21 research outputs found
Combined bacterial and mycorrhizal inocula improve tomato quality at reduced fertilization
Plant Growth Promoting Bacteria (PGPB) and Arbuscular Mycorrhizal Fungi (AMF) can positively affect plant nutrition and growth. Recent studies have also shown that rhizospheric microorganisms can result in improved fruit features. Aim of this work was to evaluate, in an industrial farming, the effects of three selected biostimulants (consisting of a mix of Plant Growth Promoting Bacteria and Arbuscular Mycorrhizal Fungi), employed in conditions of reduced fertilization on yield, fruit quality and nutritional value.
Tomato plants were inoculated with AM fungi and Pseudomonas sp. 19Fv1T or P. fluorescens C7, transplanted and grown in open field under conditions of reduced fertilization. The impact of the microorganisms on the fruit yield and nutritional value was assessed by measuring the production, fruit size and concentration of soluble sugars, organic acids, carotenoids and ascorbate.
The size and biomass of tomato fruits were affected by the inocula. Sugar concentration was increased by the selected microorganisms. All the mixtures induced an enhancement of malic acid, while double colonization with AMF and PGPB increased \u3b2-carotene concentration in fruits if compared to controls.
The results of the present study show that inoculation with soil microorganisms can help to drastically reduce the use of chemical fertilization, maintaining and, in some cases, even improving the tomato fruit yield and quality. This can lead to economical, environmental and human health benefits in relation to the increased sustainability
Volatilomic Analysis of Four Edible Flowers from Agastache Genus
Volatilomes emitted from edible flowers of two species of Agastache (A. aurantiaca (A.Gray) Lint & Epling, and A. mexicana (Kunth) Lint & Epling) and from two hybrids (Agastache ‘Arcado Pink’ and Agastache ‘Blue Boa’) were investigated using a solid-phase microextraction technique as well as the extraction of its essential oils. Oxygenated monoterpenes were almost always the predominant class (>85%) of volatile organic compounds (VOCs) in each sample of A. aurantiaca, A. ‘Blue Boa’ and A. mexicana, with the exception of A. ‘Arcado Pink’ (38.6%). Pulegone was the main compound in A. aurantiaca (76.7%) and A. ‘Blue Boa’ (82.4%), while geranyl acetate (37.5%) followed by geraniol (16%) and geranial (17%) were the principal ones in A. mexicana. The essential oil composition showed the same behavior as the VOCs both for the main class as well as the major constituent (pulegone) with the same exception for A. mexicana. Total soluble sugars, secondary metabolites (polyphenols, flavonoids and anthocyanins) and antioxidant activity were also investigated to emphasize the nutraceutical properties of these edible flowers
Seed Micromorphology, In Vitro Germination, and Early-Stage Seedling Morphological Traits of Cattleya purpurata (Lindl. & Paxton) Van den Berg
In the context of a symbiotic plant-fungus interaction study concerning Cattleya purpurata, we focused on some aspects of seed morphology and biology, and the early stages of seedling development. Seed morphology was characterized using light and scanning electron microscopy. In vitro seed germination capability was evaluated, comparing symbiotic and asymbiotic methods. The morphology of the seeds was overall comparable to that of other congeneric species, showing classical adaptations related to the aerodynamic properties and to the wettability of seeds, but calcium oxalate druses were identified inside the suspensor cells. Asymbiotic seed germination was successful in all tested media (17.1â46.5%) but was higher on 1/2 Murashige & Skoog. During symbiotic interaction with the fungal strain MUT4178 (Tulasnella calospora), germination rate was significantly lower than that obtained with the best three asymbiotic media, suggesting a low fungal compatibility. Seedling morphology was in line with other taxa from the same genus, showing typical characteristics of epiphytic species. Our observations, in particular, highlighted the presence of stomata with C-shaped guard cells in the leaves, rarely found in Cattleyas (where usually they are reniform), and confirm the presence of tilosomes in the roots. Idioblasts containing raphides were observed in both roots and leaves
Bioactive Compounds and Aroma Profile of Some Lamiaceae Edible Flowers
Edible flowers are consumed for their appearance, colours, nutritional and healthy
properties, but the use is limited by the actual number of the species. Seven edible flowers of the
Lamiaceae family (Ocimeae and Mentheae tribes) were investigated: Monarda didyma âFireballâ,
Nepeta Ă faassenii âSix Hills Giantâ, Ocimum basilicum âBlue Spiceâ, O. basilicum âCinnamonâ, Ocimum
Ă citriodorum, Salvia discolor, and Salvia microphylla âHot Lipsâ. Total soluble sugars, proteins,
polyphenols, carotenoids, ascorbic acid and antioxidant activity were detected. The species of the
Mentheae tribe contained higher sugar content than Ocimeae flowers, the opposite with regard to
protein content. Ocimeae tribe flowers showed high polyphenols and carotenoids content. The
Ocimeae tribe together with two specie of the Mentheae tribe showed an aroma profile dominated
by sesquiterpene hydrocarbons (58.0% in S. discolor to 77.9% in Ocimum Ă citriodorum). Oxygenated
monoterpenes prevailed in Nepeta and Monarda, also present in the essential oil of this latter species
(84.5%). By contrast, Nepeta and S. discolor evidenced non-terpenes as the principal class (41.2% and
77.5%, respectively), while the oxygenated sesquiterpene was the main one in S. microphylla. The
two varieties of Ocimum spp. showed oxygenated monoterpenes as the main class of volatiles
Trace Elements in Edible Flowers from Italy: Further Insights into Health Benefits and Risks to Consumers.
