Pinus halepensis, Pinus pinaster, Pinus pinea and Pinus sylvestris Essential Oils Chemotypes and Monoterpene Hydrocarbon Enantiomers, before and after Inoculation with the Pinewood Nematode Bursaphelenchus xylophilus

Rodrigues, Ana Margarida; Mendes, Marta D.; Lima, A. Sofia; Barbosa, Pedro; Ascensão, Lia; Barroso, José G.; Pedro, Luís G.; Mota, Manuel; Figueiredo, A. C. S.

doi:10.1002/cbdv.201600153

Cited by 38 publications

(35 citation statements)

References 56 publications

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“…LG was analysed by gas chromatography (GC) and gas chromatography coupled to mass spectrometry (GC-MS), for compound quantification and identification, respectively, as described by Rodrigues et al [16].…”

Section: Lemongrass Essential Oil (Lg) Analysismentioning

confidence: 99%

The Effect of Nanocoatings Enriched with Essential Oils on ‘Rocha’ Pear Long Storage

Gago

Antão

Dores

et al. 2020

Foods

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The effect of coating ‘Rocha’ pears with alginate-based nanoemulsions enriched with lemongrass essential oil (LG) or citral (Cit) was investigated. Fruit were treated with the nanoemulsions: sodium alginate 2% (w/w) + citral 1% (w/w) (Cit1%); sodium alginate 2% (w/w) + citral 2% (w/w) (Cit2%); sodium alginate 2% (w/w) + lemongrass 1.25% (w/w) (LG1.25%); sodium alginate 2% (w/w) + lemongrass 2.5% (w/w) (LG2.5%). Then, fruit were stored at 0 °C and at 95% relative humidity, for six months. Fruit samples were taken after two, four and six months, and then placed at 22 °C. Upon removal and after 7 d shelf-life, fruit were evaluated for colour CIE (L*, h◦), firmness, soluble solids content (SSC), titratable acidity (TA), weight loss, electrolytic leakage, microbial growth, symptoms of superficial scald and internal browning. All nanoemulsions had droplets in the nano range <500 nm, showed uniformity of particle size and stable dispersion. Cit-nanoemulsions had lower droplet size and higher stability than LG. No nanoemulsion showed cytotoxicity. Coatings reduced fruit colour evolution and preserved better firmness than control. After shelf-life, better firmness was found in LG-coated fruit. Coatings did not affect SSC and TA. Microbial growth was below the safety limits in all treatments. Fruit treated with LG-nanoemulsions did not show scald symptoms and panelists preferred LG1.25% coated fruit. Cit2% treated fruit showed the highest scald and internal browning symptoms, while LG1.25% did not show any disorders. This study suggests that LG-nanocoatings have the potential for preserving the quality of ‘Rocha’ pear.

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Section: Lemongrass Essential Oil (Lg) Analysismentioning

confidence: 99%

The Effect of Nanocoatings Enriched with Essential Oils on ‘Rocha’ Pear Long Storage

Gago

Antão

Dores

et al. 2020

Foods

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“…VOCs are commonly collected with headspace techniques (e.g., SPME), while EOs are obtained exclusively with hydro-, steam-or dry-distillation, or in the case of citrus fruits, mechanically without heating [80]. EO screening studies are popular among forest tree species, namely Eucalyptus and Pinus spp., mainly due to the occurrence of EO chemotypes [81][82][83][84]. The non-destructive nature of headspace techniques, such as SPME, allow for time-course evaluation of VOCs emission and have been widely applied in forest tree research not only for plant chemotype classification but also for plant-pathogen interactions or plant-insect communication [85,86].…”

