Blackberry plant named ‘Zodiac’

Abstract

A new and distinct blackberry cultivar that originated from seed produced from a cross between the thornless maternal blackberry plant ‘ORDS 2707-1’ (unpatented) and the thornless paternal blackberry plant ‘ORDS 2785-2’ (unpatented)). This new blackberry cultivar can be distinguished by its high yields of small-to-medium sized, uniformly shaped, glossy, and distinctly conical berries that can be machine harvested with good firmness and quality for a trailing type of blackberry. The berries are well suited for processing, with an excellent flavor characterized by mild sweetness, and a good sugar/acid balance. The new and distinct blackberry variety has fruit that are borne on vigorous canes which combine two distinct sources of genetic thornlessness (‘Austin Thornless’, ‘Lincoln Logan’) from the respective female and male parent.

Description

Latin name of the genus and species of the plant claimed: ‘ZODIAC’ is a blackberry plant that is Rubus subg. Rubus Watson.

Variety denomination: The new blackberry plant claimed is of the variety denominated ‘Zodiac’ Rubus subg. Rubus Watson.

BACKGROUND OF THE NEW PLANT

The present invention relates to a new and distinct blackberry cultivar designated ‘Zodiac’ and botanically known as Rubus subg. Rubus Watson. This new thornless blackberry cultivar was discovered in Corvallis, Oreg. in July 2011, and is the result of a 2008 cross between the maternal blackberry plant ‘ORUS 2707-1’ (unpatented) and the paternal blackberry plant ‘ORUS 2785-2’ (unpatented). ‘ORUS 2707-1’ was a selection from a cross of the thorny trailing blackberry ‘ORUS 1368-1’ (unpatented) and thornless trailing blackberry ‘NZ 9351-4’ (unpatented). ‘ORUS 2785-2’ was a selection from a cross of the wild Rubus ursinus blackberry accession ‘GP 4-21’ (unpatented) and the thornless trailing blackberry ‘Waldo’ (unpatented). ‘Zodiac’ thornlessness is derived from a combination of the ‘Lincoln Logan’ (unpatented) source on its maternal side, and the ‘Austin Thornless’ (unpatented) source on its paternal side. The original seedling of the new cultivar was asexually propagated in Benton County, Oreg. The new cultivar was established in vitro from a cane cutting and microcuttings have been taken and rooted from this sort of culture. The cultivar was referred to as ‘ORUS 4222-1’ internally as an experimental designation prior to release. The present invention has been found to be stable and reproduce true to type through successive asexual propagations.

SUMMARY OF THE NEW PLANT

The following are the most outstanding and distinguishing characteristics of this new cultivar when grown under normal horticultural practices in Oregon. The new cultivar is thornless and possesses a trailing growth habit. The new cultivar ripens in the mid-season for a trailing type, one week later than ‘Columbia Star’ (U.S. Plant Pat. No. 25,532). The new cultivar has high plant vigor and favorable lateral fruiting architecture compared to current cultivar standards, with a plant vigor rating similar to ‘Columbia Star’ and higher than ‘Black Diamond’ (unpatented), and a higher fruit per-lateral count than ‘Columbia Star’ and on par with ‘Black Diamond’. Thus, the new cultivar appears to favorably combine the greater vegetative vigor and lateral lengths of ‘Columbia Star’ with the higher number of fruits per-lateral of ‘Black Diamond’ in a single variety. The cultivar demonstrated higher average yields than ‘Black Diamond’ and ‘Columbia Star’ in a 2017-planted trial in Aurora, Oreg. from 2019-2020, and higher yields in a 2019-planted trial in 2021 at the same location. The new cultivar has medium-size berries which release easily and possess sufficient firmness, skin toughness, and abrasion resistance to be machine harvestable. The fruit possess a high gloss and uniformly conical shape that narrows toward the tip of the berry, lending a distinct appearance. The new cultivar's fruit possessed higher soluble solids and acidity than ‘Black Diamond’ and ‘Columbia Star’ based on samples measured in 2016 and have excellent flavor and texture when eaten fresh.

BRIEF DESCRIPTION OF THE PHOTOGRAPHS

This new blackberry plant is illustrated by the accompanying photographs that show the plants, ripening fruit morphology, and harvested fruit; the colors shown are as true as can be reasonably obtained by conventional photographic procedures.

FIG. 1 shows an example of a fruiting cluster with ripe ‘Zodiac’ fruit.

FIG. 2 shows an example of the conical shape of ‘Zodiac’ fruit which characterizes the distinct morphology of the cultivar.

