The selection and breeding results of new cultivars of medicinal and aromatic plants in Yugoslavia are reviewed. Also, characteristics of new created and registered cultivars, promising lines, and improved cultivars of cultivated medicinal and aromatic species with conserved genetic identity are summarized.
Initial selection was aimed at yield and essential oil content improvement. The next step put the emphasis upon composition of certain dominant oil components while modern trends will require creation of cultivars serving special purposes, e.g. flowers/leaves/roots exclusively for tea, raw material for oil production, for extracts, and isolation of pure active substances.
A cultivation tradition in Yugoslavia, related to medicinal and aromatic plants, has fruited 53 cultivated species and 93 cultivars listed in the cultivar list. The most important are peppermint and chamomile species. Noteworthy of five peppermint cultivars is a new selected Yugoslav cultivar Danica with yield genetic potential exceeding 30 t/ha fresh herb and essential oil content over 5%. In addition, the three chamomile cultivars, Banatska, Tip-29, and Tetraploidna, were selected. Today, first steps in selection of spring chamomile types are evident. Of five registered coriander cultivars, Sava and Nikola with the genetic potential for fruit yield exceeding 2.500 kg/ha and essential oil content over 2% are emphasized. Promising lines of medicinal species Datura innoxia Mill. (scopolamine over 0.6%), Digitalis lanata Ehrh. (lanatoside C over 0.5%), and Glaucium flavum Crantz (over 4% glaucine in dry herb) showing significantly increased content of active substances were also selected. In addition, characteristics of cultivars of other aromatic species (Foeniculum vulgare Mill., Carum carvi L., Hyssopus officinalis L., Salvia officinalis L., Ocimum basilicum L., Satureja hortensis L., S. montana L., etc.) were improved.
Increasing demands for medicinal plant raw material have imposed the need for its controlled planting. Certainly, significant possibilities of increasing total production by both increasing planting area size and yield per unit area are present. Therefore, formulation of optimum agricultural measures and creation and introduction of new cultivars are needed. In last few decades, an intensive selection of new cultivars of medicinal and aromatic plants was carried out. As a result of permanent efforts of a great number of breeders a number of cultivars of numerous medicinal plant species has been created (Lutomski and Jaruzelski, 1978; Lužny, 1978; Franz, 1986, 1996; Zobenko and Arinshtein, 1989; Raev, 1994; Bikov et al., 1999).
This paper deals with a brief review of the most important results of selection, i.e. new created cultivars of medicinal and aromatic plants in Yugoslavia.
A cultivation tradition in Yugoslavia referring to medicinal and aromatic plants has fruited 53 cultivated species and 93 cultivars listed in the cultivar list (Tab. 1) (Adamović, 1991, 1993a; Kišgeci et al., 1997, 1999). The most important are chamomile, peppermint, and coriander species covering 70 % of total medicinal plant plantations. Selection of medicinal and aromatic plant species has been in most part carried out in the Institute of Field and Vegetable Crops, Novi Sad (founded in 1938), Institute for Pharmacognosy (1940), and Institute for Medicinal Plants Research, Beograd (1948) (Stojković, 1963; Tucakov, 1974).