Section: Gc-ms Metabolite Profilingmentioning

confidence: 99%

Experimental Design and Sample Preparation in Forest Tree Metabolomics

2019

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Appropriate experimental design and sample preparation are key steps in metabolomics experiments, highly influencing the biological interpretation of the results. The sample preparation workflow for plant metabolomics studies includes several steps before metabolite extraction and analysis. These include the optimization of laboratory procedures, which should be optimized for different plants and tissues. This is particularly the case for trees, whose tissues are complex matrices to work with due to the presence of several interferents, such as oleoresins, cellulose. A good experimental design, tree tissue harvest conditions, and sample preparation are crucial to ensure consistency and reproducibility of the metadata among datasets. In this review, we discuss the main challenges when setting up a forest tree metabolomics experiment for mass spectrometry (MS)-based analysis covering all technical aspects from the biological question formulation and experimental design to sample processing and metabolite extraction and data acquisition. We also highlight the importance of forest tree metadata standardization in metabolomics studies.

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“…The essential oil (EO) profile of Pinus spp. in response to PWN infection has been characterized with GC‐MS to reveal no major differences in EO composition between control and inoculated tree hosts, apart from the occurrence of EO chemotypes (Faria et al, 2015; Rodrigues et al, 2017). The profile of volatile organic compound (VOCs) emission with GC‐MS (further details in Section IV.B) has also revealed no difference between control and infected pine hosts (Santos & Vasconcelos, 2011).…”

Section: Ms‐based Metabolite Responses To Environmental Stresses In Fmentioning

confidence: 99%

“…The profile of volatile organic compound (VOCs) emission with GC‐MS (further details in Section IV.B) has also revealed no difference between control and infected pine hosts (Santos & Vasconcelos, 2011). Interestingly, some differences were found in yield and EO composition when one analyzed the nematode inoculation area separately (Rodrigues et al, 2017). The role of constitutive defenses (e.g., phenolic compounds, condensed tannins, and lignin) on the phloem of pine tree species has also been studied, and a positive correlation between a lower level of these secondary metabolites and tree susceptibility to PWN infection was observed (Pimentel et al, 2017).…”

Section: Ms‐based Metabolite Responses To Environmental Stresses In Fmentioning

confidence: 99%

Mass spectrometry‐based forest tree metabolomics

Rodrigues

Miguel

Chaves

et al. 2019

Mass Spectrometry Reviews

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Research in forest tree species has advanced slowly when compared with other agricultural crops and model organisms, mainly due to the long‐life cycles, large genome sizes, and lack of genomic tools. Additionally, trees are complex matrices, and the presence of interferents (e.g., oleoresins and cellulose) challenges the analysis of tree tissues with mass spectrometry (MS)‐based analytical platforms. In this review, advances in MS‐based forest tree metabolomics are discussed. Given their economic and ecological significance, particular focus is given to Pinus, Quercus, and Eucalyptus forest tree species to better understand their metabolite responses to abiotic and biotic stresses in the current climate change scenario. Furthermore, MS‐based metabolomics technologies produce large and complex datasets that require expertize to adequately manage, process, analyze, and store the data in dedicated repositories. To ensure that the full potential of forest tree metabolomics data are translated into new knowledge, these data should comply with the FAIR principles (i.e., Findable, Accessible, Interoperable, and Re‐usable). It is essential that adequate standards are implemented to annotate metadata from forest tree metabolomics studies as is already required by many science and governmental agencies and some major scientific publishers. © 2019 John Wiley & Sons Ltd. Mass Spec Rev 40:126–157, 2021.

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Pinus halepensis, Pinus pinaster, Pinus pinea and Pinus sylvestris Essential Oils Chemotypes and Monoterpene Hydrocarbon Enantiomers, before and after Inoculation with the Pinewood Nematode Bursaphelenchus xylophilus

Cited by 38 publications

References 56 publications

The Effect of Nanocoatings Enriched with Essential Oils on ‘Rocha’ Pear Long Storage

The Effect of Nanocoatings Enriched with Essential Oils on ‘Rocha’ Pear Long Storage

Experimental Design and Sample Preparation in Forest Tree Metabolomics

Mass spectrometry‐based forest tree metabolomics

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