FIG. 3 shows a clamshell of ‘Zodiac’ fruit after 9 days of refrigerated storage at ˜4° C.

FIG. 4 shows a flat of harvested ‘Zodiac’ fruit (left) compared to a flat of ‘Columbia Star’ (U.S. Plant Pat. No. 25,532) fruit (right).

FIG. 5 shows a plot of entire 3 year old ‘Zodiac’ plants during ripening season in early July.

FIG. 6 shows the architecture and presentation of ‘Zodiac’ fruiting laterals protruding from the floricane canopy.

FIG. 7 shows the morphology of a ‘Zodiac’ flower.

DETAILED DESCRIPTION OF THE NEW CULTIVAR

The following description of ‘Zodiac’ is based on observations taken from 2012 to 2021 growing seasons in trials in Corvallis and Aurora, Oreg. This description is in accordance with UPOV terminology. Color designations, color descriptions and other phenotypical descriptions may deviate from the stated values and descriptions depending upon variation in environmental, seasonal, climatic, and cultural conditions. ‘Zodiac’ has not been observed under all possible environmental conditions. Color terminology follows The Royal Horticultural Society Colour Chart London (R.H.S.) (5^th edition, 2007).

Table 1 shows plant characteristics of the new cultivar compared with plant characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Characteristics include plant vigor, growth habit, date of bud-break, presence of spines further than 0.6 m from the soil surface, presence of spines less than 0.6 m from the soil surface, weight of primary fruit, uniformity of berry shape, fruit firmness, fruit flavor, fruit soluble solids (%; in Brix), fruit pH, fruit titratable acidity (% as citric acid), and yield (actual kg*plt-1). Fruit chemistry measurements are from 2017 trial data collected from Aurora, Oreg.

TABLE 1
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Plant vigor	High	High	Medium
Growth habit	Trailing	Trailing	Trailing
Date of budbreak	27 Mar. 2012	27 Mar. 2012	27 Mar. 2012
Presence of spines further	Absent	Absent	Absent
than 0.6 m from the soil
surface
Presence of spines less than	Absent	Absent	Numerous
0.6 m from the soil surface
Weight of primary fruit	5.3 g	7.7 g	6.1 g
Uniformity of berry shape	Excellent	Excellent	Excellent
Fruit firmness	Very good	Very good	Good
Fruit flavor	Very good	Excellent	Good
Fruit soluble solids (%; in	12.38	12.21	9.77
Brix)
Fruit pH	3.32	3.25	3.31
Fruit titratable acidity (% as	14.04	13.71	12.23
citric acid)
Yield (actual kg · plt-1)	7.90	7.54	7.01

Table 2 shows floricane and mature primocane characteristics of the new cultivar compared with floricane and mature primocane characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Characteristics include diameter at base, diameter at midpoint, diameter at terminus, internode length at base, internode length at midpoint, internode length at terminus, presence of spines further than 0.6 m from the soil surface, presence of spines less than 0.6 m from the soil surface, floricane color at base, floricane color at midpoint, floricane color at terminus, floricane lateral length, floricane lateral strength, primocane color at base, primocane color at midpoint, primocane color at terminus, and floricane length (range).

TABLE 2
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Diameter at base	0.90 cm	0.84 cm	1.44 cm
Diameter at midpoint	0.87 cm	0.56 cm	0.80 cm
Diameter at terminus	0.46 cm	0.31 cm	0.55 cm
Internode length at base	5.73 cm	6.03 cm	5.04 cm
Internode length at midpoint	6.92 cm	5.22 cm	5.77 cm
Internode length at terminus	3.98 cm	3.81 cm	4.90 cm
Presence of spines further	Absent	Absent	Absent
than 0.6 m from the soil
surface
Presence of spines	Absent	Absent	Numerous
less than 0.6 m
from the soil surface
Floticane color at base	RHS 143C	RHS 144A	RHS 152A
Floticane color at midpoint	RHS 143C	RHS 146C	RHS 152A
Floticane color at terminus	RHS 143C	RHS 144B	RHS 152B
Floticane lateral length	Medium-	Medium-	Short
	long	long
Floticane lateral strength	Medium	Medium	Strong
Primocane color at base	RHS 143C	RHS 144A	RHS 144A w/red
			(187A) streaking
Primocane color at midpoint	RHS 143C	RHS 144A	RHS 146C w/red
			(187A) streaking
Primocane color at terminus	RHS 143C	RHS 144B	RHS 144A, often
			streaked w/red
			(187A)
Floticane length (range)	3.1-6.4 m	2.8-3.7 m	2.7-4.3 m

