Corylus plant named 'FELIX'

Abstract

A new and distinct cultivar of Corylus plant named ‘Felix’ characterized by an upright plant habit and high vigor, green developing and fully expanded leaves during the spring and summer, resistance to eastern filbert blight caused by the fungus Anisogramma anomala (Peck) E. Müller, presence of random amplified polymorphic DNA markers 152-800 and AA12-850, expression of incompatibility alleles S15 and S21 in the styles, and DNA fingerprints at 14 of 24 microsatellite marker loci differ from both parents OSU 384.095 and ‘Delta’, and from one parent at an additional 6 marker loci.

Description

BOTANICAL DESIGNATION

Corylus avellana

VARIETY DESIGNATION

‘Felix’

BACKGROUND

The present invention relates to a new and distinct cultivar of Corylus plant, (hazelnut, filbert) botanically known as Corylus avellana, and hereinafter referred to by the name ‘Felix’. Corylus avellana is in the family Betulaceae.

The new Corylus resulted from a controlled cross of female parent OSU 384.095 (unpatented) and male parent ‘Delta’ (unpatented) made in 1998 by Shawn A. Mehlenbacher and David C. Smith. Hybrid seeds from the cross were harvested in August 1998, stratified, and seedlings grown in the greenhouse during the summer of 1999. From this cross, total of 157 seedling trees were planted in the field in Corvallis, Oreg., USA in October, 1999. ‘Felix’ was discovered and selected by the Inventors as a single plant within the progeny of the stated cross-pollination in a controlled environment in Corvallis, Oreg. ‘Felix’ was originally assigned the designation OSU 941.016, which indicates the row and tree location of the original seedling. ‘Delta’ (unpatented) was released by the Oregon Agricultural Experiment Station in 2002. OSU 384.095 (unpatented) is from a cross of ‘Casina’×OSU 55.129 (both unpatented). OSU 55.129 is from a cross of ‘Tonda Gentile delle Langhe’ (unpatented)בExtra Ghiaghli’ (unpatented). The pedigree of ‘Felix’ includes ‘Casina’ from Asturias, Spain, ‘Tonda Gentile delle Langhe’ from Piemonte, northern Italy, and ‘Extra Ghiaghli’, which is a clone of the important Turkish cultivar ‘Tombul’ (unpatented).

The new cultivar was asexually reproduced by rooted suckers annually for five years (2005-2006 and 2008-2010) in Corvallis, Oreg. The new cultivar was also asexually propagated by whip grafting in Corvallis, Oreg. The unique features of this new Corylus are stable and reproduced true-to-type in successive generations of asexual reproduction.

SUMMARY

The following traits have been repeatedly observed and are determined to be the unique characteristics of ‘Felix’. These characteristics in combination distinguish ‘Felix’ as a new and distinct cultivar:

1. Upright plant habit and high vigor.

2. Green developing and fully expanded leaves during the spring and summer.

3. Resistance to eastern filbert blight caused by the fungus Anisogramma anomala (Peck) E. Müller.

4. Presence of random amplified polymorphic DNA markers 152-800 and AA12-850 in DNA of ‘Felix’ amplified by the polymerase chain reaction. These two markers are linked to a dominant allele for resistance to eastern filbert blight from the cultivar Gasaway (unpatented).

5. Expression of incompatibility alleles S₁₅ and S₂₁ in the styles.

6. DNA fingerprints at 14 of 24 microsatellite marker loci differ from both parents OSU 384.095 and ‘Delta’, and from one parent at an additional 6 marker loci. DNA fingerprints of standard cultivars ‘Barcelona’, ‘Tonda Gentile delle Langhe’ and ‘Extra Ghiaghli’, and ‘Gasaway’, the source of eastern filbert blight resistance, are also shown in the attached table.

In comparisons in two replicated trials conducted in Corvallis, Oreg., plants of the new Corylus differed from plants of the Corylus avellana cultivar Barcelona (unpatented), and other cultivars and selections of Corylus avellana known to the Inventors primarily in nut size, nut shape, kernel percentage (ratio of kernel weight to nut weight), frequency of blank nuts (nuts lacking kernels), time of pollen shed, time of nut maturity, length of the husk or involucre, and plant size.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying colored photographs illustrate the overall appearance of the new cultivar, showing the colors as true as it is reasonably possible to obtain in colored reproductions of this type. Foliage colors in the photographs may differ slightly from the color values cited in the detailed botanical description which accurately describe the colors of the new Corylus.

