Gamma irradiation-induced variability in morpho-agronomic and oil quality traits of Mentha piperita L.

PURPOSE: To develop elite mutant in Mentha piperita having morphotype and oil content of Mentha arvensis, and oil quality of M. piperita. MATERIALS AND METHODS: The dormant runner of menthol rich genotype MPK-5 were subjected to different doses of γ- irradiation (10, 20, 30, 50, 70, 90, and 110 Gy) at a dose rate of 55 Gy/min to induce the genetic variability for herb and oil yield as well as oil quality. A wide spectrum of variability for agro-morphological traits, herb yield, and quality profile was observed among the mutants. RESULTS: The developed and selected superior mutants viz. MPK-5(1) and MPK-5(3) have a mean herb yield potential of 23.923 and 21.503 Kg/9 m2; mean oil yield of 92.953 and 80.047 ml/plot; mean menthol content of 69.012% and 69.160% with mean menthofuran content of 1.554% and 0.531%, respectively. CONCLUSIONS: Mutational breeding through γ- irradiation is considered complementary to the conventional breeding method, to broaden the spectrum of genetic variability. The developed and selected mutants namely viz. MPK-5(1) and MPK-5(3) identified as promising mutants, based on herb yield, oil yield, and essential oil quality, could be used as a parental line for exploitation in hybridization program/recombinant breeding.

Weed interference with peppermint (Mentha x piperita L.) and spearmint (Mentha spicata L.) crops under different herbicide treatments: effects on biomass and essential oil yield.

BACKGROUND: 'Minor crops' such as spearmint and peppermint are high added value crops, despite the fact that their production area is comparably small worldwide. The main limiting factor in mint commercial cultivation is weed competition. Thus, field experiments were carried out to evaluate the effects of weed interference on growth, biomass and essential oil yield in peppermint and spearmint under different herbicide treatments. RESULTS: The application of pendimethalin and oxyfluorfen provided better control of annual weeds resulting in higher crop yield. Additionally, when treated with herbicides both crops were more competitive against annual weeds in the second year than in the first year. All pre-emergence herbicides increased biomass yield, since pendimethalin, linuron and oxyfluorfen reduced the density of annual weeds by 71-92%, 63-74% and 86-95%, respectively. Weed interference and herbicide application had no effect on essential oil content; however, a relatively strong impact on essential oil production per cultivated area unit was observed, mainly due to the adverse effect of weed interference on plant growth. CONCLUSION: Considering that pendimethalin and oxyfluorfen were effective against annual weeds in both spearmint and peppermint crops, these herbicides should be included in integrated weed management systems for better weed management in mint crops. © 2017 Society of Chemical Industry.

MAPK-mediated regulation of growth and essential oil composition in a salt-tolerant peppermint (Mentha piperita L.) under NaCl stress.

Peppermint (Mentha × piperita L.) is an important and commonly used flavoring agent worldwide, and salinity is a major stress that limits plant growth and reduces crop productivity. This work demonstrated the metabolic responses of essential oil production including the yield and component composition, gene expression, enzyme activity, and protein activation in a salt-tolerant peppermint Keyuan-1 with respect to NaCl stress. Our results showed that Keyuan-1 maintained normal growth and kept higher yield and content of essential oils under NaCl stress than wild-type (WT) peppermint.Gas chromatography-mass spectrometry (GC-MS) and qPCR results showed that compared to WT seedlings, a 150-mM NaCl stress exerted no obvious changes in essential oil composition, transcriptional level of enzymes related to essential oil metabolism, and activity of pulegone reductase (Pr) in Keyuan-1 peppermint which preserved the higher amount of menthol and menthone as well as the lower content of menthofuran upon the 150-mM NaCl stress. Furthermore, it was noticed that a mitogen-activated protein kinase (MAPK) protein exhibited a time-dependent activation in the Keyuan-1 peppermint and primarily involved in the modulation of the essential oil metabolism in the transcript and enzyme levels during the 12-day treatment of 150 mM NaCl. In all, our data elucidated the effect of NaCl on metabolic responses of essential oil production, and demonstrated the MAPK-dependent regulation mechanism of essential oil biosynthesis in the salt-tolerant peppermint, providing scientific basis for the economic and ecological utilization of peppermint in saline land.

Metabolite profile, antioxidant capacity, and inhibition of digestive enzymes in infusions of peppermint (Mentha piperita) grown under drought stress.

