The present situation of cultivar innovation and cultivar use of raspberry and blackberry

8. The present situation of cultivar innovation and cultivar use of raspberry and blackberry

Author: Szilvia Kovács

8. 1. History of breeding, major breeding centers

The first authentic data about raspberry cultivation originate from the 16th century from England. Horticultural authors of the 17th and 18th century (Parkinson, 1629; Lippai, 1664; Langley, 1757) list 3-4 variants, and already 23 cultivars were distinguished in the first part of the 19th century in England.

European raspberry cultivars got to North America in the 18th century, and major breeding programs started at the end of the 19th century (Philadelphia, Pennsylvania). The most popular cultivar of these programs is ‘Lloyd George’, which were the variety cultivated in the highest proportion in Europe and in North America. It was frequently used as a breeding partner as well, for example ‘Willamette’ with its half century long cultivation past originates from it.

Nowadays the creation of new raspberry cultivars is carried out in almost 20 countries of the world, in about 30 breeding centers. There were only small changes in the number of breeding companies in the last years. Breeding centers focus mostly on creating red-fruited summer-bearing cultivars and everbearing (twice-bearing) cultivars.

Raspberry breeding is carried out in almost all European countries. The oldest and most significant breeding center can be found in England (e.g. Malling-series, ‘Octavia’, ‘Autumn Bliss’). Scotland (Invergrowie) became known with the Glen-series. Successful breeding is performed in Switzerland, Poland, Germany, Serbia and last but not least, in Hungary.

In the American continent, breeding is carried out in the USA, Canada and Mexico. A successful program is in Oregon (USDA-ARS; Convallis), its results are the worldwide popular ‘Willamette’ and ‘Canby’, today’s industrial cultivar ‘Meeker’, ‘Cascade Delight’, which is resistant against Phytophthora, or the twice-bearing ‘Summit’. In New York and at the University of Maryland, creation of twice-bearing raspberry cultivars were targeted, while at the University of Minnesota, the aim is to breed cultivars resistant against Phytophthora disease. Private Californian breeding companies work towards creating cultivars which are concentrated for end-summer and autumn growing.

The twice-bearing black raspberry (Rubus occidentalis L.), native in North America, was involved into cultivation in the 19th century in the USA, and major breeding centers can be found still there. Beside the USA, the black raspberry cultivation of New Zealand is worth mentioning as well. In spite of the large number of black raspberry cultivars, it has only a small share in today’s raspberry production. However, it became an important element of breeding programs again in recent years because of its benefical nutritional values. The hybrid of the R. occidentalis and R. strigosus crossing is purple raspberry (R. neglectus Peck.). Its cultivars once grown in large areas in the USA are ‘Columbian’, ‘Marion’ and ‘Potomac’.

Breeding of blackberry have been started in Europe. English gardeners were the first to domesticate the native Rubus laciniatus Will. in the 17th century. The result of this work was the evergreen ‘Evergreen’, which were carried to Oregon by settlers in the middle of the 19th century.

The first significant blackberry breeding program started in the USA in the beginning of the 20th century. The emphasis was laid on creating cultivars with low cold need, suitable for warmer climatic conditions. The USDA-ARS program, launched in 1928, has still a leading role in breeding, and beside american breeding centers (New York, Georgia, Oregon), an English institute was also involved in it. In the framework of this program, a number of semi-erect, thornless cultivars with an excellent market value were created (e.g. ‘Thornfree’ ‘Hull Thornless’, ‘Chester Thornless’). In the USA, blackberry breeding is carried out also at the University of Arkansas, as well as at Driscoll’s Strawberry Associates (Watsonville) private breeding company.

Blackberry breeding programs are running as well in Brazil, Scotland, England, Serbia, Poland and Sweden. The number of active blackberry breeding programs of the world is between 30 and 40, only 15 of which is successful.

Hybrid cultivars created by crossing raspberry and blackberry constitute a new fruit species (blackberry-raspberry hybrids), which variously combine the characteristics of parent species. These hybrids are regarded as a separate fruit species.