|
|
|
|
| Achillea millefolium L. |
|
Domaća |
| Acorus calamus L. |
|
Žalski |
| Agrimonia eupatoria L. |
|
Domaći |
| Alcea rosea (L.) Cav. |
|
Bački trandafil |
| Althaea officinalis L. |
|
Vojvođanski |
| Anethum graveolens L. |
|
Domaća aromatična, Gevonliher |
| Angelica archangelica L. |
|
Domaća krupna, Slavonka |
| Artemisia absinthium L. |
|
Petrovački |
| Artemisia dracunculus L. |
|
Domaći zeleni, Svetli francuski |
| Borago officinalis L. |
|
Borago, Holandski |
| Calendula officinalis L. |
|
Domaći oranž |
| Capsicum annuum L. |
|
Leskovačka,
HS-2, HS X-3,
HS-5, HS-6 |
| Carum carvi L. |
|
Domaći rani, Annualis, Kumina, Niderdojčer |
| Chamomilla recutita (L.) Rausch. |
|
Banatska, Tetraploidna, Tip-29 |
| Cochlearia armoracia L. |
|
Domaći ren |
| Coriandrum sativum L. |
|
Domaći
sitnozrni,
Domaći krupnozrni, Sava, Nikola, NSBP-186 |
| Cynara scolimus L. |
|
Domaća |
| Datura innoxia Mill. |
|
IS-255 |
| Digitalis lanata Ehrh. |
|
Domaći prinosni |
| Digitalis purpurea L. |
|
Bergold |
| Foeniculum vulgare Mill. |
|
Vojvođanski,
Brilijant, Dojčer,
Makedonski, Slavonski krupni |
| Glycyrrhiza glabra L. |
|
Vojvođanski |
| Gypsophila paniculata L. |
|
Deliblatska |
| Hyssopus officinalis L. |
|
Domaći ljubičasti, Osječki plavi |
| Lavandula angustifolia Mill. |
|
Primorska |
| Leonurus cardiaca L. |
|
Domaća |
| Levisticum officinale Koch. |
|
Domaći visoki |
| Majorana hortensis Moench. |
|
Domaći, Blatmajoran, Holandski mirisni, Svitmajoran |
| Malva silvestris L. |
|
Domaći, Mauritanski, Violet |
| Melissa officinalis L. |
|
Citron, Krupna, Kvedlinburger |
| Mentha x piperita L. |
|
Danica, BPK-7960, BPP-7965, Yugo-Mitcham, Multimentha |
| Mentha spicata L. |
|
BPO-7979 |
| Ocimum basilicum L. |
|
Krupnolisni, Sitnolisni, Holanđanin, Mitelgros |
| Oenothera biennis L. |
|
Bački |
| Papaver somniferum L. |
|
Plavosemeni |
| Petroselinum sativum Hoff. |
|
Domaći lišćar |
| Pimpinela anisum L. |
|
N. 210 |
| Pyrethrum cinerariifolium Vis. |
|
Dalmatinski |
| Ricinus communis L. |
|
Novosadski 2 |
| Rosa canina L. |
|
Domaći šipurak |
| Ruta graveolens L. |
|
Domaća sedefasta, Velikolisna |
| Salvia officinalis L. |
|
Primorska |
| Salvia sclarea L. |
|
Domaća mirisna, Akali |
| Satureja hortensis L. |
|
Bački 1, Ajnjariges |
| Satureja montana L. |
|
Domaći |
| Sideritis scardica Gris. |
|
Domaći, Makedonski |
| Silybum marianum (L.) Gaertn. |
|
Domaća |
| Sinapis alba L. |
|
Vojvođanska |
| Thymus vulgaris L. |
|
N-19, Beli, Dojčer, Ingliš |
| Trigonella foenum graecum L. |
|
Domaća |
| Urtica dioica L. |
|
Domaća |
| Valeriana officinalis L. |
|
Vojvođanski, Podravčanka, Anthos |
| Verbascum densiflorum Bert. |
|
Poliverb |
Chamomile
The chamomile selection in the period 1940-1980 included the survey into the best Yugoslav and foreign genetic plant material, its propagation, and distribution into production. These years were the period when selection of domestic chamomile types took place (Tucakov, 1960, 1974; Janaćković-Milojević, 1968; Kišgeci et al., 1985). Later, this valuable plant material was lost. In 1980s, in the Institute of Field and Vegetable Crops, Novi Sad, Department of Medicinal Plants, Bački Petrovac, a modern program of selection of new chamomile cultivars was worked out. This program included the survey into the genetic variability and collecting of spontaneous chamomile samples (Adamović et al., 1982; Adamović, 1994a).
In the beginning, selection was focused at yield and essential oil content improvement. In the next phase of breeding, emphasis was put upon composition of the individual dominant components of the essential oil (chamazulene, a-bisabolol, etc.).
This work was adapted to a model of a cultivar (Adamović, 1982), Thus, for instance, attention was paid to the selection of 60 cm high chamomile type, its resistance to lodging, essential oil content of 0.8%, bisabolol content of 50%, chamazulene of 15%, yield of dry heads of two harvest exceeding 1.200 kg/ha, and harvest index of 0.4.
In the period behind us, we improved the main characteristics of domestic cultivars (Tab. 2). In the large-scale production, 0.5-0.8 % of essential oil, 10% of chamazulene, and 15-20% of a-bisabolol were obtained with cultivar Banatska, 0.6-0.8% of essential oil, 50-65% of a-bisabolol, and 10-15% of chamazulene with Tip-29, and 0.8-1.2% of essential oil, 15-20% of chamazulene, and 10% of a-bisabolol with the Tetraploidna cultivar (Adamović, 1996). Expansion of these cultivars in cultivation resulted in smaller yield variations and the increase of average yield of app. 20%.
