The Hartig net is the network of inward-growing hyphae, that extends into the plant host root, penetrating between plant cells in the root epidermis and...
18 KB (1,998 words) - 05:51, 6 May 2024
Ectomycorrhiza (section Hartig net)
walls. Instead they form an entirely intercellular interface known as the Hartig net, consisting of highly branched hyphae forming a latticework between epidermal...
92 KB (9,669 words) - 00:07, 11 May 2024
root tips. Hyphae then enter the root cortex intercellularly to form the Hartig net for nutrient exchange. Hyphae can spread to other root tips colonising...
68 KB (7,291 words) - 00:17, 20 May 2024
mycorrhiza. These fungi are characterized by the presence of a mantle, Hartig net, unique fungal peg, and intracellular hyphal complexes. They are also...
3 KB (261 words) - 00:54, 16 May 2024
allowing the hyphae to penetrate into the epidermal cells and create a Hartig net in the first layers of the root cortex. This highly branched structure...
9 KB (1,193 words) - 03:59, 26 April 2024
Robert Hartig (born: Heinrich Julius Adolph Robert Hartig, 30 May 1839, in Braunschweig – died 9 October 1901, in Munich) was a German forestry scientist...
5 KB (449 words) - 03:35, 31 August 2023
Ectomycorrhizas consist of a hyphal sheath, or mantle, covering the root tip and a Hartig net of hyphae surrounding the plant cells within the root cortex. In some...
53 KB (5,654 words) - 20:59, 16 May 2024
author abbreviation is Hartig. He described many gall wasp species. In 1842, Theodor Hartig described what is now known as the Hartig net, a network of fungal...
5 KB (432 words) - 16:53, 2 May 2024
reproductive spores. Ascocarp – Fruiting body of an ascomycete fungus. Hartig net – Network of inward-growing hyphae Mycorrhizal network – Underground fungal...
15 KB (1,573 words) - 02:54, 14 May 2024
it from its hyphae. This induced branching in cultures, and enhanced Hartig net formation. The fungus uses a multidrug and toxic extrusion (MATE) transporter...
26 KB (2,766 words) - 00:37, 15 May 2024