Hybrid mint plant named ‘Neerkalka’

Information

  • Patent Grant
  • PP12030
  • Patent Number
    PP12,030
  • Date Filed
    Wednesday, September 2, 1998
    26 years ago
  • Date Issued
    Tuesday, August 7, 2001
    23 years ago
  • US Classifications
    Field of Search
    • US
    • PLT 259
  • International Classifications
    • A01H500
Abstract
The present invention relates to the development of a new and distinct interspecific mint hybrid ‘Neerkalka’ developed by sexual crossing between improved Mother plant Mentha arvensis (cv Kalka) and pollen plant Mentha spicata (cv Neera), which hybrid is propagated vegetatively by suckers or stem cuttings and is stable for commerical cultivation.
Description




FIELD OF THE INVENTION




The present invention relates to a new and distinct interspecific hybrid mint plant namely ‘Neerkala’ which is developed by sexual crossing between improved


Mentha arvensis


(cv Kalka) and


Mentha spicata


(cv Neera). The hybrid is propagated vegetatively by suckers or stem cutting and is stable for commercial cultivation.




BACKGROUND OF THE INVENTION




Plants of the mint species are cultivated world wide for their specific mint aroma, which find uses in the culinary, antiseptic, confectionery and flavoring purposes. The distinct taste and aroma originating from the essential oils of different species in Mentha genus determine their specific use. The natural cross compatibility occurs between the species although manual emasculation and pollination is impeded due to extremely small size of the florets.


Mentha cardiaca


seems to have originated as a naturally occuring species believed to originate from the hybridization of


M. arvensis


and


M. spicata. Mentha arvensis


which is cultivated for mint oil has several widely adopted cultivars with superior agronomic traits. The variety ‘Kalka’ is one of the best cultivars grown widely by the farmers of India. Similarly,


Mentha spicata


cultivars released by Central Institute of Medicinal and Aromatic Plants (CIMAP), Lucknow, India, are widely adopted by the farmers for superior spearmint oil quality. One such cultivar is


Mentha spicata


‘Neera’ or CIMAP/‘Neera’ which is distinctly different in its RAPD pattern from other available genotypes/varieties. It is known for its profuse flowering and seed setting habit. As such, the Applicants have combined the characters of these two mint species (


Mentha arvensis


and


Mentha spicata


) and developed a hybrid herb (


Mentha arvensis×M. spicata


) ‘Neerkalka’ which has high yield, desirable oil quality for various herbal uses like chewing gums, toothpaste etc. The selected hybrid clone retains the profuse growth habit of


Mentha arvensis


simultaneously expressing the “carvone type” mint oil characteristics of


Mentha spicata


and possesses the phenotype tending towards another naturally occuring species believed to originate from the hybridization of


M. arvensis


and


M. spicata


. The hybrid plant is more commercially acceptable due to its more favorable argonomic traits.




SUMMARY OF THE INVENTION




Accordingly, the present invention provides stable commercially cultivable hybrid mint plant ‘Neerkalka’ providing high herb yield, high oil yield and spearmint oil type with menthol tinge, which plant is developed by sexual crossing between improved


Mentha arvensis


(cv Kalka) and


Mentha spicata


(cv Neera).




DETAILED DESCRIPTION OF THE PRESENT INVENTION




The interspecific hybrid ‘Neerkalka’ has been developed by the Applicants by pollinating


Mentha arvensis


(cv Kalka) with pollen from


Mentha spicata


(cv Neera). The Applicants planted the parent plants


Mentha arvensis


(cv Kalka) and


Mentha spicata


(cv Neera) in alternate rows to favor crossing between them. The flowers of


Mentha arvensis


were dusted with the pollen collected from


Mentha spicata


flowers at regular intervals. The Applicants intention was to combine the better growth, menthol smell and disease resistance characters of Japanese mint with the carvone smell of spearmint to create a novel oil quality which can be more acceptable in pharmaceutical as well as confectionery industries. The mint species used as parents, were selected from the varieties already released by CIMAP and well accepted by the farmers and industries. The plants were grown at Pantnagar, India, in plots of 5 m×5 m. As the hybrid can reproduce vegetatively by vigorous suckers and the genotypic characters are firmly fixed, the genotype can be of immense importance as improved variety. Hence, the novelty of the invention is that the hybrid was developed from improved varieties of CIMAP which are well characterized for their genotypes. The hybrid plant thus produced has more biomass and oil yield (carvone based) than the parent