In our selection programs including diploid and tetraploid chamomile types, promising plants with essential oil content in inflorescences between 1 and 1.4%, chamazulene 30%, and a-bisabolol even exceeding 70% in oil were obtained (Tab. 2).
|
|
|
|
|
| Mentha x piperita L. |
Danica new |
dry herb/leaves 8/4.8 t/ha dry herb/leaves |
55% menthol 5% essential oil 60% menthol |
| Coriandrum sativum L. |
|
|
75% linalool |
| Chamomilla recutita (L.) Rausch. |
Tip-29 improved Tetraploidna improved CRD-88 new line CRT-90 new line |
dry heads 1.2 t/ha dry heads 1.5 t/ha dry heads 1.2 t/ha dry heads 1.5 t/ha dry heads |
15% chamazulene 20% a-bisabolol 0.8% essential oil 15% chamazulene 65% a-bisabolol 1.2% essential oil 20% chamazulene 10% a-bisabolol 1.0% essential oil 70% a-bisabolol 1.4% essential oil 30% chamazulene |
| Foeniculum vulgare Mill. |
|
dry fruit |
71% anethol |
| Carum carvi L. |
improved Annualis improved |
dry fruit 1.5 t/ha dry fruit |
60% carvone 3.5% essential oil 60% carvone |
| Hyssopus officinalis L. |
improved |
dry herb/leaves |
40% pinocamphone 15% isopinocamphone 20% b-pinene |
| Ocimum basilicum L. |
|
dry herb/leaves |
71% linalool |
| Salvia officinalis L. |
|
dry herb/leaves |
55% thujone |
| Satureja montana L. |
|
|
73% carvacrol |
| Satureja hortensis L. |
|
dry herb/leaves |
60% carvacrol |
| Digitalis lanata Ehrh. |
|
|
|
| Datura innoxia Mill. |
|
|
|
| Glaucium flavum Crantz |
|
|
|
In addition, selection of spring chamomile types with yield and quality resembling winter types was initiated. Such potential characteristics were indicated by the results of the experiments using 17 cultivars in both autumn and spring sowing (Gašić et al., 1991). These results are important taking into consideration some data telling us that autumn sowing may considerably reduce crop density or it may be completely destroyed.
Today and in near future, chamomile selection will be focused at creating of cultivars with specific purposes like flower heads for tea, raw material for essential oil and extract production, isolation of pure active substances, etc.
Peppermint
In late 1970s, problems of great variations of yield and its quality in widespread peppermint cultivar Mitcham concurrent with rust attack were evident. Therefore, the creation of a peppermint cultivar with a higher leaf yield, higher essential oil content, and resistance to rust was postulated.
The work on peppermint breeding was carried out according to adopted principles and a defined model of cultivar (Adamović, 1982). A great attention was devoted to the creation of genotypes characterized by 80 cm high stem in the first while more than 50 cm in the second harvest, rust resistance (only infection traces), lodging resistance, content of essential oil exceeding 2%, and content of free menthol over 40 %, yield of dry herb of two harvests exceeding 6.000 kg/ha, and more than 50% leaves in herb.
The outcome of many years of selection efforts was the registration of a new Yugoslav peppermint cultivar Danica. This cultivar is characterized by large dark leaves resembling the Mitcham cultivar. The botanical cultivar is Mentha piperita L. emend Huds. var. officinalis Sole f. rubescens Camus. Stem of this new cultivar is solid and during the examination it showed lodging resistance. Unlike the Mitcham cultivar, the cultivar Danica is rust resistant. During the three years of investigation, its color and odor after drying were given the highest grades. Content of essential oil in large-scale production ranges from 2.5 to 4.5%.
The genetic potential of the cultivar Danica for raw mass yield of both harvests is 30 t/ha while that of essential oil exceeds 80 kg/ha (Adamović, 1994b). These values are more expressed under irrigation. In dry cultivation it gives a relatively high yield when compared with the standard cultivar. Its genetic potential for content of leaf essential oil exceeds 5%.
In the past years, improvement of traits of cultivars BPK-7960 and BPP-7965 was done. In other words, these cultivars are characterized by a high genetic potential for herb, while essential oil content amount 4.5%.