FIG. 1 shows a tree of the new cultivar ‘Felix’ growing in a field in the summer, in Corvallis, Oreg.

FIG. 2 shows the tree of the new cultivar ‘Felix’ growing in a field in January, in Corvallis, Oreg.

FIG. 3 shows typical nuts, raw kernels, and blanched kernels of ‘Felix’ hazelnut compared to those of ‘Jefferson’ hazelnut.

FIG. 4 shows the husks of ‘Felix’ hazelnut.

FIG. 5 shows the typical nuts, raw kernels, and blanched kernels of ‘Felix’ hazelnut compared to those of ‘Barcelona’ hazelnut and other hazelnut cultivars.

DETAILED PLANT DESCRIPTION

The cultivar Felix has not been observed under all possible environmental conditions. The phenotype may vary somewhat with variations in environment such as temperature and light intensity, without, however, any variance in genotype. The aforementioned photographs and following observations and measurements describe plants grown in Corvallis, Oreg. under commercial practice outdoors in the field during the fall, winter and spring. Plants used for the photographs and description were propagated by tie-off layerage and growing on their own roots, and about five years old. In the following description, color references are made to The Royal Horticultural Society Colour Chart, 1966 Edition, except where general terms of ordinary dictionary significance are used.

• Botanical classification: Corylus avellana cultivar Felix.
• Parentage:
  • • Female, or seed, parent.—Corylus avellana selection OSU 384.095 (unpatented).
    • Male, or pollen, parent.—Corylus avellana cultivar ‘Delta’ (unpatented).
• Propagation (type rooted suckers):
  • • Time to initiate roots.—about 30 days at 20° C.
    • Time to produce a rooted young plant.—about six months at 22° C.
    • Root description.—fine to thick; freely branching; creamy white in color.
• Propagation (type whip grafting):
  • • Time to budbreak on the scions.—about 14 days at 25° C.
    • Time to produce a grafted plant.—about six months at 25° C.
• Plant description:
  • • Type.—perennial shrub. Upright plant habit.
    • Growth and branching habit.—freely branching; about 15 lateral branches develop per plant. Pinching, i.e., removal of the terminal apices, enhances branching with lateral branches potentially forming at every node.
    • Size.—Plant height is about 6 meters; plant diameter or spread is about 5 meters.
    • Vigor.—vigorous growth.
• Lateral branch description:
  • • Length.—about 43 cm.
    • Diameter.—about 6 mm.
    • Internode length.—about 2.8 cm.
    • Texture.—smooth, glabrous.
    • Strength.—strong.
    • Color.—immature — 152B; mature.—152B.
• Foliage description:
  • • Arrangement.—alterriate, simple.
    • Length.—about 10.6 cm.
    • Width.—about 10.1 cm.
    • Shape.—oblong to ovate.
    • Apex.—obtuse to acute.
    • Base.—cordate.
    • Margin.—serrate.
    • Texture, upper and lower surfaces.—slightly pubescent.
    • Venation pattern.—pinnate.
    • Color.—Developing foliage, upper surface 144A, lower surfaces: 145A. Fully expanded foliage, upper surface: Spring and summer, 143A; late summer and fall, 143A. Fully expanded foliage, lower surface: Spring and summer, 139C; late summer and fall, 139C. Venation, upper surface: Spring and summer, 139C; late summer and fall, 139C. Venation, lower surface: Spring and summer, 139D; late summer and fall, 139D.
• Petiole description:
  • • Length.—about 2.7 cm.
    • Diameter.—about 1.8 mm.
    • Texture.—upper and lower surfaces.—pubescent.
    • Color.—upper surface: Spring and summer, 139D; late summer and fall, 139D. lower surface: Spring and summer, 139D; late summer and fall, 139D.
• Flower description:
  • • Male inflorescences.—catkins, color prior to elongation 194C.
    • Female inflorescence.—style color 047B.
• Nut description:
  • • Length.—about 18.7 mm.
    • Width.—about 18.9 mm.
    • Depth.—about 16.7 mm.
    • Nut shape.—round.
    • Nut shape index [(Width+Depth)/2*Length].—0.95.
    • Nut compression index (Width/Depth).—1.13.
    • Nut shell color.—167A.
    • Nut weight.—about 2.65 grams.
    • Kernel weight.—about 1.32 grams.
    • Kernel percentage (kernel weight/nut weight).—about 50%.
• Disease/pest resistance: Plants of the new Corylus are highly resistant to eastern filbert blight caused by the fungus Anisogramma anomala (Peck) E. Müller. Plants of the new Corylus are moderately resistant to bud mites (Phytoptus avellanae Nal.), while plants of ‘Tonda Gentile delle Langhe’ are highly susceptible, and plants of ‘Barcelona’ are highly resistant.
• Temperature tolerance: tolerates temperatures from −10 to 38° C. in the field in Corvallis, Oreg.

