Shimada, (1931) Trichoderma harzianum is a fungus that is also used as a fungicide . It is used for foliar application, seed treatment and soil treatment for suppression of fungal pathogens causing various fungal plant diseases.
Different marine habitats support very different fungal communities. Fungi can be found in niches ranging from ocean depths and coastal waters to mangrove swamps and estuaries with low salinity levels. [5] Marine fungi can be saprobic or parasitic on animals, saprobic or parasitic on algae, saprobic on plants or saprobic on dead wood. [2]
The species T. aggressivum (formerly T. harzianum biotype 4) has been found to infect button mushrooms. [10] [11] Trichoderma spp. can also be pathogenic to plants. Trichoderma viride is the causal agent of green mold rot of onion. [12] A strain of Trichoderma viride is a known cause of dieback of Pinus nigra seedlings. [13]
This is a list of binomial names in the fungal genus Trichoderma Pers. (1801) (in the family of Hypocreaceae), with just accepted species and not including synonyms. 'Outline of Fungi and fungus-like taxa' by Wijayawardene et al. lists up to (400+) species (in 2020), [1] and around 466 records are listed by Species Fungorum (with up to 12 former species).
Conidiospores of Trichoderma aggressivum, diameter approx. 3μm: Conidiophores of molds of the genus Aspergillus; conidiogenesis is blastic-phialidic: Conidiophores of Trichoderma harzianum; conidiogenesis is blastic-phialidic: Conidiophores of Trichoderma fertile with vase-shaped phialides and newly formed conidia on their ends (bright points)
Trichoderma harzianum; P. Peptaibol; T. Trichoderma asperellum; ... Trichoderma viride; Trichodimerol This page was last edited on 28 August 2015, at 18:07 (UTC). ...
From shallow waters to the deep sea, the open ocean to rivers and lakes, numerous terrestrial and marine species depend on the surface ecosystem and the organisms found there. [1] The ocean's surface acts like a skin between the atmosphere above and the water below, and hosts an ecosystem unique to this environment.
The tiny (0.6 μm) marine cyanobacterium Prochlorococcus, discovered in 1986, forms today an important part of the base of the ocean food chain and accounts for much of the photosynthesis of the open ocean [140] and an estimated 20% of the oxygen in the Earth's atmosphere. [141]