The first blackberry-raspberry hybrid is ‘Logan’, which was generated spontaneously at the end of the 19th century in the USA. It is cultivated on about 700 ha on the world in the USA (California and Oregon), in New Zealand and lately in Chile.

In New Zealand, in cooperation with USDA-ARS program and the Scottish breeding center, breeders work to create ‘Boysen’-types, which have large fruits, suitable for the fresh market, less susceptible to diseases, have a better ecological adaptivity (winter hardiness, tolerance of summer heat and lower humidity), as well as they have a thronfree, compact shoot system. Breeding of cultivars is also carried out in Scotland and in Hungary.

8.2. Aims and methods of breeding

Major aims of raspberry breeding:

  • high fruitfulness,

  • widening of the ripening time: early ripening at cultivars fruiting on current year’s cane, late ripening at summer-bearing cultivars,

  • excellent fruit quality: taste, fruit size, colour and brightness (today cultivars with light red and bright skin are popular), high dry matter and acid content,

  • firm flesh texture (mainly for easier transportability),

  • efficient harvest: well separated fruits, easy removing of fruits from the receptacle,

  • suitability for machine harvest: easy to shake off, concentrated ripening, firm flesh texture,

  • cultivars suitable for forcing (increasing, up to now cultivars were bred for open-field growing),

  • good adaptability to different habitats,

  • resistance against diseases and pests:

Raspberry Bushy Dwarf Virus -RBDV
Phytophthora root rot (Phytophthora fragariae var. rubi)
fungal diseases of canes (Elsinoë veneta, Botrytis cinerea, a Didymella applanata).

Major aims of blackberry breeding:

  • thornfree shoot system,

  • fruit quality according to utilization:
    larger size (min. 7-8 g);
    sweety, harmonic taste; higher pigment content (~15%);
    firm flesh texture, higher dry matter content, storability, good transportability,

  • ripening time (early-late),

  • cultivars fruiting on current year’s cane,

  • suitability for machine harvest,

  • improving adaptability (cultivars with higher and lower cold need, according to habitat),

  • flexible, less fragile shoot system,

  • disease resistance (RBDV, Cercosporella rubi, Peronospora sparsa),
    tracing for new gene sources.

Breeding methods used for creating raspberry and blackberry cultivars:

  • regional selection: old cultivars (e.g. ‘Lloyd George’, ‘Nagymarosi’) were created this way,

  • cross-breeding: today’s dominant breeding method,

  • mutation: less significant (e.g. ‘Jumbo’ is the mutation of ‘Black Satin’),

  • naturalization: characterizes today’s raspberry and blackberry cultivation (naturalization experiments are required!),

  • molecular genetics: less significant
    transgenic RBDV resistant: ‘Meeker’ raspberry,
    parthenocarpic: ‘Ruby’ raspberry,
    cold tolerant: ‘Marion’ blackberry.

8.3. Genetic sources of breeding

Raspberry cultivars playing a major role in production originate from species Rubus idaeus L. and Rubus strigosus L. native in the temperate zone. In Scandinavia, raspberry species Rubus arcticus L. was domesticated. The majority of species important form the aspects of fruit growing are diploid (2n = 14), but there are some triploid and tetraploid species as well.

Black raspberry (Rubus occidentalis L.) is used as a crossing partner of red raspberries. Tolerance of high temperatures, drought tolerance, aphid resistance, late fruit ripening and fruiting on current year’s cane can be inherited from this species. Purple raspberry (R. neglectus Peck.) brings its large, juicy fruits on previous year's cane, the fruits are used for fresh consumption and for juice production.

Wild species are frequently used in raspberry breeding to improve fruit quality, elcological adaptivity and resistance. Most often used partners in crossings are Rubus chamaemorus L., native in Scandinavia, as well as R. coreanus Miq., Rubus parvifolius L.,Rubus niveus Thunb. and Rubus phoenicolasius Maxim., native in Asia. Beside Rubus arcticus L., breeders use species Rubus niveus Thunb., Rubus odoratus L. and Rubus spectabilis Pursh. to create everbearing raspberry cultivars.