TABLE 1
Primers and annealing temperatures for the 24 microsatellite marker loci used to
fingerprint ‘Felix’ and other hazelnut cultivars.
	Repeat
Locus	motif	Size	Ta	n	He	Ho	PIC	r	LG	Primers 5′-3′	Primers 5′-3′	Reference
A613	(TC)13	149-	60	14	0.85	0.85	0.85	0.00	11	Ned-	R-	Gurcan et al.
	(CA)12	177								CACACGCCTT	CCCCTTTCACAT	2010
										GTCACTCTTT	GTTTGCTT
										(SEQ ID NO: 1)	(SEQ ID NO: 2)
A614	(TC)17	125-	60	14	0.85	0.85	0.84	0.00	6	Hex-	R-	Gurcan et al.
	(CA)10	156								TGGCAGAGCT	GCAGTGGAGGA	2010
	NNN(CA)6									TTGTCAGCTT	TTGCTGACT
										(SEQ ID NO: 3)	(SEQ ID NO: 4)
A616	(AC)11	136-	60	13	0.85	0.85	0.83	0.00	8	Fam-	R-	Gurcan et al.
		162								CACTCATACC	ATGGCTTTTGCT	2010
										GCAAACTCCA	TCGTTTTG
										(SEQ ID NO: 5)	(SEQ ID NO: 6)
A640	(CT)15	354-	67	11	0.80	0.73	0.7	0.04	10	F-	Fam-	Gurcan et al.
	(CA)13	378								TGCCTCTGCA	CGCCATATAATT	2010
										GTTAGTCATC	GGGATGCTTGTT
										AAATGTAGG	G
										(SEQ ID NO: 7)	(SEQ ID NO: 8)
B107	(CT)14	112-	55	14	0.85	0.80	0.83	0.02	10	Ned-	R-	Boccacci et al.
		151								GTAGGTGCAC	AACACCATATTG	2005;
										TTGATGTGCTT	AGTCTTTCAAAG	Gokirmak et al.
										TAC	C	2009
										(SEQ ID NO: 9)	(SEQ ID NO: 10)
B617	(GA)15	280-	60	9	0.80	0.78	0.78	0.01	8	Fam-	R-	Gurcan et al.
		298								TCCGTGTTGA	TGTTTTTGGTGG	2010
										GTATGGACGA	AGCGATG
										(SEQ ID NO: 11)	(SEQ ID NO: 12)
B619	(TC)21	146-	60	14	0.88	0.88	0.7	0.00	3	Fam-	R-	Gurcan et al.
		180								AGTCGGCTCC	GCGATCTGACCT	2010
										CCTTTTCTC	CATTTTTG
										(SEQ ID NO: 13)	(SEQ ID NO: 14)
B634	(AG)15	218-	60	9	0.76	0.76	0.73	0.00	4	Hex-	R-	Gurcan et al.
		238								CCTGCATCCA	GTGCAGAGGTTG	2010
										GGACTCATTA	CACTCAAA
										60	(SEQ ID NO: 16)
										(SEQ ID NO: 15)
B657	(AG)15	210-	60	8	0.84	0.98	0.82	−0.08	11	Ned-	R-	Gurcan et al.
		228								GAGAGTGCGT	AGCCTCACCTCC	2010
										CTTCCTCTGG	AACGAAC
										(SEQ ID NO: 17)	(SEQ ID NO: 18)
B671	(AG)6NN	221-	60	13	0.86	0.88	0.84	−0.01	9	Hex-	R-	Gurcan et al.
	(GA)17	249								TTGCCAGTGC	ACCAGCTCTGGG	2010
										ATACTCTGAT	CTTAACAC
										G	(SEQ ID NO: 20)
										(SEQ ID NO: 19)
B709	(GA)21	219-	60	8	0.74	0.76	0.70	−0.01	5	Ned-	R-	Gurcan et al.
		233								CCAAGCACGA	GCGGGTTCTCGT	2010
										ATGAACTCAA	TGTACACT
										(SEQ ID NO: 21)	(SEQ ID NO: 22)
B733	(TC)15	161-	60	8	0.68	0.68	0.63	0.00	7.2	Ned-	R-	Gurcan et al.
		183								CACCCTCTTCA	CATCCCCTGTTG	2010
										CCACCTCAT	GAGTTTTC
										(SEQ ID NO: 23)	(SEQ ID NO: 24)
B741	(GT)5	176-	60	10	0.77	0.78	0.74	0.00	5	Fam-	R-	Gurcan et al.
	(GA)12	194								GTTCACAGGC	CGTGTTGCTCAT	2010
										TGTTGGGTTT	GTGTTGTG
										(SEQ ID NO: 25)	(SEQ ID NO: 26)
B749	(TC)12	200-	60	6	0.60	0.64	0.51	−0.03	1	Hex-	R-	Gurcan et al.
		210								GGCTGACAAC	TCGGCTAGGGTT	2010
										ACAGCAGAAA	AGGGTTTT
										(SEQ ID NO: 27)	(SEQ ID NO: 28
B751	(GA)15	141-	60	7	0.80	0.80	0.77	0.01	7.2	Fam-	R-	Gurcan e al.
		153								AGCTGGTTCTT	AAACTCAAATA	2010
										CGACATTCC	AAACCCCTGCTC
										(SEQ ID NO: 29)	(SEQ ID NO: 30)
B774	(AG)15	195-	60	8	0.80	0.80	0.77	0.01	5	Ned-	R-	Gurcan et al.
		213								GTTTTGCGAG	TGTGTGTGGTCT	2010
										CTCATTGTCA	GTAGGCACT
										(SEQ ID NO: 31)	(SEQ ID NO: 32)
B776	(GA)17	134-	60	7	0.71	0.60	0.67	0.07	6	Fam-	R-	Gurcan et al.
		148								TGTATGTACA	TGAGGGGAAGA	2010
										CACGGAGAGA	GGTTTGATG
										GAGA	(SEQ ID NO: 34)
										(SEQ ID NO: 33)
B795	(TC)8	296-	60	12	0.76	0.74	0.74	0.01	NA	Fam-	R-	Gurcan et al.
	Ns(CT)7	332								GACCCACAAA	TGGGCATCATCC	2010
	Ns(CT)10									CAATAACCTA	AGGTCTA
	Ns(TC)5									TCTC	(SEQ ID NO: 36)
										(SEQ ID NO: 35)
C115	(TAA)5	167-	60	14	0.80	0.80	0.77	0.00	4	Fam-	GTTTCCAGATCT	Bassil et al.
	(GAA)12	226								ATTTTCCGCA	GCCTCCATATAA	2005b,
										GATAATACAG	T	Gokirmak et al.
										G	(SEQ ID NO: 38)	2009
										(SEQ ID NO: 37)
KG809	(AGG)6	333-	55	5	0.66	0.64	0.60	0.01	4	Hex-	F-	Gurcan and
		345								AGGCATCAGT	GGAAGGTGAGA	Mehlenbacher
										TCATCCAA	GAAATCAAGT	2010
										(SEQ ID NO: 39)	(SEQ ID NO: 40)
KG811	(GA)17	240-	58	12	0.83	0.82	0.81	0.01	2	Ned-	F-	Gurcan and
		278								AAGGCGGCAC	GAACAACTGAA	Mehlenbacher
										TCGCTCAC	GACAGCAAAG	2010
										(SEQ ID NO: 41)	(SEQ ID NO: 42)
KG827	(CT)13AA	264-	67	9	0.78	0.84	0.75	−0.04	9	Fam-	GAGGGAGCAAG	Gurcan and
	(CA)7	282								AGAACTCCGA	TCAAAGTTGAGA	Mehlenbacher
										CTAATAATCC	AGAAA	2010
										TAACCCTTGC	(SEQ ID NO: 44)
										(SEQ ID NO: 43)
KG830	(CT)14	279-	67	9	0.79	0.78	0.76	0.00	9	Ned-	AAAGCAACTCAT	Gurcan and
	GTATT	311								TGGAGGAAGT	AGCTGAAGTCCA	Mehlenbacher
	(CA)8									TTTGAATGGT	ATCA	2010
										AGTAGAGGA	(SEQ ID NO: 46)
										(SEQ ID NO: 45)
Soman-G	(AAT)5		54	3	0.60	0.98	0.51	−0.27	NA	Hex-	R-	unpublished
										TGGCGTTGCA	GCCATCTTTAGA
										ACATATTCTC	AAGTTCGATACA
										(SEQ ID NO: 47)	G
											(SEQ ID NO: 48)
Primer fluorescent tags are FAM, HEX, and NED.
Ta: annealing temperature (° C.)
N: number of alleles
He: expected heterozygosity
Ho: observed heterozygosity
PIC: polymorphism information content
r: estimated null allele frequency
LG: linkage group

