Bunashimeji mushroom named ‘HKHM25’

Abstract

The present variety of Bunashimeji mushroom named ‘HKHM25’ was cultivated by the gathering and repeated breeding of Bunashimeji mushrooms having thick and elastic stems, dark cap color, strong cap roll, and a large mushroom size, has a high quality and enhanced cultivation stability. This edible mushroom is exquisite in stability, reproducibility and uniformity when being produced.

Description

BACKGROUND OF THE INVENTION

This invention relates to a new and distinct variety of Bunashimeji mushroom, Hypsizygus marmoreus (Peck) H.E.Bigelow. This new variety named ‘HKHM25’, cultivated by repeated breeding of Bunashimeji mushroom having thick and elastic stems, dark cap color, strong cap roll, and a large mushroom size, has a high quality and enhanced cultivation stability, and ensures presentable stability, reproducibility, and uniformity.

The annual production of Bunashimeji mushrooms is approximately 120,000 tons in 2020, making it the second most consumed edible mushroom after enokitake mushroom in Japan. However, since Bunashimeji mushrooms have become available in large quantities in the market, Bunashimeji mushrooms with improved flavor, quality and shelf life has been pursued, which led to the development of ‘Hokuto 18gokin’ by our company. Further, our company has been conducting a wide variety of studies for the more stable cultivation and better quality of Bunashimeji mushrooms. Our company has developed a ‘marmo22go’ mushroom which is thicker, whiter, and has larger mushroom than ‘Hokuto 18gokin’.

Further, using ‘marmo22go’ as a parent, as a result of continuing breed improvement by cross breeding to improve stability and quality, ‘HKHM25’, which has thicker stems and stronger cap roll, as compared to ‘marmo22go’, was developed, confirming its stability, reproducibility, and uniformity.

SUMMARY OF THE INVENTION

The present invention is a new and distinct variety of mushroom plant characterized particularly by having thick and elastic stems, dark cap color, strong cap roll, and a large mushroom size, which can be cultivated by gathering and repeated breeding of fungal strains having a stability, reproducibility and uniformity when being produced. This novel and distinct variety of mushroom is identified as ‘HKHM25’.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a phylogenetic tree illustrating the antecedents of ‘HKHM25’.

FIGS. 2A and 2B respectively show front and back images of a dual-culture of ‘HKHM25’.

FIGS. 3A and 3B respectively show front and back images of a dual-culture of ‘HKHM25’ and ‘Hokuto 18gokin’.

FIGS. 4A and 4B respectively show front and back images of a dual-culture of ‘HKHM25’ and ‘marmo22go’.

FIGS. 5A and 5B respectively show front and back images of a fungal flora of ‘HKHM25’ grown in a petri dish.

FIGS. 6A and 6B respectively show front and back image of a fungal flora of ‘Hokuto 18gokin’ grown in a petri dish.

FIGS. 7A and 7B respectively show front and back images of fungal flora of ‘marmo22go’ grown in a petri dish.

FIG. 8 shows an image of cultivation area of ‘HKHM25’.

FIG. 9 shows an image of cultivation area of ‘Hokuto 18gokin’.

FIG. 10 shows an image of cultivation area of ‘marmo22go’.

FIG. 11 shows an image of a fruit body of ‘HKHM25’.

FIG. 12 shows an image of a fruit body of ‘Hokuto 18gokin’.

FIG. 13: shows an image of a fruit body of ‘marmo22go’.

FIG. 14 shows an image of density and surface color of fungal flora in cultured hyphae of ‘HKHM25’.

FIG. 15 shows an image of density and surface color of fungal flora in cultured hyphae of ‘Hokuto 18gokin’.

FIG. 16 shows an image of density and surface color of fungal flora in cultured hyphae of ‘marmo22go’.

FIG. 17 shows an image of development of aerial hypha of ‘HKHM25’.

FIG. 18 shows an image of development of aerial hypha of ‘Hokuto 18gokin’.

FIG. 19 shows an image of development of aerial hypha of ‘marmo22go’.

FIG. 20 shows an image of size and distribution of mottle of ‘HKHM25’.

FIG. 21 shows an image of size and distribution of mottle of ‘Hokuto 18gokin’.

FIG. 22 shows an image of size and distribution of mottle of ‘marmo22go’.

FIG. 23 shows an image of shape and thickness of stipe of ‘HKHM25’.

FIG. 24 shows an image of shape and thickness of stipe of ‘Hokuto 18gokin’.

