Voets Liesbeth, Goubau Isaline, Olsson Pål Axel, Merckx Roel, Declerck Stéphane
Université catholique de Louvain, Unité de Microbiologie, Louvain-la-Neuve, Belgium.
FEMS Microbiol Ecol. 2008 Aug;65(2):350-60. doi: 10.1111/j.1574-6941.2008.00503.x. Epub 2008 Jun 28.
Carbon transfer between plants via a common extraradical network of arbuscular mycorrhizal (AM) fungal hyphae has been investigated abundantly, but the results remain equivocal. We studied the transfer of carbon through this fungal network, from a Medicago truncatula donor plant to a receiver (1) M. truncatula plant growing under decreased light conditions and (2) M. truncatula seedling. Autotrophic plants were grown in bicompartmented Petri plates, with their root systems physically separated, but linked by the extraradical network of Glomus intraradices. A control Myc-/Nod- M. truncatula plant was inserted in the same compartment as the receiver plant. Following labeling of the donor plant with 13CO2, 13C was recovered in the donor plant shoots and roots, in the extraradical mycelium and in the receiver plant roots. Fatty acid analysis of the receiver's roots further demonstrated 13C enrichment in the fungal-specific lipids, while almost no label was detected in the plant-specific compounds. We conclude that carbon was transferred from the donor to the receiver plant via the AM fungal network, but that the transferred carbon remained within the intraradical AM fungal structures of the receiver's root and was not transferred to the receiver's plant tissues.
通过丛枝菌根(AM)真菌菌丝体的共同根外网络在植物之间进行碳转移已得到大量研究,但结果仍不明确。我们研究了碳通过这种真菌网络从蒺藜苜蓿供体植物转移到受体(1)在光照减少条件下生长的蒺藜苜蓿植物和(2)蒺藜苜蓿幼苗的情况。自养植物种植在双隔培养皿中,其根系物理分离,但通过根内球囊霉的根外网络相连。在与受体植物相同的隔室中插入一株对照的蒺藜苜蓿Myc-/Nod-植物。在用13CO2标记供体植物后,在供体植物的地上部分和根系、根外菌丝体以及受体植物的根系中都检测到了13C。对受体根系的脂肪酸分析进一步表明,真菌特异性脂质中13C富集,而在植物特异性化合物中几乎未检测到标记。我们得出结论,碳通过AM真菌网络从供体转移到受体植物,但转移的碳仍保留在受体根系的根内AM真菌结构中,未转移到受体植物组织中。