The use of edible flowers in cooking dates back to ancient times, but recently it is gaining success among the consumers, increasingly attentive to healthy and sustainable foods of high quality, without neglecting taste, flavour, and visual appeal. The present study aims to deepen the knowledge regarding the mineral composition of edible flowers, an aspect not widely investigated in scientific literature. The concentrations of Cd, Co, Cu, Fe, Mn, Ni, Pb, Sr, V, and Zn have been determined by Inductively Coupled Plasma Optical Emission Spectrometry (ICP OES) in flowers belonging to a wide variety of species. The study highlights that some floral species are characterized by significantly higher concentrations of certain trace elements, e.g., the flowers of Acmella oleracea for Mn, those of basil (Ocimum basilicum) and of pumpkins (Cucurbita moschata and C. pepo) for Cu and Sr, and those of orange daylily (Hemerocallis fulva) for Ni. Potentially toxic elements are present at low concentrations, often below the limit of the detection for Cd, Co, Ni, V. In all samples, Cd and Pb are well below the maximum permitted levels in foodstuffs. It can be concluded that the edible flowers analyzed can be considered a good source of essential elements and do not present risks for the consumer health as for the mineral composition
Phytonutritional Content and Aroma Profile Changes During Postharvest Storage of Edible Flowers
Edible flowers are niche horticultural products, routinely used as cooking ingredients
in the food industry. Currently, new species are required with the aim of enlarging
the number of species with a long shelf-life, healthy nutraceutical compounds, and
new fragrance and tastes. Ageratum houstonianum Mill, Tagetes lemmonii A. Gray,
Salvia dorisiana Standl, and Pelargonium odoratissimum (L.) LâHĂ©r âLemonâ were
selected for their different morphological characteristics and color. Fresh flowers were
analyzed to characterize their phytonutritional content and aroma profile. Postharvest
was determined up to 6 days of cold storage at 4C in transparent polypropylene
boxes. Visual quality and cellular membrane damage were observed. The relative
content of different antioxidant constituents (e.g., polyphenols, flavonoids, anthocyanins,
ascorbic acid), nutritional compounds (soluble sugars, crude proteins), the antioxidant
scavenging activity, and the volatile profile were determined and correlated to the quality
of shelf-life of the different species. The yellow T. lemmonii freshly picked flowers showed
the highest ascorbic acid and flavonoids content, which was maintained during the
cold storage, as well as the best visual quality. Limited changes in metabolites were
detected in the light blue A. houstonianum during postharvest, although the visual
quality is severely compromised. Magenta S. dorisiana and light pink P. odoratissimum
showed similar changes in antioxidant constituents during cold storage. For the first
time, the volatile compounds have been identified in the four species. Sesquiterpene
hydrocarbons are the main class in fresh flowers of A. houstonianum, S. dorisiana,
and P. odoratissimum, while monoterpene hydrocarbons are abundant in T. lemmonii.