Mentha spicata


and the natural hybrid


Mentha cardiaca. The hybrid plant ‘Neerkalka’ is the distinct hybrid developed by the inventors through sexual crossing between female parent




Mentha arvensis


(cv Kalka) and pollen donor


Mentha spicata


(cv Neera) whereas


Mentha cardiaca


(Syn.


Mentha gracilis


cv Cardiaca) is believed to have originated in nature by natural crossing between


Mentha arvensis


and


Mentha spicata


. In other words, the rationale behind the present invention was to combine the characters of two known mint species available with them, in a directed manner to yield a plant of high herb yield, high oil yield and spearmint oil type with menthol tinge.




Accordingly, the invention provides a novel hybrid plant


Mentha arvensis×M. spicata


‘Neerkalka’ having the following combination of characters:




a. The said hybrid is a cross between female parent


Mentha arvensis


(cv Kalka) and pollen donor


Mentha spicata


(cv Neera),




b. The said hybrid is tolerant to leaf spot, rust and powdery mildew diseases,




c. The said hybrid contains both menthol and carvone in the essential oil,




d. The said hybrid produces more biomass and oil in comparison to


Mentha spicata


and


Mentha cardiaca


cultivars ‘Neera’ and ‘MCAS 2’,




e. The hybrid genotype has a unique RAPD profile, and




f. It has a pleasant smell of both carvone and menthol useful in medicinal and aromatic preparations.




In an embodiment, the present invention provides a hybrid yielding spearmint oil having the following ingredients: Limolene (6.8-23.2%), Menthol (0.66-2.45%), Carvone (64.0-76.1%) and other unidentified fractions in the essential oil totaling to 100%.











BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS





FIG. 1

is a photograph of a stem of the hybrid, ‘Neerkalka’ showing the size and color of the leaves.











BREEDING HISTORY




The new hybrid clone of the present invention is the mint plant developed in planned breeding programs conducted at Central Institute of Medicinal and Aromatic Plants (CIMAP), Lucknow, India and its field station Pantnagar, India. The early steps of development, such as crossing of parent lines, were conducted in CIMAP, Lucknow. The field trials were conducted at the field station at Pantagar, India.




The plant of the present invention has been asexually reproduced in the following manner. Generally, Mentha species are cultivated through suckers as normal mode of asexual commercial propagation. Suckers are the underground plant part which give rise to similar plantlets when planted in the field. The hybrid plant ‘Neerkalka’ produces enough suckers for asexual propagation. The stems of the plants were planted in the month of October in the field at CIMAP. The plants were established which produced underground suckers. These suckers were then planted in the main field in the month of January for trial.




The breeding method involved is of cross pollination of


Mentha arvensis


(cv Kalka) florets with


Mentha spicata


(cv Neera) pollen and the seeds thus obtained, were collected upon maturation. Out of a total of 260 seedlings raised from the hybrid seeds borne on the


Mentha arvensis


(cv Kalka), a single distinct plant nearing


Mentha cardiaca


phenotype including oil aroma was observed and subsequently selected. This selected plant which was propagated and multiplied vegetatively many times later, is the hybrid clone of the present invention, designated as ‘Neerkalka’ and referred as “hybrid” hereafter.