Blackberry is a less significant fruit species, therefore the number of breeding centers and programs is far behind that of raspberry. During the breeding of our blackberry cultivars more species were used, thus disease resistance of cultivars is much better compared to raspberry. Today’s varieties originate mostly from crossings between Ursini (oktaploid) sections of American wild blackberries and diploid raspberries. Beside Ursini section of Rubus subgenus, additional crossing partners, gene sources were selected during cultivar breeding from sections Allegheniensis, Arguti and Rubus. ‘Chesapeake’ (Rubus cuneifolius) is a cultivar with new genetic backgrounds. With the appearance of blackberry cultivars ‘Prime-Jan’, ‘Prime-Jim’ fruiting on current year’s canes, blackberry growing became possible even in territories with cold winter.

Species Rubus ursinis Cham. et Schlecht, Rubus nubigenus Kunth, Rubus glaucus Benth. and Rubus x thyrsiger Banning & Focke are used to improve fruit quality. Species Rubus argutus Link, Rubus caesius L., Rubus canadensis L. andRubus strigosus Michx. have a good frost tolerance. To improve disease resistance, species Rubus laciniatus Willd., Rubus armeniacus Focke and Rubus occidentalis are used. Rubus caesius L., Rubus idaeus L. and Rubus strigosus Michx bear fruit on current year’s canes.

8.4. Cultivar use

Cultivated raspberry varieties can be classified into the following cultivar groups: red-fruited (Rubus idaeus types), black-fruited (Rubus occidentalis species complex) and purple raspberries (Rubus neglectus). Raspberry cultivars are practically classified into the following cathegories: summer-bearing raspberries, everbearing-raspberries, black raspberries.

There is a wide assortment for growers all over the world from summer-bearing and everbearing raspberries. More and more new cultivars get constantly to the market, however, well established varieties are hard to replace. Food industry still likes and demands the fruits of ‘Meeker’ and ‘Willamette’. ‘Heritage’ is still a leading everbearing cultivar. Proven varieties of areas with cold winter are still ‘Boyne’ and ‘Newburg’.

Among new summer-bearing raspberry cultivars, ‘Tulameen’ is highly popular throughout the world today, grown in open field and in greenhouses as well. ’Glen Ample’ is frequently chosen for it in plantations. ‘Glen Lyon’ could be the dominant variety of greenhouse cultivation. Beside ‘Tulameen’ and the well-known Canadian ‘Chilliwack’, promising new fresh market cultivars are ‘Malahat’ and ’Qualicum’, also from Canada. Among raspberries fruiting on current year’s cane, the Californian ‘Isabel’ has the best commercial value and fruitfulness. The Californian ‘Caroline’ and the Scottish ‘Nova’ had good results in areas with different climatic conditions as well. The Polish ‘Polka’ and ‘Polana’ fill well the space in ripening between summer-bearing and everbearing (from end-summer till autumn) raspberries. Among the newest cultivars, the Canadian ‘Cowichan’, the American ‘Cascade Delight’ and the English ‘Octavia’ stand out according to cultivation experiences of recent years.

Among black raspberry (Rubus occidentalis L.) cultivars, ‘Munger’, ‘Jewel’ and ‘Mac Black’ have a significant growing tradition, suitable for fresh consumption and processing as well. As purple raspberry (R. neglectus Peck.) cultivars, ‘Brandywine’ and ‘Royalty’ are produced today.

Blackberry and blackberry-raspberry hybrid cultivars are classified according to their growth characteristics:

erect cultivars:

with prickly shoots: ‘Brazos’, ‘Tupy’, ‘Cherokee’;

fruiting on current year’s cane: ‘Prime-Jan’, ‘Prime Jim’;

thornfree: ‘Navaho’, ‘Arapaho’;

semi-erect cultivars: ‘Chester Thornless’, ‘Thornfree’, ‘Loch Ness’,

‘Cacanska bestrna’,

trailing types: ‘Marion’, ‘Silvan’, ‘Thornless Evergreen’.

The most popular among the world’s blackberry cultivars are semi-erect cultivars (50%), while erect and trailing types are grown in a similar proportion (25-25%). ‘Thornfree’, ‘Loch Ness’ and ‘Chester Thornless’ are the dominant semi-erect cultivars. Among erect cultivars, ‘Brazos’ and ‘Tupy’ are the most popular. ‘Marion’ is the most frequently produced trailing cultivar.