Table 3 shows primocane foliage characteristics of the new cultivar compared with primocane foliage characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Primocane characteristics include mature compound leaf width, mature compound leaf length, number of leaflets per primocane compound leaf, mature leaflet shape, mature leaflet apex, mature leaflet base, mature terminal leaflet width, mature terminal leaflet length, mature first lateral leaflet width, mature first lateral leaflet length, leaflet margin, leaflet serration teeth length, leaflet serration teeth width at base, spine presence on leaves, pubescence on primocane leaflet: upper surface, pubescence on primocane leaflet: undersurface, primocane leaf color abaxial, primocane leaf color adaxial, petiole length, petiole color: upper surface, petiole color: undersurface, petiolule length: terminal leaflet, petiolule length: first distal leaflet, petiolule color: abaxial, petiolule color: adaxial, stipule length, and stipule width.

TABLE 3
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Mature compound leaf	22.80 cm	22.07 cm	19.75 cm
width
Mature compound leaf	22.82 cm	22.42 cm	18.83 cm
length
Number of leaflets per	Usually 6;	Usually 5	Usually 5;
primocane compound leaf	ranges		ranges
	from 5-7		from 3-7
Mature leaflet shape	Ovate to	Ovate	Ovate to Cordate
	Cordate
Mature leaflet apex	Broadly	Acute	Broadly
	acuminate		acuminate
Mature leaflet base	Cordate	Cordate	Round to cordate
Mature terminal leaflet	9.0 cm	8.70 cm	7.43 cm
width
Mature terminal leaflet	11.7 cm	11.68 cm	8.83 cm
length
Mature first lateral leaflet	6.0 cm	4.92 cm	7.72 cm
width
Mature first lateral leaflet	8.2 cm	7.30 cm	10.07 cm
length
Leaflet margin	Double	Double	Serrate
	serrate	serrate
Leaflet serration teeth	0.45 cm	0.42 cm	0.24 cm
length
Leaflet serration teeth	0.63 cm	1.07 cm	0.40 cm
width at base
Spine presence on leaves	Absent	Absent	Very short, soft
			spines on sides
			and back of
			petiole,
			petiolules,
			midveins
			and larger
			lateral veins
Pubescence on primocane	Light	Light	Sparse
leaflet: upper surface
Pubescence on primocane	Medium	Light	Heavy, soft
leaflet: undersurface
Primocane leaf color	RHS 139A	RHS	RHS N137
abaxial		N137A
Primocane leaf color	RHS 139A	RHS 137B	RHS 147B
adaxial
Petiole length	8.4 cm	8.18 cm	7.90 cm
Petiole color: upper	RHS 144C &	RHS 144A	RHS 146A &
surface	183B		146B, maturing
			to 177A
Petiole color:	RHS 144C	RHS 144B	1 RHS 44B
undersurface		streaked
		with
		red 184A
Petiolule length:	2.5 cm	2.83 cm	4.43 cm
terminal leaflet
Petiolule length: first	0.5 cm	0.28 cm	0.68 cm
distal leaflet
Petiolule color: abaxial	RHS 139A	RHS 200B	RHS 146A &
			146B
Petiolule color: adaxial	RHS 139A	RHS 144B	RHS 144B
Stipule length	1.45 cm	2.20 cm	0.90 cm
Stipule width	0.27 cm	0.20 cm	0.23 cm

Table 4 shows floricane foliage characteristics of the new cultivar compared with floricane foliage characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Floricane characteristics include mature compound leaf width, mature compound leaf length, number of leaflets per floricane compound leaf, mature leaflet shape, mature leaflet apex, mature leaflet base, mature terminal leaflet width, mature terminal leaflet length, mature first lateral leaflet width, mature first lateral leaflet length, leaflet margin, leaflet serration teeth length, leaflet serration teeth width at base, pubescence on floricane leaflet: upper surface, pubescence on floricane leaflet: undersurface, floricane leaf color abaxial, floricane leaf color adaxial, petiole length, petiolule length: terminal leaflet, petiolule length: first distal leaflet, petiolule color: abaxial, petiolule color: adaxial, stipule length, and stipule width.

