Mycorrhizal inoculation affects arbuscular mycorrhizal diversity in watermelon roots, but leads to improved colonization and plant response under water stress only

► We studied the impact of introduced AM on indigenous AM colonizers and watermelon plant performance. ► AM diversity and biomass were affected by inoculation and water limitation. ► Inoculated plants showed increased performance only under water limitation. Horticultural crops in the Mediterranean...

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Published inApplied soil ecology : a section of Agriculture, ecosystems & environment Vol. 63; pp. 112 - 119
Main Authors Omirou, Michalis, Ioannides, Ioannis M., Ehaliotis, Constantinos
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 01.01.2013
Elsevier
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Summary:► We studied the impact of introduced AM on indigenous AM colonizers and watermelon plant performance. ► AM diversity and biomass were affected by inoculation and water limitation. ► Inoculated plants showed increased performance only under water limitation. Horticultural crops in the Mediterranean basin have to cope with severe drought conditions. The effect of inoculating watermelon plants grown under limited water availability conditions with AM fungi on the fruit yield, water use efficiency (WUE), root-N and -P content was examined. We focused on the impact of watering level and inoculation with allochthonous AM fungi on the diversity and presence of AM fungi in the watermelon roots using molecular techniques. An open field experiment was conducted and plants were grown with (M) and without AM fungal inoculum (NM), subjected to water stress (NW) and no stress conditions (W). Suboptimal water application (NW) resulted in significant reduction of fruit yield, root-N and -P content. Inoculation of plants grown under water stress resulted in a significant increase of WUE (19%), fruit yield (19%), root-N (27%) and -P (40%). However, only root-P responded to AM inoculation under non water stress conditions demonstrating 23% increase in M plants. DNA extracted from root samples was subjected to PCR–DGGE analysis. The native mycorrhizal population colonized watermelon roots, as indicated by DGGE bands in NM treatments. Some members of this colonizer community appear sensitive to the introduction of allochthonous inocula and to water stress conditions. Cloning and sequencing of AM fungi revealed that watermelon roots were colonized by Glomus and Paraglomus species. A TaqMan real-time PCR assay was also carried out targeting the 18S rRNA gene for the quantification of AM nucleic acids. The 18S rRNA copy numbers of AM fungi were significantly increased in M plants compared to NM plants under water stress. On the contrary, under non stress conditions M and NM plants did not show significant differences, indicating that inoculation with AM fungi was related to the response of plants to water stress conditions. Principle coordinate analysis of the DGGE banding patterns showed that the diversity of AM fungal colonizers was strongly affected (i) by inoculation and (ii) by water stress in the inoculated plants. Inoculation affected fungal presence under water limitation conditions only. The latter was in line with the significant beneficial effect of inoculation on both WUE and yield only under water limitation.
Bibliography:http://dx.doi.org/10.1016/j.apsoil.2012.09.013
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2012.09.013