Among new, hybrid blackberry cultivars, thornless hybrid cultivars for processing are ‘Nightfall’, ‘Black Diamond’ and ‘Black Pearl’, they have an outstanding nutritional value. ‘Obsidian’ and ‘Metolius’ are early-ripening, very tasty, firm-fleshed, their fruits contain much less and much smaller seeds than those of well-known cultivars. The group of erect blackberry cultivars broadened by high-yielding varieties with good commercial value: ‘Cherokee’, ‘Comanche’, ‘Cheyenne’. ‘Navaho’ is the first erect, thornless blackberry cultivar, which dominates international fresh market production since 1989. With the appearance of blackberry cultivars ‘Prime-Jan’, ‘Prime-Jim’ fruiting on current year’s canes, blackberry growing became possible even in territories with cold winter.

Cultivation of blackberry-raspberry hybrids is significant in the USA, New Zealand and China. ‘Boysen’ is the most frequently planted cultivar. The results of the joint work of New Zealand and USDA-ARS programs are some promising new cultivars, such as ‘Lincoln Logan’, ‘Ranui’, ‘Waimate’, ‘Karaka Black’ and ‘Maragu’.

8.5. Aspects of cultivar selection

A smaller part of raspberry fruits are consumed fresh, the majority is processed by refrigeration and canning industry, but there is an increasing use in confectionary and dairy industry as well. Outside the main raspberry season, the marketing chances of fresh fruits are bigger, thus there is an increasing interest today towards excellent quality, firm-fleshed twice-bearing raspberries. In case of fresh market sale of raspberry and blackberry, nice, large-fruited, bright-skinned, well transportable cultivars with long shelf-life (firm flesh) can be taken into consideration. As regards raspberry, cultivars with red skin are preferred.

The majority of blackberry yield is processed by refrigeration industry. Canning industry has popular products (jam, marmelade, compote, syrup), and there is an increasing use for yoghurt and ice-cream production as well. Fruits of blackberry-raspberry hybrids are used mainly by canning industry. Refrigeration industry prefers bright, firm-fleshed, tasty, medium-large raspberry and blackberry cultivars, which keep their colour, form and texture also after defrosting. Cultivars with darker fruit colour, high dry matter and colouring content, intensive taste and scent are suitable for the purposes of canning industry.

From the point of view of growers, fruitfulness and yield security of cultivars are also important beside excellent fruit quality. Heat and soil requirements of cultivars, as well as resistance against pathogens and pests highly influence the success of cultivation.

There is an increasing need in the last decades for forcing raspberry cultivars in foreign countries, but there are growing attempts in Hungary as well. ‘Tulameen’ is successfully forced abroad, while in Hungary ‘Fertődi Vénusz’ had good results. Examinations are carried out in a number of research centers of the world on selecting cultivars suitable for forcing. As it was found, it is not enough to know the extent of cold treatment necessary to break dormancy, but the role of apical dominance responsible for the burst of flower buds has to be known as well.

8.6. Cultivars which can be recommended for planting

Approximately 150 red raspberry and 50 blackberry cultivars were created in the last 20 years in the world. New cultivars lay on an even wider genetic base, thus (as foreign experiences show) we can have good results with cultivars originating from territories with different conditions as well. However, the cultivars of breeding centers from similar climatic conditions as our habitat should be used if possible, and try to gather growing experiences. The habitat suitability of cultivars can be judged on the base of local growing experiences.

Flowers of cultivared raspberry varieties and today’s cultivated blackberry varieties are highly self-fertile. Bees and insects willingly visit the good nectar producing flowers. 2-5 bee colonies per ha is recommended to achieve the appropriate fruit set and fruit shape which characterises the cultivar. In greenhouses, the use of bumblebees is important because of unfavourable light conditions.

