Photosynthetic responses of durum wheat to chemical/microbiological fertilization management under salt and drought stresses

AbstractThe current research was carried out to evaluate the stress tolerance potential of durum wheat plants, in response to the inoculation of native plant growth-promoting bacteria (PGPB), through assessing PSII photochemistry and photosynthetic traits, as well as grain yield and plant height, and to investigate the possibility of using PGPB as a sustainable alternative or in combination with traditional fertilization plans. A greenhouse experiment included chemical/microbiological fertilization and stress (salinity and drought) treatments. The results indicated that the application of bacterial consortium of four PGPB markedly augmented some biochemical and functional traits in photosystem II, such as effective quantum yield of PSII photochemistry (Y(II)), electron transport rate of PSII (ETR), photosynthesis capacity, transpiration rate and stomatal conductance in unstressed plants, and prevented severe changes in the mentioned traits under drought and salinity conditions. The application of PGPB contributed to enhanced grain yield, too. Furthermore, a better performance of the PGPB inoculation was found in combination with half-dose of the recommended chemical fertilizers. In conclusion, PGPB inoculants maintain or improve the photosynthesis efficiency of durum wheat, grain yield and plant height, particularly under stress conditions, and can help to minimize the consumption of chemical fertilizers

Supplementary Far-Red Light Did Not Affect Tomato Plant Growth or Yield under Mediterranean Greenhouse Conditions

In the Mediterranean region, tomato plants are often cultivated in two short cycles per year to avoid the heat of summer and the low solar radiation of winter. Supplementary light (SL) makes it possible to cultivate during the dark season. In this experiment, a tomato F1 hybrid cultivar DRW7723 was cultivated in a greenhouse for a fall-winter cycle. After transplant, light emitting diode (LED) interlighting, with two light spectra (red + blue vs. red + blue + far-red) was applied as SL. Plant growth, yield, gas exchange, nutrient solution (NS) consumption, and fruit quality were analyzed. In general, the eects of adding far-red radiation were not visible on the parameters analyzed, although the yield was 27% higher in plants grown with SL than those grown without. Tomatoes had the same average fresh weight between SL treatments, but the plants grown with SL produced 16% more fruits than control. Fruit quality, gas exchange and NS uptake were not influenced by the addition of far-red light. Interlighting is, therefore, a valid technique to increase fruit production in winter but at our latitude the eects of adding far-red radiation are mitigated by available sunlight

Nutritional characterization and shelf-life of packaged microgreens

Comprehensive nutritional profile of six microgreens, including proximate composition and bioactive compounds

Optimising Sowing Density for Microgreens Production in Rapini, Kale and Cress

Microgreens represent a valuable agrifoods niche. Their cropping cycle is shorter than that of baby leaf greens, but the sowing density is typically much higher, and this has important cost implications for the grower. The current research demonstrates that the choice of sowing density strongly influences yield, as well as developmental stage and other quality parameters. Results also depended on the choice of the species and landrace. Considering the cost of seed, the option of accessing locally available landraces becomes particularly intriguing, again with relevant implications in choosing seed density. Rapini (landraces Cima grande and Fasanese), kale (landraces Barese and Altamura), and commercial cress were grown in an indoor environment. The effects of the three sowing densities (from 3 to 5 seeds∙cm−2) and the growing cycle (earlier harvest, 11 days from sowing, or later harvest, 14 days from sowing) on the microgreen yield and quality were studied. Sowing density affected yield (+19% at highest vs. lowest density), dry matter (but only with a longer cycle, and variable by landrace, with Fasanese rapini landrace 7% more than the Cima grande landrace), developmental stage, and soil coverage. The effects of sowing density can be modulated by cycle duration. Crop heights were 25% and 44% greater for the longer cycle of the Cima grande and Fasanese rapini landraces, respectively. In conclusion, the choices of the species/landrace and seed density must be carefully evaluated given costs and outcomes, with potential for the production of different final products (e.g., microgreens at earlier or later stages, other characteristics) and also for control over costs