Coriander
A cultivated coriander cultivar "Domaći sitnozrni" was shown to give a relatively good fruit yield in production. In this cultivar, however, a low yield of essential oil per hectare was recorded, in most part due to its relatively low content of 0.5-1%. Consequently, the aim was to select cultivars with higher content and yield of essential oil concurrent with expected high yield of fruit and lower mass of 1.000 fruits.
Of five registered coriander cultivars, new cultivars Sava and Nikola should be distinguished. In these cultivars the genetic potential for fruit yield is above 2.500 kg/ha and content of essential oil above 2%. These coriander cultivars were selected in the Institute of Field and Vegetable Crops, Novi Sad. They belong to the species Coriandrum sativum L. f. microcarpum. Their stem height is app. 85 cm while that of standard amount 90 cm. The new cultivars are relatively lodging resistant while according to the early maturation trait resemble that of standard cultivar. When natural infection is discussed, no significant infestation was observed (Adamović, 1994b).
Promising lines and improved cultivars
New lines of Salvia officinalis, Satureja montana, and Satureja hortensis characterized by high yield of dry herb and content of essential oil and its most frequent components were selected (Tab. 2) (Adamović, 1995, 1998). Promising lines of medicinal species Datura innoxia Mill. (scopolamine over 0.6%), Digitalis lanata Ehrh. (lanatoside C over 0.5%), and Glaucium flavum Crantz (over 4% glaucine in dry herb) showing significantly increased content of active substances were also selected (Gorunović et al., 1985; Adamović et al., 1992, 1994).
In addition, characteristics of cultivars of other aromatic species were improved (Tab. 2). In the cultivar Vojvođanski (Foeniculum vulgare) for instance, the genetic potential for the content of essential oil of 6.5% and anethol of 71% was obtained. The biennial cultivar Domaći rani (Carum carvi) shows the genetic potential for the content of essential oil of 6% while annual cultivar Annualis of 3.5% with carvone content in both cultivars amounting 60% (Adamović, 1990, 1993b). In Hyssopus officinalis a high genetic potential for yield of dry herb of 7 t/ha and in Ocimum basilicum 3 t/ha is recorded. All the results cited above have contributed to a considerable increase of average yield and also of plant total production (Adamović, 1994c).
As a result of many years of selection, 93 cultivars of 53 cultivated species of medicinal and aromatic plants have been selected and improved in FR Yugoslavia. Among them, the peppermint cultivar Danica and coriander Sava and Nikola should be emphasized. In addition, new lines of Chamomillarecutita, Satureja montana, Datura innoxia, Digitalis lanata and Glaucium flavum were selected. Cultivation of new selected cultivars has enabled the achievement of higher and more stable yield and improved raw material quality.
Lutomski J., Jaruzelski M. (1978): Various aspects of medicinal and spice plant cultivation in Poland. Acta Horticulturae 73, 121-126.
Lužny J. (1978): Breeding programme of medicinal plants in Czechoslovakia. Acta Horticulturae 73, 127-129.
Franz Ch. (1986): Wege, Ziele und neuere Ergebnisse der Arzneipflanzenzüchtung. Zeitschrift für Phytotherapie 2, 48-54.
Franz Ch. (1996): Züchtungsforschung und Züchtung an Arznei-und Gewürzpflanzen. Zeitschrift für Phytotherapie 17, 30-37.
Zobenko L.P., Arinshtein A.I. (1989): Rezultati i problemi selektsii efiromaslichnih kultur. Selektsiya i semenovodstvo 1, 10-12.
Raev R. (1994): Sastoyanie i problemi pri selektsiyata na eterichnomaslenite kulturi. Rastenievydni nauki 31, 139-141.
Bikov V.A., Zhuchenko A.A., Konon N.T. (1999): Selektsiya i semenovodstvo lekarstvennih i aromaticheskih rasteniy. Vestnik semenovodstva v SNG 3, 13-18.
Adamović S.D. (1991): Selekcija i semenarstvo lekovitih, aromatičnih i začinskih biljaka. Bilten za hmelj, sirak i lekovito bilje 64-65, 70-73.
Adamović S.D. (1993a): Varijabilnost prinosa i etarskog ulja kod genotipova gajenih vrsta roda Mentha. Arhiv za farmaciju 43, 105-114.