The cold storage influenced mainly P. odoratissimum and S. dorisiana flavor initially
dominated by the increase in total monoterpenes at 6 days, reaching a relative content
of 90%. Both A. houstonianum and T. lemmonii conserved the prevalence of the same
class of constituents in all the analyzed conditions, even though the cold storage
influenced the major compound abundance. On the basis of the results, T. lemmonii
was the most interesting species with the longest shelf-life due to its phytonutritional
and aromatic constituents. Results indicated the peculiar metabolic and physiological
attitude of flowers species to cold storage
Preferential Colonization of Solanum tuberosum L. Roots by the Fungus Glomus intraradices in Arable Soil of a Potato Farming Areaâż
The symbiosis between plant roots and arbuscular mycorrhizal (AM) fungi has been shown to affect both the diversity and productivity of agricultural communities. In this study, we characterized the AM fungal communities of Solanum tuberosum L. (potato) roots and of the bulk soil in two nearby areas of northern Italy, in order to verify if land use practices had selected any particular AM fungus with specificity to potato plants. The AM fungal large-subunit (LSU) rRNA genes were subjected to nested PCR, cloning, sequencing, and phylogenetic analyses. One hundred eighty-three LSU rRNA sequences were analyzed, and eight monophyletic ribotypes, belonging to Glomus groups A and B, were identified. AM fungal communities differed between bulk soil and potato roots, as one AM fungal ribotype, corresponding to Glomus intraradices, was much more frequent in potato roots than in soils (accounting for more than 90% of sequences from potato samples and less than 10% of sequences from soil samples). A semiquantitative heminested PCR with specific primers was used to confirm and quantify the AM fungal abundance observed by cloning. Overall results concerning the biodiversity of AM fungal communities in roots and in bulk soils from the two studied areas suggested that potato roots were preferentially colonized by one AM fungal species, G. intraradices
Trace Elements in Edible Flowers from Italy: Further Insights into Health Benefits and Risks to Consumers
The use of edible flowers in cooking dates back to ancient times, but recently it is gaining success among the consumers, increasingly attentive to healthy and sustainable foods of high quality, without neglecting taste, flavour, and visual appeal. The present study aims to deepen the knowledge regarding the mineral composition of edible flowers, an aspect not widely investigated in scientific literature. The concentrations of Cd, Co, Cu, Fe, Mn, Ni, Pb, Sr, V, and Zn have been determined by Inductively Coupled Plasma Optical Emission Spectrometry (ICP OES) in flowers belonging to a wide variety of species. The study highlights that some floral species are characterized by significantly higher concentrations of certain trace elements, e.g., the flowers of Acmella oleracea for Mn, those of basil (Ocimum basilicum) and of pumpkins (Cucurbita moschata and C. pepo) for Cu and Sr, and those of orange daylily Hemerocallis fulva) for Ni. Potentially toxic elements are present at low concentrations, often below the limit of the detection for Cd, Co, Ni, V. In all samples, Cd and Pb are well below the maximum permitted levels in foodstuffs. It can be concluded that the edible flowers analyzed can be considered a good source of essential elements and do not present risks for the consumer health as for the mineral composition
Phytonutritional and aromatic profiles of Tulbaghia simmleri Beauv. edible flowers during cold storage
Edible flowers are appreciated due to their aesthetic features, nutritional value and antioxidant properties. Tulbaghia simmleri Beauv. (Amaryllidaceae family) flowers are characterized by a pleasant garlic taste and are consumed both as fresh and dried products. The aim of this work was to assess the effect of chilling temperature (+4°C) on the visual quality, nutritional content, and aroma profile of T. simmleri flowers after two (T2) and six (T6) days of storage. Colorimetric analysis highlighted a reduction in petal brightness at T6 and hence their darkening, due to a significant increase in a* coordinate and decrease in the b* one. Total polyphenols and flavonoids content remained unchanged until the end of the experiment, while total anthocyanins increased at T2. Flowers antioxidant activity (DPPH assay) decreased progressively during cold storage, while catalase (CAT) and ascorbate peroxidase (APX) activities increased. The aroma profile was analyzed by HS-SPME associated with GC-MS, underlining that fresh flowers were dominated by high content in monoterpenes (around 80%), with 1,8-cineol as main compound (53.1%). Cold storage reduced this class of volatiles while sesquiterpenes and non-terpenes increased; between them, benzyl benzoate reached 12%
Plant Production and Leaf Anatomy of Mertensia maritima (L.) Gray: Comparison of In Vitro Culture Methods to Improve Acclimatization
Mertensia maritima is a commercially interesting herb with edible leaves and flowers, characterized by oyster flavor and taste. Plant propagation and traditional cultivation are challenging for this species. Therefore, the main purpose of the present study was to establish successful protocols aimed at ensuring oyster plant shoot propagation, rooting and in vivo acclimatization. Both micropropagation and rooting were tested, comparing the traditional in vitro solid substrate in jar vs. the liquid culture in a temporary immersion system (TIS) bioreactor (Plantform\u2122). A Murashige and Skoog (MS) medium added with 4-\u3bcM thidiazuron (TDZ) and 1-\u3bcM \u3b1-naphthaleneacetic acid (NAA) was employed for micropropagation, while a half-strength MS medium supplemented with 4-\u3bcM indole 123-butyric acid (IBA) was used for rooting. Different acclimatization conditions in the greenhouse or in growth chamber were tested. Morphometric and microscopical analyses were performed on the oyster plant leaves at the propagation, rooting and acclimatization stages both in a jar and in a TIS. Micropropagation in a TIS allowed to obtain large shoots, while a great number of shoots was observed in the jar. M. maritima shoots rooted in TIS produced more developed roots, leaves with more developed waxy glands and well-formed stomata; moreover, the plants coming from the TIS showed the best acclimatization performance