Summer-bearing raspberry cultivars

GYUM ANGOL 8.1. abra Fertődi Vénusz

Figure 8.1.: Fertődi Vénusz (Photo: Gábor Kollányi)

Fertődi Vénusz (Venus)

A protected Hungarian raspberry cultivar, it was certified by the state. One of the earliest cultivar of the Hungarian variety assortment. Suitable for all purposes. Recommended for garden and commercial cultivation as well, suitable for forcing. Its large, pleasing fruits have a moderately firm flesh, their taste is harmonic (Figure 8.1.). Has a quick ripening, very high-yielding. Keeps its colour and texture for long after harvest. Has a long shelf-life. Demanding for habitat and cultivation technology, requires an intensive plant protection. Susceptible to Leptosphaeria disease of raspberry. Does not like soils with a high lime content.

GYUM ANGOL 8.2. abra Fertodi karmin

Figure 8.2.: Fertődi kármin (Photo: Szilvia Kovács)

Fertődi kármin (Marla)

A protected Hungarian cultivar, it was certified by the state in 2000. Early-ripening, recommended mainly for fresh market. The fruits are medium large or large, truncated conical, light red, with a pleasant taste (Figure 8.2.). Very high-yielding. Moderately vigorous, the ability to produce new canes is weak-medium. Has a good winter hardiness, yields reliably even without irrigation. Not susceptible to shoot spots, but susceptible to RBDV infection. Can be harvested by machine.

GYUM ANGOL 8.3. abra Glen Ample

Figure 8.3.: Glen Ample (Photo: Szilvia Kovács)

Glen Ample

Medium-late ripening, thornless Scottish cultivar. Its large fruits are easy to harvest, circular in shape, bright red, firm-fleshed, have a moderate taste (Figure 8.3.). Its harvest period is long. Develops strong, long canes, easy renewing. The canes are a little susceptible to frost and cane diseases.

GYUM ANGOL 8.4. abra Malahat

Figure 8.4.: Malahat (Photo: Gábor Kollányi)

Malahat

Medium-late Canadian cultivar with concentrated ripening. Medium-large, with a little elongated shape, firm-fleshed, its aromatic fruits are easy to harvest (Figure 17.18.). Its fruitfulness is moderate. The ripening is concentrated, can be harvested by hand and by machine as well. Susceptible to cane diseases. Moderately vigorous.

8.5 Tulameen

Figure 8.5.: Tulameen
(Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Tulameen

Canadian cultivar, it was certified by the state in Hungary in 2002. Beside open-field cultivation, it is grown in greenhouses as well abroad. Its very large, conical fruits are bright light red, firm-fleshed, have a harmonic taste (Figure 8.5.). It is a late-ripening cultivar, has a concentrated ripening, easy to harvest. Moderately vigorous, has medium-good cane production. Its fruitfulness is moderate. Moderately susceptible to cane diseases.

8.6 Octavia

Figure 8.6.: Octavia (Photo: http://www.pob-obstbauberatung.de/content/himbeeren)

Octavia

A very late-ripening English cultivar, ripens almost a week after Tulameen. The fruits are large, wide conical, have a pleasant taste (Figure 8.6.) Suitable for overlapping the time between summer-bearing and twice-bearing (fruiting on current year’s canes from end-summer till autumn) raspberries. High-yielding, but a little hard to harvest. The plant is highly vigorous with a good renewing ability.

The canes are slightly prickly.

Everbearing raspberries

GYUM ANGOL 8.7. abra Julcsi

Figure 8.7.: Julcsi (Photo: Gábor Kollányi)

Julcsi

A candidate bred in Hungary. Suitable for fresh consumption and processing as well. Previous year’s canes bear fruit very early, in the first decade of June, while current year’s canes starts to bear fruit in the middle of August. The fruits are medium large-large, circular or truncated conical (Figure 8.7.). Fruit colour is dark red, the flesh is firm, has a pleasant taste and long shelf-life. High-yielding, easy to harvest. The renewing ability of the cultivar is good, produces a lot of canes. It has a good ecological adaptability, but susceptible to pathogens causing cane spot disease ( Didymella applanata, Elsinoë veneta).