Due espressioni dell’agrobiodiversità in orticoltura: germogli e microortaggi

Sprouts and microgreens represent a growing market segment within vegetable products. The category of sprouts is legally defined. The production and commercialization of sprouts must comply with strict regulations. Given their short growth cycle, sprouts are usually grown in the dark, without a growing medium, fertilizers and agrochemicals. Their edible portion is constituted by the entire sprout, including the rootlets. From a biological point of view, the sprout represents the first stage of growth of a plant that starts from seed germination. On the other hand, “microgreens” is a marketing term used to describe a category of product that has no legal definition. They differ from sprouts because they require light, a growing medium, and have a longer growth cycle; the edible portion consists in the single stem, the cotyledon leaves and, often, by the emerging first true leaves. Both sprouts and microgreens are mainly consumed as raw products, they have good nutritional value and sensory traits. An important qualitative aspect of these vegetable crops is their microbiological safety, especially in the case of sprouts. In this review we discuss several aspects of sprouts and microgreens, their potential in terms of preservation and enhancement of biodiversity, as well as research and development prospects of those products in horticulture. Sprouts and microgreens represent two further expressions of biodiversity in vegetable production, supplementary to the genetic diversity (inter- and intra-specific) and diversity of the agro-ecosystems. Although the seeds of several cultivar are available on the market, the species and local varieties potentially useful for the production of sprouts and microgreens are numerous, and the vast heritage of agro-biodiversity of each geographical area may represent an extraordinary resource to be explored. Therefore, sprouts and microgreens can contribute to preserve and give value to many landraces that are at risk of genetic erosion or extinction, offering an opportunity to recover and use such genetic material. Moreover, landraces and wild species, are often characterized by a higher nutrient density as compared to commercial improved varieties, widely grown at global level, and represent a good source of vitamins, essential micronutrients and other phytonutrients. In conclusion, the production of sprouts and microgreens from local varieties and wild edible species may provide novel and nutritious food, which can satisfy the demand of modern consumers.Germogli e microortaggi rappresentano due espressioni della biodiversità in orticoltura, che si aggiungono a quelle legate alla diversità genetica (inter- e intra-specifica) e alla diversità degli agroecosistemi. Sono due categorie di prodotti orticoli con peculiari caratteristiche organolettiche e nutrizionali che, tuttavia, si distinguono sia dal punto di vista biologico, sia per quanto concerne l’inquadramento merceologico. Dopo un’introduzione di carattere generale, in questo contributo vengono illustrate le specie utilizzate per la produzione di germogli e micro ortaggi, le caratteristiche nutrizionali, la tecnica di produzione, la qualità e la sicurezza alimentare, nonché le prospettive di ricerca e sviluppo di tali prodotti nel settore orticolo, con particolare riferimento al potenziale di salvaguardia e valorizzazione delle varietà locali e specie eduli spontanee

Comparison between Chemical Fertilization and Integrated Nutrient Management: Yield, Quality, N, and P Contents in Dendranthema grandiflorum (Ramat.) Kitam. Cultivars

To assess the effects of a new integrated nutrient management protocol on yield and cut stem quality, root morphology, N accumulation, nitrogen utilization efficiency (NUE), and P content in tissue, a biennial (2011 and 2012) chrysanthemum cut flower cultivation was carried out. In both years, two nutrition management (CNM: conventional NM and INM: integrated NM) treatments and two Dendranthema grandiflorum (Ramat.) Kitamura cultivar (“White CV1” and “Yellow CV2”) treatments were compared. The treatments were arranged in a split-plot design with three replicates. CNM was fertilized using a recommended dose fertilization of mineral NPK; INM treatment was fertilized using a half dose (50%) of CNM plus a combined usage of N organic fertilizer, seaweed extract (Ascophyllum nodosum), and microrganism consortium (Glomus sp. and Bacillus sp.). Yield at harvest (+19%), number of leaves (+33%), leaf area (+46%), number of flower heads (+27%), and total aboveground dry weight (+40%) were significantly increased by the INM application compared to the control. In terms of the root system, the increase was evident in terms of length (+174%), volume (+167%), projected area (+166%), and surface area (+165%), tips (+175%), forks (+285%), and crossings (+464%). The greatest N accumulation, in both years, was registered by INM treatment at harvest: +94% in 2011 and +55% in 2012. Differences in the NM were evident in the NUE, which was highest in CNM (on average 162) compared to INM (on average 142). In both years the P content in above-ground chrysanthemum tissues was in the order of head > leaves > stems, which was maintained in both INM and CNM treatments. A higher yield (138 stems m−2) was obtained in “CV2 Yellow” compared to “CV1 White” (120 stems m−2). Based on our findings, applying INM to chrysanthemum improves yield, cut flower quality, and plant nutrient uptake, in an agro–environmentally sustainable way. A basic economic analysis on fertilizers, cost gross production, and takings difference obtained, was carried out

Phytotoxic Effects of Retentates Extracted from Olive Mill Wastewater Suggest a Path for Bioherbicide Development