Since the florets of


Mentha arvensis


and


Mentha spicata


are very small in size, the manual emasculation and pollination are extremely difficult to achieve. To overcome this problem of controlled pollination, the approach of developing hybrid seeds was modified towards increasing the incidence of natural crossing between restricted parents only. For this purpose, the selected parents


Mentha arvensis


(cv Kalka) and


Mentha spicata


(cv Neera) were raised in alternate rows (2:1::Kalka:Neera) in the field from the genetically pure suckers (maintained in the breeder's plot in isolation). The plants raised in this way were grown to flowering. Natural crossing between these parents was allowed to occur but simultaneously the florets of


Mentha arvensis


were repeatedly dusted with


Mentha spicata


pollen collected manually. Seeds were collected from


Mentha arvensis


(Kalka) and bulked. Similarly, seeds from


Mentha spicata


(Neera) florets were collected. The bulked seeds were grown separately in flat earthen pots during winter. A total of 260 seedlings could be raised from the seeds collected from the florets of


Mentha arvensis


, whereas about 290 seedlings were obtained from


Mentha spicata


, which were raised successfully in individual pots. The seedling from


Mentha spicata


were almost alike in morphology as compared to the parental phenotype (Neera) and possessed similar carvone rich smell. All the seedlings from


Mentha arvensis


except one, resembled the morphology of


Mentha arvensis


(cv Kalka) and had menthol aroma. There was an exeptional single seedling resembling the cv Kalka growth habit with a carvone rich aroma supplemented with a menthol tinge, and thus having a pleasant novel combination in the essential oil. The distinct plant showed morphology approaching towards another species


Mentha cardiaca


but for growth properties, leaf size and herbage yield, it resembled


Mentha arvensis


(cv Kalka). The size and colour of the leaves in the hybrid are similar to


Mentha arvensis


(cv Kalka) whereas, the shape resembles the pollen parent


Mentha spicata


(cv Neera) (Photograph #1). There are 2 leaves at each mode, 4 at the apex, and the leaves are arranged in opposite decussate phyllotaxy. The aroma of the oil was predominantly like that of the pollen parent while the menthol tinge it possessed was inherited from the female parent; thus the plant with recombined character was named “Neerkalka”. The two parental species, the hybrid and


Mentha cardiaca


were grown (planting date 18


th


Jan., 1996) from pure suckers side by side in different plots and were compared among each other for the morphological characters. The plants species were grown at 150:30:30 (N


2


:P


2


O


5


K


2


O) urea, SSP, MOP fertilizer dose and harvested 110 days after planting to compare the yield attributes. The comparison of some of the characters are presented in Table 1. The color codes are according to The R.H.S. Colour Chart published by The Roal Horticultural Society, 80 Vincent Square, London SW1P 2PE, 1995.




EVIDENCE OF UNIFORMITY AND STABILITY




The genotype Neerkalka has remained stable and uniform for its morphological characters and showed consistency in performance for various quality attributes during its evaluation and vegetative multiplication till date.












TABLE 1











Characteristics of cv Neera, cv Kalka, cv MCAS2 and the newly






developed hybrid clone Neerkalka of Mentha.
















Hybrid






M. spicata






M. arvensis




M. cardiaca






Traits




(Neerkalka)




(Neera)




(Kalka)




(MCAS 2)









1. Plant height




56.8 ± 2.13




52.4 ± 2.10




97.0 ± 2.16




48.6 ± 2.20






(cm)






2. Leaf length




7.42 ± 0.40




2.34 ± 0.16




9.90 ± 0.37




6.31 ± 0.32






(cm)






3. Leaf width




2.66 ± 0.18




0.18 ± 0.14




2.66 ± 0.10




1.12 ± 0.10






(cm)






4. Leaf colour




green




green




green




green







(137A)




(137B)




(137C)




(137D)






5. Leaf shape




green




green




green




green







(137A)




(137B)




(137C)




(137D)






6. Hairiness




hairs on the




hairs on the




hairs on the




hairs on the







veins,




veins,




veins,




veins,







glabrous




glabrous




glabrous




glabrous






7. Leaf margin




finely sharp




normal




normal




finely sharp







serration




serration




serration




serration






8. Stem colour




green (144C)




green (144C)




green (144D)




green (144C)







with purple




with purple




with purple




with purple







pigments at




pigments at




pigments at




pigments at







the base




the base




the base




the base







(186C)




(186D)




(186C)




(186C)






