| Author | Isabella, Børja | |
| Author | Douglas L. Godbold | |
| Author | Jan, Světlík | |
| Author | Nina E. Nagy | |
| Author | Roman, Gebauer | |
| Author | Урбан, Йозеф Йозеф | |
| Author | Daniel, Volařík | |
| Author | Lange, H. | |
| Author | Paal, Krokene | |
| Author | Petr, Čermák | |
| Author | Toril D. Eldhuset | |
| Accessioned Date | 2019-07-01T07:07:18Z | |
| Available Date | 2019-07-01T07:07:18Z | |
| Issued Date | 2017 | |
| Bibliographic Citation | Isabella, Børja. Norway Spruce Fine Roots and Fungal Hyphae Grow Deeper in Forest Soils After Extended Drought [Текст] / Børja Isabella, Douglas L. Godbold, Světlík Jan, Nina E. Nagy, Gebauer Roman, Йозеф Йозеф Урбан, Volařík Daniel, H. Lange, Krokene Paal, Čermák Petr, Toril D. Eldhuset // Soil Biological Communities and Ecosystem Resilience. — 2017. — С. 123-142 | |
| URI (for links/citations) | https://www.researchgate.net/publication/319675265_Norway_Spruce_Fine_Roots_and_Fungal_Hyphae_Grow_Deeper_in_Forest_Soils_After_Extended_Drought | |
| URI (for links/citations) | http://elib.sfu-kras.ru/handle/2311/110442 | |
| Description | Текст статьи не публикуется в открытом доступе в соответствии с политикой журнала. | |
| Abstract | Global warming will most likely lead to increased drought stress in forest
trees. We wanted to describe the adaptive responses of fine roots and fungal hyphae,
at different soil depths, in a Norway spruce stand to long-term drought stress
induced by precipitation exclusion over two growing seasons. We used soil cores,
minirhizotrons and nylon meshes to estimate growth, biomass and distribution of
fine roots and fungal hyphae at different soil depths. In control plots fine roots proliferated
in upper soil layers, whereas in drought plots there was no fine root growth
in upper soil layers and roots mostly occupied deeper soil layers. Fungal hyphae
followed the same pattern as fine roots, with the highest biomass in deeper soil layers
in drought plots. We conclude that both fine roots and fungal hyphae respond to
long-term drought stress by growing into deeper soil layers. | |
| Subject | Fine root biomass | |
| Subject | Hyphal biomass | |
| Subject | Hyphal mesh | |
| Subject | Minirhizotrons | |
| Subject | Picea abies | |
| Title | Norway Spruce Fine Roots and Fungal Hyphae Grow Deeper in Forest Soils After Extended Drought | |
| Type | Journal Article | |
| Type | Published Journal Article | |
| Pages | 123-142 | |
| GRNTI | 34.31.21 | |
| Update Date | 2019-07-01T07:07:18Z | |
| DOI | 10.1007/978-3-319-63336-7_8 | |
| Institute | Институт экологии и географии | |
| Department | Лаборатория биогеохимии экосистем | |
| Journal Name | Soil Biological Communities and Ecosystem Resilience | |
| Journal Quartile in Web of Science | без квартиля | |