Peppermint (Mentha piperita) infusions represent an important source of antioxidants, which can be enhanced by inducing abiotic stress in plants. The aim of this study was to evaluate the effect of drought stress on peppermint cultivation as well as the metabolite profile, antioxidant capacity, and inhibition of digestive enzymes of resulting infusions. At 45 days after planting, irrigation was suppressed until 85 (control), 65, 35, 24, and 12% soil moisture (SM) was reached. The results showed that 35, 24, and 12% SM decreased fresh (20%) and dry (5%) weight. The 35 and 24% SM treatments significantly increased total phenolic and flavonoid contents as well as antioxidant capacity. Coumaric acid, quercetin, luteolin, and naringenin were detected only in some drought treatments; however, in these infusions, fewer amino acids and unsaturated fatty acids were identified. The 24 and 12% SM treatments slightly improved inhibition of pancreatic lipase and α-amylase activity. Therefore, induction of moderate water stress in peppermint is recommended to enhance its biological properties.

Reguladores de crescimento vegetal no cultivo in vitro de Mentha x Piperita L / Plant growth regulators on in vitro culture of Mentha x piperita L

A micropropagação é uma técnica muitas vezes indicada para a multiplicação em larga escala de plantas com propriedades medicinais. Dentre elas, destaca-se a hortelã-pimenta (Mentha x Piperita L.), cujo óleo essencial é utilizado no tratamento de transtornos digestivos e respiratórios. Para otimizar o protocolo de micropropagação dessa espécie são necessários estudos, principalmente quanto à suplementação do meio de cultura para garantir a produção massal in vitro e posterior extração do óleo essencial. Nesse contexto, objetivou-se avaliar o efeito de concentrações e combinações de reguladores de crescimento vegetal na morfogênese in vitro de hortelã-pimenta. Segmentos nodais provenientes de plântulas estabelecidas in vitro foram utilizados como fonte de explante e inoculados em meio de cultura MS suplementado com 0; 2,0 e 4,0 mg L-1 de BAP (6-benzilaminopurina), 0; 0,5 e 1,5 mg L-1 de ANA (ácido naftaleno-acético) e 0; 0,5 e 1,0 mg L-1 de GA3 (ácido giberélico). O delineamento experimental adotado foi inteiramente casualizado, com os tratamentos distribuídos em esquema fatorial 3x3x3 com oito repetições. Concluiu-se que o BAP favoreceu a sobrevivência de segmentos nodais de M. x Piperita inoculados in vitro e, quando combinado ao GA3, promoveu a brotação dos explantes. Essas características, no entanto, não foram estimuladas pela adição de ANA ao meio de cultura. Conclui-se que após a multiplicação dos brotos in vitro estes devem ser transferidos para meio sem reguladores para seu desenvolvimento. Apesar dos efeitos benéficos do BAP na organogênese de M. x Piperita, elevadas concentrações deste regulador de crescimento vegetal promoveram a formação de calos.

Micropropagation is a technique used for the large-scale production of medicinal plants. Among them, peppermint (Mentha x piperita L.) may be mentioned because of the pharmacological importance of its essential oil, which is used on the treatment of digestive and respiratory disorders. Studies are needed in order to optimize the micropropagation protocol of this species, especially concerning the culture medium, to ensure the in vitro mass clonal production and to enable the future extraction of the plant essential oil. Therefore, this work aimed to evaluate the effects of concentrations and combinations of different plant growth regulators on the in vitro morphogenesis of peppermint. Nodal segments from plantlets already established in vitro were used as explants and inoculated on MS medium supplemented with 0, 2.0 and 4.0 mg L-1 of BAP (6-benzylaminopurine), 0, 0.5 and 1.5 mg L-1 of NAA (naphthalene acetic acid) and 0; 0.5 and 1.0 mg L-1 of GA3 (gibberellic acid). The experiment was in a completely randomized design, set up as a 3x3x3 factorial design with eight replicates. We concluded that BAP increases the survival rate of in vitro inoculated nodal segments of M. x piperita. In addition, its combination with GA3 stimulates explants shooting. Those aspects, however, are not promoted by the addition of NAA into the culture medium. Also, the results indicate that, after in vitro multiplication, peppermint shoots must be transferred to another medium without plant growth regulators for shoot elongation. High concentrations of BAP promote calli induction, despite having beneficial effects on the organogenesis of M. piperita.

Determination of polyphenols in Mentha longifolia and M. piperita field-grown and in vitro plant samples using UPLC-TQ-MS.

Nine polyphenols in the aerial parts of Mentha longifolia have been separated by chromatographic techniques. Their structures have been confirmed by HPLC/electrospray ionization-MS/MS. The compounds identified included rosmarinic acid, salvianolic acid L, dedihydro-salvianolic acid, luteolin-glucuronide, luteolin-diglucuronide, luteolin-glucopyranosyl-rhamnopyranoside, and eriodictyol-glucopyranosyl-rhamnopyranoside. The extracts of M. longifolia and M. piperita field plants, in vitro plants, callus tissues, and cell suspension cultures were profiled, and their polyphenol composition was compared in different tissues and quantified using ultra-performance column liquid chromatography (UPLC)/triple-quadrupole-MS in the selected-ion recording detection mode. Determination of desired compounds was based on calibration curves obtained for standards, which were previously isolated from M. longifolia aerial parts. The UPLC profiles revealed considerable differences in the synthesis of secondary metabolites among samples coming from field plants, in vitro plants, callus tissues, and cell suspension cultures. Plant tissues coming from field cultivation (for both M. piperita and M. longifolia) contained several phenolic compounds (flavonoids and phenolic acids), whereas plants from in vitro conditions, callus tissues, and suspension cultures contained only a few of them. Rosmarinic acid dominated in all of these samples. These results show that under in vitro conditions, the metabolism of phenolics undergoes a fundamental change.