Kišgeci J., Marković T., Dražić S., Stepanović B., Adamović D. (1997): Genetički resursi lekovitog i aromatičnog bilja Jugoslavije. Savremena poljoprivreda 46, 129-143.
Kišgeci J., Anđelković M., Pavlović K., Dedić D., Cvetković M. (1999): Lista sorti i hibrida poljoprivrednog i šumskog bilja Jugoslavije. Partenon, Beograd.
Stojković L. (1963): Oplemenjivanje bilja, semenarstvo i agrotehnika. Rad ustanove od osnivanja 1938. do 1957. godine. Zbornik radova Instituta za poljoprivredna istraživanja u Novom Sadu 1, 29-50.
Tucakov J. (1974): Osnivanje i rad stanice za selekciju lekovitog i aromatičnog bilja u Pančevu pri Institutu za proučavanje lekovitog bilja u Beogradu. Zbornik radova VI sastanka Naučnog društva za istoriju zdravstvene kulture SAPV, 61-67.
Tucakov J. (1960): Rad Instituta u 1959. godini. Lekovite sirovine 5, 145-160.
Janaćković-Milojević B. (1968): Uticaj vremena setve na kvalitet cveta kamilice. Lekovite sirovine 6, 49-55.
Kišgeci J., Adamović D., Soldatović M. (1985): Sistematski prikaz privredno značajnih lekovitih, aromatičnih i začinskih biljaka i njihov izbor za gajenje u Vojvodini. Bilten za hmelj, sirak i lekovito bilje 49-50, 5-72.
Adamović D., Borojević K., Joksimović J., Gašić O., Lukić V. (1982): Genetska varijabilnost prinosa i kvaliteta sorti i populacija kamilice (Matricaria chamomilla L.). Bilten za hmelj, sirak i lekovito bilje 39, 35-43.
Adamović S.D. (1994a): Prikupljanje samoniklih populacija kamilice i njihova agrobiološka i hemijska karakterizacija. Prvi jugoslovenski naučno-stručni simpozijum iz selekcije i semenarstva. Vrnjačka Banja, 25-28 maj 1994.
Adamović S.D. (1982): Introdukcija i selekcija lekovitog bilja. Bilten za hmelj, sirak i lekovito bilje 41, 35-46.
Adamović S.D. (1996): Dostignuća i dalji pravci u oplemenjivanju kamilice. Medicinal Plant Report 3, 52-58.
Gašić O., Lukić V., Adamović D. (1991): The Influence of Sowing and Harvest Time on the Essential Oils of Chamomilla recutita (L.) Rausch. Journal of Essential Oil Research 3, 295-302.
Adamović S.D. (1994b): Novostvorene sorte korijandra NSBP-186, Sava i Nikola i pitome nane Danica. Medicinal Plant Report 1, 48-52.
Adamović S.D. (1998): Effect of genetic and ecological factors on essential oil of Salvia officinalis L. Medicinal Plant Report 5, 31-36.
Adamović S.D. (1995): Mogućnost gajenja planinskog čubra (Satureja montana L.). Arhiv za farmaciju 45, 280-281.
Gorunović M., Pekić B., Adamović D., Lepojević Ž., Lukić P. (1985): Nouveaux resultats sur la culture du pavot cornu en Serbie. Pharmazie 40, 656-657.
Adamović S.D., Gorunović M., Pekić B., Lepojević Ž. (1992): Accumulation of active substance and biogenous elements in medicinal plants - Glaucium flavum Crantz. Acta Horticulturae 306, 194-199.
Adamović S.D., Pekić B., Lepojević Ž. (1994): Mogućnost selekcije Digitalis lanata Ehrh. i Datura innoxia Mill. na povećan sadržaj aktivnih materija. Prvi kongres genetičara Srbije. Vrnjačka Banja, 08-11. 06. 1994.
Adamović S.D. (1993b): Količina etarskog ulja i anetola u nadzemnoj masi i plodu različitih linija morača. Lekovite sirovine 12, 61-64.
Adamović S.D. (1990): Uporedno istraživanje jednogodišnjeg i dvogodišnjeg kima. Bilten za hmelj, sirak i lekovito bilje 60-61, 35-39.
Adamović S.D. (1994c): Proizvodnja lekovitih, začinskih i aromatičnih biljaka - stanje i perspektive. Medicinal Plant Report 1, 1-7.