GYUM ANGOL 8.8. abra Polka

Figure 8.8.: Polka (Photo: Szilvia Kovács)

Polka

A very promising cultivar bred in Poland. Its ripening time is the same as that of Autumn Bliss’. Suitable for overlapping the time between summer-bearing and twice-bearing (from end-summer till autumn) raspberries. Suitable for fresh market and processing as well. Its medium large-large, conical, bright, moderately firm, aromatic fruit are easy to harvest (Figure 8.8.). Has an excellent market value and nutritional value. Its fruitfulness is high. Its shoot system is moderately-highly vigorous, erect, the cane production is medium. Less susceptible to Phytophthora root rot and mosaic virus.

8.9 Polana

Figure 8.9.: Polana
(Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Polana

Polish cultivar, which has a good yield in Hungarian plantations as well. Its harvest period starts about a week later than that of Polka. Also suitable for overlapping the time between summer-bearing and twice-bearing (from end-summer till autumn) raspberries. Its fruits are excellent for the autumn fresh market, but suitable for processing as well. It bears fruits on current year’s canes from early August until early November. The fruits are medium large, dark red when ripe, moderately firm, tasty, easy to harvest (Figure 8.9.). High-yielding, moderately vigorous, has a good renewing ability. The canes are slightly prickly. Susceptible to Didymella cane spot and Fhytophthora root rot. Has a good environmental adaptibility.

8.10 Isabel

Figure 8.10.: Isabel (Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Isabel

A raspberry cultivar bred in California. Large-fruited, firm-fleshed, tasty, easy to harvest (Figure 8.10.). Yields well both on previous and current year’s canes. Has a good fruitfulness and a concentrated harvest period. Bears fruits on current year’s canes from middle August. Highly vigorous, its ability to renew is medium. The canes are highly prickly. Moderately susceptible to cane diseases.

Blackberry cultivars

Semi-erect and erect cultivars

8.11 Loch Tay

Figure 8.11.: Loch Tay
(Source: http://www.gapphotos.com/imagedetails.asp?imageno=282828)

Loch Tay

A Scottish semi-erect blackberry cultivar. Starts ripening one week before ‘Loch Ness’. Moderately vigorous, semi-erect, thornless cultivar. The fruits are medium large-large, tasty (Figure 8.11.). High-yielding, its harvest period lasts for 6 weeks. According to cultivar descriptions, it is less tolerant to diseases.

GYUM ANGOL 8.12. abra Loch Ness

Figure 8.12.: Loch Ness (Nessy) (Photo: Szilvia Kovács)

Loch Ness (Nessy)

A Scottish semi-erect protected blackberry cultivar. In Hungary it was certified by the state in 2000. Medium early, ripens 2-3 weeks before ‘Thornfree’. The fruits are large or very large, elliptic, shiny, aromatic (Figure 8.12.). Easy to harvest and store. Suitable for all purposes. Moderately-highly vigorous, semi-erect, thornless cultivar. The overwintering canes are not susceptible to frost. High-yielding. Moderately susceptible to diseases.

8.13 Cacanska bestrna

Figure 8.13.: Cacanska bestrna
(Photo: http://www.meiosis.co.uk/fruit/cacanska_bestrna_l.htm)

Cacanska bestrna

Thornless, semi-erect Serbian cultivar. Its ripening time is medium. The fruits are shiny black, cylindrical, large, sweet, aromatic (Figure 8.13.). Suitable for all purposes. It has a good flesh firmness, easy to harvest when ripe. High-yielding, highly vigorous. The frost tolerance of canes is good, but they can freeze at temperatures permanently below -20 ºC. Its disease resistance is good. Tolerant to blackberry rust.

8.14 Chester Thornless

Figure 8.14.: Chester Thornless
(Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Chester Thornless

This cultivar is recommended for planting in warm habitats, because similarly to ‘Thornfree’, it has a long ripening period and its canes are frost susceptible. Highly vigorous, semi-erect, thornless blackberry, bred in the USA. The fruits are large, shiny black, firm, aromatic (Figure 8.14.). Very high-yielding, easy to harvest. Less susceptible to cane diseases.

