Comparative analysis of different methods for evaluating quality of Quercus ilex seedlings inoculated with Tuber melanosporum

Andrés-Alpuente, Antonio; Sánchez, Sergio; Martı́n, Marı́a P.; Aguirre, A. Javier; Barriuso, J.

doi:10.1007/s00572-014-0563-x

Cited by 27 publications

(18 citation statements)

References 9 publications

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“…All seedlings bore T. melanosporum mycorrhizas, with all treatments showing mean colonisation levels analogous to those in commercial nurseries (Andres-Alpuente et al 2014 …”

Section: Discussionmentioning

confidence: 77%

“…High quality inoculated seedlings must exhibit a root system abundantly colonised by T. melanosporum (Andres-Alpuente et al 2014, Murat 2015. The commercial production of these seedlings is customarily done with spore inoculum, either concentrating inoculum onto fine roots or incorporating it into substrate (Chevalier & Grente 1978, Palazón & Barriuso 2007.…”

Section: Introductionmentioning

confidence: 99%

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Fertilisation of Quercus seedlings inoculated with Tuber melanosporum: effects on growth and mycorrhization of two host species and two inoculation methods

García-Barreda¹,

Molina-Grau²,

Reyna³

2017

iForest

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(4)Modern truffle cultivation is based on use of inoculated seedlings, which should exhibit highly colonised roots as well as a vegetative quality enhancing field plant performance. However, poor shoot and fine root growth has been a frequent issue in inoculated Quercus seedlings production. Fertilisation is a common solution in forest nurseries, but high fertilisation levels have been found to inhibit the formation of ectomycorrhizas of many fungal species. The influence of slow-release fertilisation (52 mg N, 26 mg P and 36 mg K per seedling) on growth and ectomycorrhizal status of Tuber melanosporum-inoculated seedlings was evaluated. Host species Quercus ilex and Quercus faginea and inoculation methods involving root-dipping and root-powdering were tested. Fertilisation increased weight of both host species without significant detrimental effects on ectomycorrhizal colonisation, showing that it can be effectively used in inoculated seedlings production. Both host species showed similar response to fertilisation. The inoculation method affected seedling weight and ectomycorrhizal status, suggesting that some inoculant carriers are able to damage Quercus development and T. melanosporum colonisation. The study provided an important basis for fine-tuning the use of fertilisers in truffle-inoculated seedling production.

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“…All seedlings bore T. melanosporum mycorrhizas, with all treatments showing mean colonisation levels analogous to those in commercial nurseries (Andres-Alpuente et al 2014 …”

Section: Discussionmentioning

confidence: 77%

Section: Introductionmentioning

confidence: 99%

Fertilisation of Quercus seedlings inoculated with Tuber melanosporum: effects on growth and mycorrhization of two host species and two inoculation methods

García-Barreda¹,

Molina-Grau²,

Reyna³

2017

iForest

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“…ballota and Quercus faginea seedlings inoculated with T. melanosporum. The seedlings were produced in a commercial nursery and controlled by public authorities following the INIA-Aragón method 29 . They were planted at a density of 278 trees ha −1 (6 × 6 m), and the two host species were arranged in rows with a 2:1 proportion in the entire experimental site.…”

Section: Methodsmentioning

confidence: 99%

Edaphic and temporal patterns of Tuber melanosporum fruitbody traits and effect of localised peat-based amendment