9. Influore-




racemose of




idefinite




racemose of




racemose of






scence




axillary




racemose




axillary




axillary







verticicil-





verticicil-




verticicil-







lasters





lasters




lasters






10. Flower




whitish




whitish




whitish




whitish






colour




purple (69D)




purple (69D)




purple (69D)




purple (69D)










with purple










tinge (73B)






11. Single plant




184.4 ±




73.4 ± 3.27




208.0 ±




173.4 ±






weight (g)




2.11





4.77




3.05






12. Leaf: Stem




0.61 ± 0.03




0.54 ± 0.01




0.90 ± 0.01




0.58 ± 0.02






13. Herbage




128




80




165




94






yield (Quintal/






hectare)






14. Oil




0.80




0.60




0.80




0.64






content (%)






15. Oil yield




102.4




48.0




132.0




60.2






(kg/hectare)






16. Oil aroma




carvone




carvone




menthol




carvone







based with




based




based




based







menthol







tinge






17. Growth




semi




prostate




erect




erect






habit




prostate














The hybrid is resistant to leaf spot, rust and powdery mildew, when planted in the infected field. Only 0-4 plants in the field of 2000 were observed to developed these diseases in separate trials. These resistant characters are apparently inherited from the parent


M. arvensis


(cv Kalka). Till date the hybrid has shown stability in morphological characters, herbage and oil yield. The genotype has aggressive suckers, growing under the soil surface to provide protection from adverse weather conditions and mechanical damage.




The plant is propagated vegetatively and large amount of planting materials (suckers) become available in a short period of time. This can be grown in monoculture and can be fitted into different cropping patterns in which case ploughing with disk harrow is needed to destroy the suckers and make the land suitable for the subsequent crop.




Essential oil samples were prepared from the parents as well as the hybrid of the present invention. The oil of female parent


M. arvensis


contains 80 to 82% menthol but no carvone or carvol. The pollen parent


M. spicata


contains 58% carvone in its essential oil. The Gas Liquid Chromatography (GLC) studies of these oil samples showed no peak for either menthone, menthol or menthyl acetate. But the oil samples of the hybrid contain menthol 0.66% to 2.45% and carvone 64% to 76% depending upon various states of growth. Table 2 shows important constituents of the essential oil extracted from the hybrid and analysed by GLC.















TABLE 2











Constituents




% of total oil













1. Limolene




 6.8-23.2







2. Menthol




0.66-2.45







3. Carvone




64.0-76.1























TABLE 3









Detailed Botantical Description:

























a.




Stem shape:




Quadrangular






b.




Number of nodes







Main branch:




29 +/− 4







Upper branch (29


th


node):




3 +/− 0







Middle branch (17


th


node):




6 +/− 0







Lower branch (8


th


node):




6 +/− 0






c.




Average length of internodes







Main branch:




1.1, 1.2, 1.3, 1.5, 1.5, 2.1, 2.2,







(from lower to upper nodes




2.3, 2.4, 2.5, 2.6, 2.7, 2.8, 2.8,







in cm)




2.8, 2.9, 2.9, 2.9, 2.8, 2.8, 2.8,








2.7, 2.7, 2.6, 2.5, 1.9, 1.1






d.




Leaf apex shape:




pointed (acute)







Leaf base shape:




pointed






e.




Leaf shape:




Elliptical to Ovate with 4-10 finely








sharp serrartions on either side.






f.




Petiole length:




4-6 cm






g.




Color of upper surface of leaf:




Green group (137 A)






h.




Color of lower surface of leaf:




Yellow green group (147 B)






i.




Number of trichomes per leaf







(Avg. Trichomes X1000):




804






j.




Trichome ratio (lower leaf/




215







upper leaf):






k.




Time to flowering:




April-May (70 days after planting








first flowering detected)






l.




Lastingness of Bloom:




Continue till harvesting (110








days after planting)






m.




Flower shape:




Tubular






n.




Pedicel length:




1-2 mm






o.




Pedicel color:




Yellow green group (146 C)






p.




Calyx diameter:




1 mm, four fused






q.




Calyx color:




Yellow green group (146 C)






r.