TABLE 2
Allele sizes in ‘Felix’ and other hazelnut cultivars at 24 microsatellite loci.
					‘Tonda Gentile		‘Extra
Tag	Locus	‘Felix’	‘384.095’	‘Delta’	delle Langhe‘	‘Barcelona’	Ghiaghli’	‘Gasaway’
NED	A613	149/151	151/169	149/177	151/157	151/159	167/169	159/161
HEX	A614	139/143	135/139	143/158	125/135	125/131	125/150	143/158
FAM	A616	150/150	150/150	150/150	148/150	142/150	150/158	148/148
FAM	A640	368/372	368/372	362/372	354/368	354/374	374/374	362/368
NED	B107	130/152	130/152	122/130	134/152	112/134	116/116	122/128
FAM	B617	286/286	286/286	286/286	286/296	286/290	294/296	292/296
FAM	B619	156/164	148/164	156/164	148/164	156/170	164/174	170/174
HEX	B634	226/234	226/226	226/234	226/226	226/226	226/226	220/232
NED	B657	218/226	218/222	222/226	218/226	218/222	210/222	224/228
HEX	B671	227/235	227/247	235/247	237/241	223/227	227/247	235/247
NED	B709	227/231	225/231	227/227	227/227	225/233	225/227	227/227
NED	B733	173/179	171/173	173/179	171/173	171/173	171/171	173/173
FAM	B741	177/186	177/186	177/186	177/184	177/186	177/184	186/188
HEX	B749	206/206	206/208	206/208	206/208	208/208	208/208	206/208
FAM	B751	151/153	143/153	143/151	149/153	143/153	143/147	143/143
NED	B774	203/213	203/203	207/213	203/211	203/207	195/203	203/209
FAM	B776	148/150	137/148	137/150	137/137	135/137	135/137	146/150
FAM	B795	330/330	310/330	314/330	312/330	330/330	296/310	314/316
FAM	C115	197/215	173/197	197/215	173/173	173/194	182/194	215/218
HEX	KG809	336/345	336/336	345/345	336/339	336/336	336/339	336/345
NED	KG811	248/264	242/248	254/264	254/264	258/264	240/242	254/258
FAM	KG827	270/282	276/282	270/270	266/268	280/282	276/282	270/280
NED	KG830	291/303	289/303	291/297	291/295	291/295	291/295	291/305
HEX	SMNG	196/200	196/200	196/196	196/200	196/200	196/200	196/196