8.15 Navaho

Figure 8.15.: Navaho
(Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Navaho

It is an erect, thornless brackberry cultivar, bred in the USA. The harvest begins in the last decade of August. Its medium large-large, elliptic, shiny black fruits have an excellent aroma (Figure 8.15.). It can give outstanding yields in optimal habitats. Its highly vigorous shoot system is moderately susceptible to winter frosts. Less susceptible to cane diseases.

Blackberry-raspberry hybrid cultivars

8.16 Tayberry

Figure 8.16.: Tayberry
(Photo: http://www.bundessortenamt.de/internet30/fileadmin/Files/PDF/bsl_himbeere_2006.pdf)

Tayberry

This Scottish blackberry-raspberry hybrid cultivar was certified by the state in Hungary in 2005. Ripens early, from the beginning of June. Highly vigorous, semi-erect or trailing, has a prickly shoot system. Its canes can be severely damaged in colder winters. The fruit is very large, elongated conical, dark red, has an acidic taste (Figure 8.16.). Suitable for fresh consumption and for processing as well, recommended for garden growing.

Control questions:

  1. Where can we find today’s major raspberry breeding centers?

  2. Describe the work of major blackberry breeding centers!

  3. Describe the major aims of raspberry and blackberry breeding!

  4. Describe the methods of raspberry and blackberry breeding!

  5. From what species do raspberry varieties present in cultivation originate?

  6. Describe the gene sources of blackberry breeding!

  7. What tendency can be observed today in the world’s raspberry cultivar use?

  8. How can blackberry cultivars be classified according to their growth characteristics?

  9. In which regions is the production of blackberry-raspberry hybrid cultivars significant?

  10. Does the naturalization of raspberry and blackberry cultivars have a significance in modernizing cultivar structure? Give an explanation!

  11. Recommend summer-bearing and everbearing raspberry cultivars for plantations!

  12. Recommend blackberry and blackberry-raspberry hybrid cultivars for plantations!

Literature:

  1. Anonym. 2006. Beschreibe Sortenliste. Himbeere, Brombeere. Bundessortenamt, Hannover.

  2. Clark J., Finn C. 2008. New trends in Blackberry Breeding. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777:41-47.

  3. Danec J. 2001. 'Polka' and 'Pokusa' – New primocane fruiting raspberry cultivars from Poland. Proceedings of the Eighth International Rubus Ribes Symposium. Australia. Acta Horticulturae. Scotland. 585: 197-198.

  4. Dénes F. 2001. Málna, szeder, szedermálna. (Raspberry, blackberry, tayberry) In. Tóth M. (szerk.) Gyümölcsészet. Nyíregyháza. Primom Vállalkozásélénkítő Alapítvány, Nyíregyháza. 354-376.

  5. Finn C. E., Hancock J. F. 2008. Raspberries. In. Hancock J. F. Temperate fruit crop breeding. Germplasm to genomics. 359-392.

  6. Finn C. et al. 2008. New USDA-ARS blackberry Cultivars bring diversity to the Market. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777: 81-86.

  7. Finn C., Knight V. H. 2002. What’s going on in the World of Rubus breeding? Proceedings of the Eighth International Rubus Ribes Symposium.Scotland. Acta Horticulturae. 585:31-38.

  8. Finn C., Moore P., Kempler C. 2008. Raspberry cultivars: What’s New? What’s succeeding? Where are breeding programs headed? Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777:33-40.

  9. Finn C. E. 2008. Blackberries. In. Hancock J. F. (szerk.) Temperate fruit crop breeding. Germplasm to genomics. 83-114.

  10. Hall K. H., Langford G. 2008. The 'Boysenberry': Development of the cultivar and industries in California, Oregon and New-Zeland. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777: 103-108.

  11. Kempler C., Daubeny H. A. 2008. Red raspberry cultivars and selections from the Pacific Agri-Food Research Centre. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777:71-75.

  12. Knight V. H., Fernández F. 2008. New summer fruiting red raspberry cultivars from East Malling Research. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777:173-175.

  13. Kollányi L. 1999. A málna fajtahasználata és a fajtakiválasztás szempontjai. (Raspberry cultivar use and aspects of cultivar selection) In. Papp J., Porpáczy A. Szamóca, málna. Bogyósgyümölcsűek I. Mezőgazda Kiadó, Budapest. 159-171.