Citocininas na multiplicação in vitro de hortelã-pimenta (Mentha x Piperita L. ) / Cytokinins on in vitro multiplication of peppermint (Mentha x Piperita L. )

O hortelã-pimenta é um hibrido triplo, Mentha x piperita, utilizado de forma medicinal no tratamento de náuseas, cólicas gastrointestinais, flatulências, cálculos biliares, icterícia, ansiedade, expectoração e expulsão de vermes intestinais. Na micropropagação, o BAP (6-benzilaminopurina) e KIN (cinetina) têm sido as fontes de citocininas mais empregadas. O objetivo deste trabalho foi avaliar o efeito de reguladores vegetais na multiplicação in vitro de hortelã-pimenta. Explantes constituídos de segmentos nodais provenientes de plântulas já estabelecidas in vitro com aproximadamente 0,5 cm foram inoculados em meio MS, suplementado com diferentes associações de BAP e KIN, em adição de 30 g L-1 de sacarose. As concentrações de citocininas utilizadas foram 0,0; 1,0 e 2,0 mg L-1 de BAP e 0,0; 0,5 e 1,0 mg L-1 de KIN. O delineamento experimental foi o inteiramente casualizado, com nove tratamentos consistindo de cinco frascos cada um, sendo que cada frasco continha quatro explantes. A utilização de 2,0 mg L-1 de BAP promove a multiplicação in vitro de hortelã-pimenta, porém, diminui o índice de sobrevivência. O uso de citocininas aumenta a massa fresca e seca dos explantes e a ausência destes reguladores propicia o alongamento nesta espécie.

Peppermint is used for medical treatments of nausea, gastrointestinal cramps, flatulence, gallstones, jaundice, anxiety, sputum and expulsion of intestinal worms. In micropropagation, BAP (6-benzylaminopurine) and KIN (kinetin) have been the most widely used sources of cytokinins. The aim of this study was to evaluate the effect of plant growth regulators in multiplication of peppermint. Explants consisting of nodal segments from seedlings already established in vitro with approximately 0,5 cm were inoculated on MS medium supplemented with different combinations of BAP and KIN and 30 g L-1 of sucrose. The concentrations of cytokinins used were 0,0; 1,0 and 2,0 mg L-1 of BAP and 0,0; 0,5 and 1,0 mg L-1 of KIN. The experiment was set up in a completely randomized design with nine treatments consisting of five bottles each, and each vial contained four explants. The use of 2,0 mg L-1 of BAP promotes the in vitro multiplication of peppermint, but decreases the survival rate. Cytokinins increase fresh and dry weight of explants and the absence of these regulators provides the elongation in this specie.

Effect of harvest time and drying method on biomass production, essential oil yield, and quality of peppermint (Mentha x piperita L.).

In the period from 2000 to 2002, studies on peppermint (Mentha x piperita) herb and essential oil (EO) production have been conducted at Planteforsk, Apelsvoll Research Centre Div. Kise in Norway. The trials were aimed at finding the optimal harvest date and suitable drying methods to maximize EO yield and to obtain a desirable oil quality. Peppermint plants from the first production year (2000 and 2001) and the second production year (2002) were harvested during flowering at three developmental stages (early, full, and late bloom). Biomass and leaf production were recorded, and the water content of the plant material was detected after the application of different drying methods: instantaneous drying at 30, 50, and 70 degrees C and prewilting (ground drying) for 1 or 5 days followed by final drying at 30 degrees C. Finally, plant samples were transferred to The Plant Biocentre at NTNU, Trondheim, Norway, for hydrodistillation and gas chromatography-mass spectrometry (GC-MS) analyses of the EOs. Peppermint oil yield increased from early to full bloom and late bloom (average of all years and drying methods except for 50 and 70 degrees C: 2.95, 4.13 and 4.20 L/daa, respectively) as an effect of biomass production and leaf growth. The flavor-impact compounds, menthol and menthone, reached their optimum at full bloom (43-54 and 12-30%, respectively). Prewilting led to slight decreased EO levels after 1 day (7.7%) and 5 days of ground drying (1.5%) and no EO quality changes, compared to direct drying at 30 degrees C. The plant weight (H2O content) was drastically decreased to the average under 80 and 45% in all years, thus reducing the energy supply and costs for the necessary final drying step.