REFERENCES:

Bassil N. V., Botta R., Mehlenbacher S. A. 2005a. Microsatellite markers in hazelnut: Isolation, characterization and cross-species amplification. J. Amer. Soc. Hort. Sci. 130:543-549.

Bassil N. V., Botta R., Mehlenbacher S. A. 2005b. Additional microsatellite markers of the European hazelnut. Acta Hort. 686:105-110.

Boccacci P., Akkak A., Bassil N. V., Mehlenbacher S. A., Botta R. 2005. Characterization and evaluation of microsatellite loci in European hazelnut (C. avellana) and their transferability to other Corylus species. Molec. Ecol. Notes 5:934-937.

Boccacci P., Akkak, A. and Botta, R. 2006. DNA typing and genetic relations among European hazelnut (Corylus avellana L.) cultivars using microsatellite markers. Genome 49:598-611.

Gokirmak T., Mehlenbacher S. A., Bassil N. V. 2009. Characterization of European hazelnut (Corylus avellana) cultivars using SSR markers. Genetic Resources and Crop Evolution 56:147-172.

Gürcan, K., S. A. Mehlenbacher and V. Erdogan. 2010a. Genetic diversity in hazelnut cultivars from Black Sea countries assessed using SSR markers. Plant Breeding (available on-line doi:10.1111/j.1439-0523.2009.01753.x).

Gürcan, K., S. A. Mehlenbacher, N. V. Bassil, P. Boccacci, A. Akkak and R. Botta. 2010b. New microsatellite markers for Corylus avellana from enriched libraries. Tree Genetics and Genomes (available on-line as DOI 10.1007/s11295-010-0269-y).

Gürcan, K. and S. A. Mehlenbacher. 2010. Development of microsatellite marker loci for European hazelnut (Corylus avellana L.) from ISSR fragments. Molecular Breeding (available on-line).

Claims

1. A new and distinct cultivar of Corylus plant named ‘Felix’, as illustrated and described.