The aim of this study was to screen the phytotoxicity of different retentates concentrated in polyphenols and extracted from olive mill wastewater (OMW), namely, nano filtration retentate (RNF) and inverse osmosis retentate (ROI). The activity of both retentates was evaluated using bioassays on dry seeds (with concentrations of 0.0, 0.1, 0.5, 1.0, 5.0, and 10.0% and compared with CaCl2 solutions to evaluate the salinity effects), on germinated seeds (with concentrations of 0.0, 5.0, and 10.0%), and on the emergence of seedlings from the soil (with concentrations of 0.0, 5.0, and 10.0%). Three indicator plant species were used: Lepidium sativum L. (cress), Solanum lycopersicum L. (tomato), and Triticum turgidum subsp. durum Desf. (durum wheat). The results were expressed as the germination rate or emergence rate (GR or ER, respectively) and as the average germination time or average emergence time (AGT or AET, respectively) depending on the bioassays. Salinity showed a certain effect on the GR. Total or near-total inhibition of germination was obtained with the highest concentrations (5.0–10.0%). The dose of 1.0% of RNF and that of 0.5% of ROI caused delays in the germination of cress. The germination of tomato was delayed by RNF and ROI at concentrations of 0.5% and 1.0%. The AGT of durum wheat was not affected by RNF, but was slightly affected by ROI. The development of the seedlings was inhibited by both retentates. The results in the Petri dishes were also confirmed in pots. Retentates could be evaluated as a basis for the development of bioherbicides

Microgreens production with low potassium content for patients with impaired kidney function

Chronic kidney disease represents a global problem together with other so-called ‘lifestyle-related diseases’. Unlike the healthy population, for the patients with impaired kidney function, it is of course prudent to recommend a restriction of high-potassium foods. Thus, it is suggested to limit the consumption of vegetables, because they generally contain high concentrations of potassium. At the same time, a lower consumption of vegetables reduces the intake of healthy compounds such as vitamins, fibers, and antioxidants, which also reduces the vegetables’ potential benefit in chronic kidney disease patients. Microgreens are an emerging class of specialty crop that represent a nutritious and refined food. In this study, for the first time, some chicory (local variety ‘Molfetta’ and cultivar ‘Italico a costa rossa’) and lettuce (cultivar ‘Bionda da taglio’) genotypes were grown using a hydroponic system with different potassium (K) levels (0, 29.1, 58.4, and 117 mg L−1) in order to produce microgreens with a low potassium content. The crop performances, cations content, proximate composition, and antioxidant activity were analyzed. Independent of the genotype, the K content in the microgreens was successfully reduced using a nutrient solution (NS), without K or with 29.1 mg K L−1, which supplied between 103 and 129 mg of K 100 g−1FW (about 7.7–8.6% of the K daily intake that was recommended for the patients that were affected by chronic kidney disease). Whereas, 100 g of microgreens that were grown by using an NS with 58.4 or 117 mg K L−1supply between 225 and 250 mg of K (about 15.8–16.5% of the K daily intake recommended for patients affected by chronic kidney disease). No differences were observed in terms of the shoot height, dry matter, proximate composition, and visual quality. A slightly lower yield was observed using an NS with a K concentration <58.4 mg L−1. These results suggest that by using an NS without K or with low K concentrations, it is possible to obtain a useful reduction of K in microgreens, without negatively affecting the quality. Unlike conventional vegetables, the microgreens that were produced in the present study could reduce the potassium intake in patients with impaired kidney function who were accustomed to eating vegetable-based dishes

Culinary Assessment of Self-Produced Microgreens as Basic Ingredients in Sweet and Savory Dishes

“Microgreens” is a marketing term used to describe young and tender edible seedlings. In this work, a new culinary concept was developed to stimulate the culinary use of self-produced microgreens as basic ingredients of sweet and savory dishes. The production of microgreens in a soilless growing system was considered as a preliminary part of the culinary process for the dishes’ preparation. In order to obtain customized microgreens for the culinary assessment, three different species were self-produced. As a result of the pilot consumer test, all species of microgreens resulted acceptable. A gastronomic session was also applied to develop some dishes using microgreens in the recipe. The culinary promotion of self-produced microgreens not only as garnishing greens may offer to the international gastronomy new ingredients and support the exploitation of local varieties and wild edible plants

Yield and Quality of Faba Bean (Vicia faba L. var. major) Genotypes as a Vegetable for Fresh Consumption: A Comparison between Italian Landraces and Commercial Varieties

Legumes crops play significant roles both in human diets and agriculture, and contribute to sustainable farming. In this study, we evaluated both some quality traits and yield of four landraces (Cegliese, Iambola, San Francesco, and FV5) of faba bean (Vicia faba L. var. major Harz) for fresh consumption in order to assess and distinguish the landraces also in comparison with two commercial varieties (Aguadulce supersimonia and Extra-early purple) by using a crop system without irrigation. Independently of the genotype, we obtained the same pods yield (1794 g/m2) without affecting the seed size. All genotypes can be considered a good source of vitamin C, although Extra-early purple and San Francesco reveal the highest content (703 and 646 mg /100 g fresh weight—FW, respectively). Cegliese showed the highest L-dopa content (10.14 mg /00 g FW), suggesting its use as a natural rich source of L-dopa (dopamine precursor used for Parkinson’s disease treatment) instead of using synthesized L-dopa. In conclusion, this study highlight interesting quality traits of faba bean when consumed as fresh vegetables, suggesting its positive role on human health and the possibility of its production by using local horticultural systems that are skilled in optimizing resource utilization