Corolla:




Four, fused to a corolla tube






s.




Corolla color:




Purple group (76 D)






t.




Pubescence of corolla:




smooth






u.




Number of anthers:




Four, ocididimetry, remain inside








the corolla tube






v.




Color Designation:




Red purple group (59 A)






w.




Stigma:




bifid






x.




Ovaries:




Bicarpellary, syncarpous






y.




Color of stigma:




Violet group (85 C)






z.




Color of ovaries:




Yellow green group (151 A)














The above examples are only illustrative in nature and should not be construed to limit the scope of the invention.




Statement of Distinction




As evident from morphology, the hybrid is distinct from the parents


Mentha arvensis


(cv Kalka) and


Mentha spicata


(cv Neera) and the natural species


Mentha cardiaca


.




The essential oil of the hybrid contains menthol and carvone where as those of the parents contain either menthol or carvone.




The hybrid is superior in growth habit in comparison to natural species


M. cardiaca


. The hybrid also has a higher biomass and oil yield.




The essential oil of the hybrid has predominantly a carvone smell with menthol tinge which is special and unique.




RAPD profile analysis shows codominant polymorphic bands in the hybrid from Kalka and Neera when the genomic DNA is amplified with primer MAP 03 .




The hybrid contains 2n=72 chromosomes in comparison to the parents


Mentha arvensis


(cv Kalka) 2n=96 and


Mentha spicata


(cv Neera) 2n—48.




Randomly Amplified Polymorphic DNA Analysis




The RAPD patterns of the hybrid are completely different from those of the parents as well as the


M. cardiaca


which is thought to be the natural hybrid of


M. arvesnsis


and


M. spicata


. The hybrid of the present invention was developed by crossing


M. arvensis


(cv Kalka) and


M. spicata


(cv Neera) and is thus unique and novel. The following primers were used to develop a unique and distinct RAPD profile of the hybrid (Table 4).















TABLE 4











Primers




Nucleotide Sequence













1.MAP 01




5′AAA TCG GAG C3′







2.MAP 02




5′GTC CTA CTC GC3′







3.MAP 03




5′GTC CTT AGC G3′







4.MAP 04




5′TGC GCG ATC G3′







5.MAP 05




5′AAC GTA CGC G3′







6.MAP 06




5′GCA CGC CGG A3′







7.MAP 07




5′CAC CCT GCG C3′







8.MAP 08




5′CTA TCG CCG C3′







9.MAP 09




5′CGG GAT CCG C3′







10.MAP 10




5′GCG AAT TCC G3′







11.MAP 11




5′CCC TGC AGG C3′







12.MAP 12




5′CCA AGC TTG C3′















MAP—Medicinal and Aromatic Plants




The co-dominance of the Polymerase Chain Reaction (PCR) amplified bands with printer MAP 03 in the hybrid from


M. arvensis


(Kalka) and


M. spicata


(Neera) is clear. So the hybrid of the present invention is distinct, unique, novel and can be used for different medicinal and aromatic purposes. The hybrid has better morphological and economical traits and at present is available only with CIMAP.




In addition to the characteristics features described in table 1, the novel hybrid has the following features:




(a) No. of leaves at each node=2.




(b) No. of leaves at the apex=4.




(c) Phyllotaxy: Opposite deccusate




(d) Fertilizer dose (Kg/ha): 150:30:30 (N:P:K)—Urea, SSP, MOP




(e) Maturity:110 days (‘Neerkalka’ &


M. spicata


pollen parent, 120 days Mother parent:


M. arvensis


)




(f) Oil odour: ‘Neerkalka’: Carvone based with menthol tinge, ‘Kalka’: Menthol based and ‘Neera’; Carvone based.




(g) Stem thickness: 4-5 mm (at 5


th


internode, standard method)




(h) Agroclimatic conditions: Temp. 18-37° C. (Maximum,) 8-22° C. (Minimum).



Claims
  • 1. A new and distinct variety of interspecific mint plant, as herein described and illustrated.
Priority Claims (1)
Number Date Country Kind
1509/98 Jun 1998 IN