Rapid Turnover of Hyphae of Mycorrhizal Fungi Determined by AMS Microanalysis of 14 C
- 16 May 2003
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 300 (5622), 1138-1140
- https://doi.org/10.1126/science.1084269
Abstract
Processes in the soil remain among the least well-characterized components of the carbon cycle. Arbuscular mycorrhizal (AM) fungi are ubiquitous root symbionts in many terrestrial ecosystems and account for a large fraction of photosynthate in a wide range of ecosystems; they therefore play a key role in the terrestrial carbon cycle. A large part of the fungal mycelium is outside the root (the extraradical mycelium, ERM) and, because of the dispersed growth pattern and the small diameter of the hyphae (<5 micrometers), exceptionally difficult to study quantitatively. Critically, the longevity of these fine hyphae has never been measured, although it is assumed to be short. To quantify carbon turnover in these hyphae, we exposed mycorrhizal plants to fossil (“carbon-14–dead”) carbon dioxide and collected samples of ERM hyphae (up to 116 micrograms) over the following 29 days. Analyses of their carbon-14 content by accelerator mass spectrometry (AMS) showed that most ERM hyphae of AM fungi live, on average, 5 to 6 days. This high turnover rate reveals a large and rapid mycorrhizal pathway of carbon in the soil carbon cycle.Keywords
This publication has 25 references indexed in Scilit:
- Using radiocarbon to determine the mycorrhizal status of fungiNew Phytologist, 2002
- Transfer of recent photosynthate into mycorrhizal mycelium of an upland grassland: short-term respiratory losses and accumulation of 14CSoil Biology and Biochemistry, 2002
- In situ13CO2 pulse‐labelling of upland grassland demonstrates a rapid pathway of carbon flux from arbuscular mycorrhizal mycelia to the soilNew Phytologist, 2002
- Acclimatization of soil respiration to warming in a tall grass prairieNature, 2001
- The impact of elevated CO2 and global climate change on arbuscular mycorrhizas: a mycocentric approachNew Phytologist, 2000
- The δ13C signature of the external phase of a Glomus mycorrhizal fungus: determination and implicationsSoil Biology and Biochemistry, 1999
- Branched absorbing structures (BAS): a feature of the extraradical mycelium of symbiotic arbuscular mycorrhizal fungiNew Phytologist, 1998
- Root production and turnover and carbon budgets of two contrasting grasslands under ambient and elevated atmospheric carbon dioxide concentrationsNew Phytologist, 1997
- The Spread of VA Mycorrhizal Fungal Hyphae in the Soil: Inoculum Types and External Hyphal ArchitectureMycologia, 1991
- Carbon flow into soil and external hyphae from roots of mycorrhizal cucumber plantsNew Phytologist, 1990