  14. Kollányi L., Kollányi G., Hajdú B. 2007. A málnasarjak növekedésének és nyugalmi állapotának kapcsolata a csúcsdominanciával. (Connections between the growth and dormancy of raspberry canes with apical dominance) A Fertődi Gyümölcstermesztési Kutató-Fejlesztő Intézet Kht. Közleményei. VI. évf. 1. szám: 17-29.

  15. Mohácsi M., Porpáczy A., Kollányi L., Szilágyi K. 1965. Szamóca, málna, szeder. (Strawberry, raspberry, blackberry) Mezőgazdasági Kiadó, Budapest.

  16. Papp J. 1999. A szederültetvények fajtahasználata és a fajtakiválasztás szempontjai. (Cultivar use of blackberry orchards and aspects of cultivar selection) In. Papp J., Porpáczy A. Szeder, riszméte, köszméte, különleges gyümölcsök. Bogyósgyümölcsűek II. Mezőgazda Kiadó. Budapest. 16-21.

  17. Papp J. 2004. Málna (Raspberry). In. Papp J. (szerk.) 2. A gyümölcsök termesztése. Budapest. Mezőgazda Kiadó, Budapest. 394-423.

  18. Papp J. 2004. Szeder (Blackberry). In. Papp J. (szerk.) 2. A gyümölcsök termesztése. Budapest. Mezőgazda Kiadó, Budapest. 424-437.

  19. Stanislavljevič M. 1999. New small fruit cultivars from Čačak: 1. The new blackberry (Rubus sp.) cultivar ' Čačanska bestrna'. Proceedings of the Seventh International Rubus Ribes Symposium. Australia. Acta Horticulturae. 505:291-296.

  20. Strik, B. et al. 2006. Worldwide production of blackberries. http://www.raspberryblackberry.com/Webdocs/Worldwide_Production_of_Blackberries_ Strik_3-2006_acres.pdf

  21. Strik B. et al. 2008. Worldwide production of blackberries. Proceedings of the Ninth International Rubus Ribes Symposium. Chile. Acta Horticulturae. 777: 209-217.

  22. http://www.gykut.hu

  23. http://www.proplant.hu

  24. http://www.haeberli-beeren.ch/

  25. http://www.americanpomological.org/registrars.html

  26. http://www.meiosis.co.uk/index.htm

  27. http://noursefarms.com/category/strawberries/

  28. http://www.lassencanyonnursery.com/index.php?option=com_content&view=article&id=28&Itemid=32

  29. http://strawberryplants.org/2010/05/strawberry-varieties/

  30. http://www.inspection.gc.ca/english/plaveg/pbrpov/cropreport/stre.shtml

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A projekt célja magyar és angol nyelvű digitális tananyagok fejlesztése a Budapesti Corvinus Egyetem Kertészettudományi Karának hét tanszékén. Az összesen 14 tananyag (hét magyar, hét angol) a kertészmérnök Msc szak és a multiple degree képzés keretében kerül felhasználásra. A digitális tartalmak az Egyetem e-learning keretrendszerével kompatibilis formában készülnek el.

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Sikeres pályázat

A projekt célja magyar és angol nyelvű digitális tananyagok fejlesztése a Budapesti Corvinus Egyetem Kertészettudományi Karának hét tanszékén. Az összesen 14 tananyag (hét magyar, hét angol) a kertészmérnök Msc szak és a multiple degree képzés keretében kerül felhasználásra. A digitális tartalmak az Egyetem e-learning keretrendszerével kompatibilis formában készülnek el.

A tananyagok az Új Széchenyi Terv Társadalmi Megújulás Operatív Program támogatásával készülnek.

TÁMOP-4.1.2.A/1-11/1-2011-0028

Félidő

A pályázat felidejére elkészültek a lektorált tananyagok, amelyek feltöltése folyamatban van. 

 

uszt logoTÁMOP-4.1.2.A/1-11/1-2011-0028

Utolsó frissítés: 2014 11. 13.