TABLE 4
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Mature compound leaf width	14.4 cm	16.70 cm	11.57 cm
Mature compound leaf length	13.8 cm	16.07 cm	11.68 cm
Number of leaflets per floricane	Usually 3	Usually 3	Usually 3;
compound leaf			occasionally
			1 or 5
Mature leaflet shape	Ovate to	Ovate	Oval to
	cordate		ovate
Mature leaflet apex	Broadly	Acute	Acute
	acuminate
Mature leaflet base	Cordate	Rounded	rounded to
			cordate
Mature terminal leaflet width	8.2 cm	7.27 cm	6.18 cm
Mature terminal leaflet length	9.7 cm	11.47 cm	8.28 cm
Mature first lateral leaflet width	5.0 cm	6.18 cm	4.77 cm
Mature first lateral leaflet length	7.7 cm	9.07 cm	6.57 cm
Leaflet margin	Double	Double	Serrate
	serrate	serrate
Leaflet serration teeth length	0.51 cm	0.29 cm	0.27 cm
Leaflet serration teeth width at	0.48 cm	0.48 cm	0.64 cm
base
Pubescence on floricane leaflet:	Light	Light	None
upper surface
Pubescence on floricane leaflet:	Medium	Light	Medium
undersurface
Floricane leaf color abaxial	RHS 139A	RHS N137A	RHS 147A
Floricane leaf color adaxial	RHS 139A	RHS 137C	RHS 147B
Petiole length	4.2 cm	7.07 cm	4.43 cm
Petiolule length: terminal leaflet	1.80 cm	2.28 cm	1.90 cm
Petiolule length: first distal	0.37 cm	0.30 cm	0.23 cm
leaflet
Petiolule color: abaxial	RHS 144B	RHS 145A	RHS 146C
Petiolule color: adaxial	RHS 144B	RHS 185A &	RHS 144B
		145A
Stipule length	0.99 cm	1.36 cm	0.25 cm
Stipule width	0.25 cm	0.12 cm	0.04 cm

Table 5 shows flower and flowering characteristics of the new cultivar compared with flower and flowering characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Flower and flowering characteristics include date 1st bloom, date full bloom, date last bloom, petal color, number flowers per cluster, number of petals per flower, flower diameter, petal length, petal width, and number of sepals per flower.

TABLE 5
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Date 1st bloom	14-May	7-May	14-May
Date full bloom	24-May	15-May	21-May
Date last bloom	23-June	17-June	14-June
Petal color (upper and lower	RHS	RHS 155C	RHS
surfaces)	NN155B		NN155C
Number flowers per cluster	7.0	3.50	9.17
Number of petals per flower	5.5	5.17	5.33
Flower diameter	3.3 cm	3.23 cm	2.51 cm
Petal length	1.5 cm	1.65 cm	1.32 cm
Petal width	1.0 cm	0.96 cm	1.00 cm
Number of sepals per flower	5.5	5.83	5.83
Petal texture (upper and lower	smooth
surfaces)

Table 6 shows fruit and fruiting characteristics of the new cultivar compared with fruit and fruiting characteristics of the blackberry plants ‘Columbia Star’ and ‘Black Diamond’. Fruit and fruiting characteristics include date 5% of fruit were ripe, date 50% of fruit were ripe, date 95% of fruit were ripe, weight of primary fruit, weight of secondary fruit, weight of tertiary fruit, diameter of primary fruit at equator, diameter of 2° fruit at equator, diameter of 3° fruit at equator, diameter of 1° fruit at poles: tip, diameter of 1° fruit at poles: base, diameter of 2° fruit at poles: tip, diameter of 2° fruit at poles: base, diameter of 3° fruit at poles: tip, diameter of 3° fruit at poles: base, berry length primary fruit, berry length 2° fruit, berry length 3° fruit, ratio of primary fruit length to width, shape description, uniformity of berry shape, color when full ripe, number of drupelets per fruit, drupelet weight, individual seed weight, glossiness, firmness, flavor, texture of fruit when chewed, drupelet skin resistance to abrasion, ease of separation of fruit from pedicel, machine harvestability, resistance to heat damage of fruit, berries per inflorescence—mean, berries per inflorescence range, soluble solids (%; in Brix), pH, titratable acidity (% as citric acid), and yield (actual kg*plt-1).