FIG. 25 shows an image of shape and thickness of stipe of ‘marmo22go’.

DETAILED DESCRIPTION OF THE INVENTION

‘HKHM25’ has been asexually reproduced by tissue culture, at HOKUTO CORPORATION in Japan. The history of the ‘HKHM25’ mushroom in terms of improvement period and the like are set forth in the following chronological list of each stage of variety improvement:

• • December 2014: Cultivation of ‘MH025615’ strain.
  • January 2017: Cultivation of ‘M11025617’ (‘marmo22go’) strain.
  • December 2019: ‘MH025615’ and ‘MH025617’ (‘marmo22go’) strains were crossed and a strain with thick stem, strong cap roll, and good quality among the obtained strains was selected as ‘MH025633’. We then repeated the cultivation test to distinguish the strains.
  • March 2021: After repeated cultivation tests, since distinguishability, stability, and uniformity were confirmed, the strain was named ‘HKHM25’ and its cultivation was completed. Applied for registration of a new variety to the Ministry of Agriculture, Forestry and Fisheries of Japan.

The above crossing is summarized in the phylogenetic tree illustrated in FIG. 1.

The ‘HKHM25’ mushroom has the following characteristics: thick and elastic stems, dark cap color, strong cap roll, and overall large size.

(1) Comparison with Existing Variety by Dual Culture

Dual culture was performed for the ‘HKHM25’ mushroom and a similar variety to examine whether or not a zone line is formed.

Study Method:

As an examination method, a potato dextrose agar medium was used, and the ‘HKHM25’ mushroom and the similar variety were inoculated thereon face to face at an interval of 3 cm, and then culture was performed at 25° C. for 28 days to examine whether or not a zone line was formed.

Strains used for the comparison between present variety, ‘HKHM25’ and other varieties:

• • ‘HKHM25’: Present variety
  • ‘Hokuto 18gokin’: Variety similar to the present variety
  • ‘marmo22go’: Parent variety of the present variety
    Results:

Zone lines were formed between ‘HKHM25’ and all other co-cultured varieties

(TABLE 1, FIGS. 2 to 4)
This clearly shows that the present mushroom is a new variety.
		Similar varieties
		Hokuto 18gokin	marmo22go
	HKHM25	+	+
+ is present and − is absent.
*Zone line formation was not observed in the dual culture between ‘HKHM25’ strains.

(2) Growth Characteristics of ‘HKHM25’
Study Method:

After inoculating an agar piece of the ‘HKHM25’ having a diameter of 5 mm and an agar piece of the similar variety having a diameter of 5 mm on a potato dextrose agar medium, preculture was performed at 25° C. for 4 days so as to make the regeneration of hyphae equal (about 10 mm in diameter), and then culture was performed for 7 days at intervals of 5° C. between 5° C. and 30° C. An average daily hyphae growth rate was calculated based on a hyphae growth rate for 7 days of the culture. Also, the optimum culture period for ‘HKHM25’ is 80 days, and the number of growing days at that time is 23.1 days.

Results:

‘HKHM25’ had the fastest average daily hyphae growth rate at 20° C. In addition, HKHM25 had slower mycelial growth rate than ‘Hokuto 18gokin’ and ‘marmo22go’ at each temperature zone (Table 2).

(3) Morphological Characteristics of the ‘HKHM25’ Mushroom in a Cultivation Example

Cultivation Method:

Container: An 850 polypropylene bottle (Capacity: 850 ml, diameter 58 mm) was used.

Culture medium: Conifer sawdust, corn cob, rice bran and wheat bran were mixed at the dry weight ratio of 7:3:8:2, and the water content was adjusted to 65%. The culture medium was filled up to the brim of the bottle at the rate of 540±20 g per bottle, and was sterilized at high pressure.

Starter culture: About 20 ml of sawdust starter cultures per bottle was inoculated.

Culture: Culture was performed at 22° C. for 50 to 90 days at 70% moisture.

Growth: After completing the culture, the inoculum is removed, and shifted to a growing room. Development was conducted under a temperature of 15±1° C., at humidity of 95% or about 2,000 ppm CO₂ density. Also, light was not particularly irradiated until the first 14th day, then irradiated with about 500 to 1,000 Lx. The mushroom is harvested when the cap in the center of the stump has sufficiently opened.

Cultivation Results:

Table 2 shows the characteristics of the ‘HKHM25’ and specific difference in characteristics as compared with the similar variety when culture was performed under the abovementioned conditions.