García-Barreda

Marco

Martín-Santafé

et al. 2020

Sci Rep

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Tuber melanosporum cultivation, fruitbody traits are gaining relevance due to their increasing prominence on prices. We investigated the edaphic and temporal patterns of fruitbody traits and characterised the effect of truffle nests (localised peat-based amendment supplemented with T. melanosporum spores) on traits. We monitored fruitbody traits throughout two fruiting seasons in three blocks along a soil gradient. Each trait followed specific edaphic and temporal patterns. The number of fruitbodies per dig and spore maturity followed characteristic within-season trends, whereas fruitbody weight and infestation by truffle beetles were subject to complex interactions among edaphic and temporal variables, suggesting a relevant influence of annual environmental conditions. The application of truffle nests increased fruitbody depth, improved its shape and decreased infestation by truffle beetles. Nests increased the number of fruitbodies per dig, but only in two of the soils, suggesting a relevant role of the bulk soil/substrate interface in fruiting initiation. These results outline a complex scenario, with each trait being differently affected by environmental factors. In this scenario, nests proved to effectively modify several traits, although not always in the desired direction. The European black truffle (Tuber melanosporum) is an ectomycorrhizal fungus highly appreciated in "haute cuisine" due to its organoleptic properties. It grows wild in open oak forests of southern Europe, although nowadays most T. melanosporum production is harvested in orchards planted with seedlings previously inoculated in controlled conditions. Truffle cultivation has advanced greatly in recent decades and has expanded worldwide 1. This is leading to an increased and more stable supply of truffles to markets in recent years, thus encouraging price differentiation by quality 2. Commercial quality standards are defined by both pre-harvest fruitbody (FB) traits and post-harvest practices 3. The most important among the former are FB ripeness, gleba colour (associated to spore maturity), abiotic and biotic damages, fresh weight and shape 4. Despite recent advances, truffle cultivation is not completely domesticated yet, as the uncertainties around the mating process and the FB formation process remain 5,6. The environmental mechanisms triggering fruiting and influencing FB development and maturation are still poorly understood 6,7. Edaphic and climatic factors have a key role in ectomycorrhizal FB yields, phenology and morphology 8-10. This is particularly likely to apply to truffles, which grow below ground and require several months to develop and ripen 11,12. Information on the influence of environmental factors on FB traits could help to clarify the ecology of T. melanosporum and could be useful for improving productivity and sustainability in truffle cultivation. Unraveling the linkages between FB traits and edaphoclimatic conditions is difficult because: (1) the long period of formation of truffle FBs hinders the identification of ...

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“…Although 30 mg l −1 uniconazole treatment further increased the root–shoot ratio, the significant decrease in host plant height and biomass limited the increase in truffle colonization rate, as ectomycorrhizae rely on the host plant as a carbon source. According to previous research, the colonization rate and the quality of the host plant constitute the primary factors contributing to the success or failure of a truffle crop (Andres‐Alpuente et al , ).…”

Section: Discussionmentioning

confidence: 99%

“…The root segments colonized by T. indicum were counted under a stereoscope based on the mycorrhizal fungal structures. A total of 30 root segments (each segment was about 1 cm long) were randomly selected and observed for each seedling (Andres‐Alpuente et al , ). Mycorrhizal colonization rate was expressed as: mycorrhizal colonization rate (%) = (root segments colonized by T. indicum /total root segments observed) × 100 (Benucci et al , ).…”

Section: Methodsmentioning

confidence: 99%

Root‐tip cutting and uniconazole treatment improve the colonization rate of Tuber indicum on Pinus armandii seedlings in the greenhouse

Zhu

et al. 2020

Microbial Biotechnology

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Summary The Chinese black truffle Tuber indicum is commercially valuable. The main factors influencing the success or failure of a truffle crop include the mycorrhizal colonization rate and host plant quality. The effects of a plant growth regulator (uniconazole) and plant growth management technique (root‐tip cutting) on T. indicum colonization rate and Pinus armandii seedling growth were assessed under greenhouse conditions. The results indicated that 10 mg l−1 uniconazole or the combination of 5 mg l−1 uniconazole and root‐tip cutting constitutes an effective method for ectomycorrhizal synthesis based on an overall evaluation of colonization rate, plant biomass, plant height, root weight, stem circumference and antioxidant enzyme activities (SOD and POD) of P. armandii. The abundance of Proteobacteria in the rhizosphere of colonized seedlings might serve as an indicator of stable mycorrhizal colonization. This research inspires the potential application of uniconazole and root‐tip cutting treatments for mycorrhizal synthesis and truffle cultivation.

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Comparative analysis of different methods for evaluating quality of Quercus ilex seedlings inoculated with Tuber melanosporum

Cited by 27 publications

References 9 publications

Fertilisation of Quercus seedlings inoculated with Tuber melanosporum: effects on growth and mycorrhization of two host species and two inoculation methods

Fertilisation of Quercus seedlings inoculated with Tuber melanosporum: effects on growth and mycorrhization of two host species and two inoculation methods

Edaphic and temporal patterns of Tuber melanosporum fruitbody traits and effect of localised peat-based amendment

Root‐tip cutting and uniconazole treatment improve the colonization rate of Tuber indicum on Pinus armandii seedlings in the greenhouse

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