TABLE 6
		Columbia	Black
Characteristic	Zodiac	Star	Diamond
Date 5% of fruit were ripe	25-June	23-June	23-June
Date 50% of fruit were ripe	7-July	30-June	30-June
Date 95% of fruit were ripe	21-July	14-July	14-July
Weight of primary fruit	5.3 g	7.96 g	6.92 g
Weight of secondary fruit	5.1 g	9.68 g	6.49 g
Weight of tertiary fruit	4.9 g	8.02 g	6.44 g
Diameter of primary fruit at	1.59 cm	1.94 cm	1.98 cm
equator
Diameter of 2° fruit at equator	1.45 cm	1.98 cm	1.96 cm
Diameter of 3° fruit at equator	1.49 cm	1.88 cm	1.90 cm
Diameter of 1° fruit at poles: tip	0.93 cm	1.28 cm	1.24 cm
Diameter of 1° fruit at poles: base	1.42 cm	1.68 cm	1.82 cm
Diameter of 2° fruit at poles: tip	0.89 cm	1.25 cm	1.12 cm
Diameter of 2° fruit at poles: base	1.38 cm	1.82 cm	1.70 cm
Diameter of 3° fruit at poles: tip	0.88 cm	3.85 cm	1.25 cm
Diameter of 3° fruit at poles: base	1.46 cm	1.73 cm	1.76 cm
Berry length primary fruit	3.34 cm	3.83 cm	3.19 cm
Berry length 2° fruit	2.90 cm	3.84 cm	2.91 cm
Berry length 3° fruit	2.70 cm	3.62 cm	2.88 cm
Ratio of primary fruit length to	2.1	1.98	1.62
width
Shape descriprion	Conic	Conic	Conic
Uniformity of berry shape	Excellent	Excellent	Excellent
Color when full ripe	RHS 203C	RHS 203B	RHS 203B
Number of drupelets per fruit	92	147.67	75.83
Drupelet weight	6.2 mg	5.10 mg	7.90 mg
Individual seed weight	1.7 mg	3.95 mg	3.95 mg
Glossiness	Medium	Medium	Medium
	to high	glossy to	glossy to
		dull	dull
Firmness	Very good	Very good	Good
Flavor	Very Good	Excellent	Good
Texture of fruit when chewed	Excellent	Very good to	Very good
		excellent
Drupelet skin resistance to	Good	Good	Good
abrasion
Ease of separation of fruit from	Easy	Easy	Easy
pedicel
Machine harvestability	Excellent	Excellent	Excellent
Resistance to heat damage of	Medium	Medium	Medium to
fruit	to good	to good	good
Berries per inflorescence - mean	10.00	7.00	11.50
Berries per inflorescence range	7-14	5-10	9-14
Soluble solids (%; in Brix)	12.4	11.90	9.97
pH	3.5	3.20	3.40
Titratable acidity (% as	14.1	13.77	12.82
citric acid)
Yield (actual kg · plt-1)	7.90	7.54	7.01

COMPARISON WITH PARENTAL AND COMMERCIAL VARIETIES

‘Zodiac’ differs from the female parent blackberry plant ORUS 2707-1 in that it has darker fruit color with fewer purple drupelets, well-suited firmness for machine harvest, smaller fruit size (4.7-5.3 g), similar sweetness (12.4-13.7% Brix), and similar productivity (6.3-7.6 tons/acre). By comparison, ORUS 2707-1 (unpatented) has larger fruit (7.9 g), similar sweetness (13.2% Brix), and similar productivity (7.8 tons/acre), but is softer and tends to purple, making it less well suited for machine harvest.

‘Zodiac’ differs from the male parent blackberry plant ‘ORUS 2785-2’ in that it has fruit well-suited for machine harvest, larger fruit size (4.7-5.3 g), similar sweetness (12.4-13.7% Brix), and much lower acidity (1.41 g citric acid/100 g fruit). By comparison, ‘ORUS 2785-2’ has very small fruit (2.6 g) due to its half-wild pedigree, with much higher tartness as a result of its higher acid content (2.54 g citric acid/100 g fruit).

‘Zodiac’ differs from the commercial trailing varieties ‘Columbia Star’ and ‘Black Diamond’ in that it is 7-10 days later ripening. ‘Zodiac’ has similar fruit quality after 7 days in refrigerated storage in plastic clam shell packaging at 4° C. to ‘Columbia’ and higher fruit quality than ‘Black Diamond’. The ‘Zodiac’ fruit are smaller and glossier than ‘Columbia Star’ with a flavor that is slightly less aromatic and characterized more by its sweetness with good sugar/acid balance and an excellent texture that combines firm but not overly tough skin and smooth internal quality with very small seeds. The fruit quality and flavor are better than ‘Black Diamond’. ‘Zodiac’ yields were typically similar to or slightly higher than ‘Columbia’ in trials held in Aurora, Oreg.

Claims

1. A new and distinct cultivar of thornless blackberry plant named ‘Zodiac’, substantially as illustrated and described, characterized by its high yields of machine harvestable berries, which are uniform and conical with good firmness, skin toughness, excellent flavor, and processing quality, and combining multiple sources of genetic thornlessness.