In addition, according to R.H.S. Colour Chart, the color of the central part of cap: 199A, the color of the peripheral area of cap: 199C, the color of gill: 158C, the color of stripe: 155B. All color references are from The R.H.S. Colour Chart of The Royal Horticultural Society of London (R.H.S.), fifth edition published in 2007. Also, the descriptions are from mushrooms that are on the 24^th day.

TABLE 2

Fungus characteristics Table of Hypsizygus marmoreus (Peck) H.E. Bigelow of Recording and Registration

(Please circle the applicable items for the characteristics.)

Characteristic

values

Remarks

of similar

Characteristic values of present variety (comparison

(Measured

varieties

with standard varieties

values,

(Hokuto

Character

01

02

03

04

05

06

07

08

09

etc.)

(marmo22go)

18gokin)

Physio-

logical

property

Dual

culture

Zone line

none

ob-

—

09

09

formation

served

Dislike-

none

ob-

—

01

01

touch

served

reaction

Density of cultured hyphae

low

medium

03

02

02

Develop- ment of aerial

low

medium

03

03

02

hypha

Color of surface of fungal flora

white

pale yellow

other

02

01

01

Color of back of fungal flora

white

pale yellow

other

02

02

02

Accommo-

dativeness

for

temperature

Optimal temperature for hyphal growth

24~ 26° C.

28~ 30° C.

03 21.9° C.

05 24.1° C.

04 22.5° C.

Hyphal growth rate 5° C./mm

low

high

05 0.52 mm

06 0.70 mm

05 0.56 mm

Hyphal

growth

rate

10° C./mm

low

medium

04 0.86 mm

05 1.16 mm

05 1.24 mm

15° C./mm

low

high

05 1.65 mm

05 1.95 mm

05 1.80 mm

20° C./mm

low

medium

high

04 2.47 mm

05 2.79 mm

05 2.60 mm

25° C./mm

low

medium

high

04 2.01 mm

05 3.29 mm

04 2.47 mm

30° C./mm

low

medium

high

04 0.91 mm

07 2.17 mm

05 1.23 mm

Morpho-

logical

property

Cap

Cross sectional shape

convex

flat

con- cave

other

02

02

02

Mottle of the surface

few

many

02

02

02

Size of mottle

small

medium

03

01

03

Distribution of mottle

whole part

01

02

02

Clarity of mottle

unclarity

moderate

03

03

03

Size

medium

large

03 21.2 mm

03 23.2 mm

02 20.4 mm

Color of central area

white

grey- yellow

light grey- brown

yellow- brown

dark tan

dark grey tan

dark grey brown

other

05 199A

05 199C

05 199B

Color of peripheral area

white

grey- yellow

light grey- brown

yellow- brown

dark tan

dark grey tan

dark grey brown

other

05 199C

05 199D

05 199D

Thickness

thin

medium

thick

08 9.8 mm

09 11.3 mm

0.7 8.1 mm

Fleshy

soft

hard

05

05

07

Gill

Color

white

light orange yellow

grey- yellow

other

02 158C

02 158C

02 158C

Alignment

normal

other

02

02

02

Width

narrow

wide

02

02

02

Density

low

high

02

02

02

Stipe

Shape

long and thin

short and thin

long and thick

short and thick

05

05

01

Length

short

long

05 56.0 mm

05 53.9 mm

04 52.8 mm

Thickness

thin

medium

thick

09 17.7 mm

08 16.5 mm

05 9.4 mm

Color

yellow- white

grey

grey- brown

other

01 155B

01 155B

01 155B

Hair

few

medium

many

01

01

01

Fleshy

soft

medium

03

02

02

Ratio of maximum diameter of

small

medium

07 2.24

06 1.91

04 1.52

stem to

diameter

just below

cap

Cultural

property

Develop-

ment of

fruit body

Develop- ment

group

scattered

03

03

03

Optimal culture period

short

long

05 80 days

05 80 days

06 90 days

Length of time from fruit body-

short

long

05 23.3 days

04 21.9 days

05 22.3 days

formation

promotion

to fruit

body

harvesting

Optimal temperature for

low

medium

07 19° C.

07 19° C.

05 15° C.

primordial

development

Optimal temperature for fruit body

low

high

05 15° C.

05 15° C.

05 15° C.

growth

Adaptivity for

illuminance

Adaptivity for

culture

Yield

Yield of fruit body

few

many

05 125.4 g

06 137.0 g

02 98.4 g

The number of productive

few

medium

many

02 19.4 stems

03 21.7 stems

03 23.6 stems

stems

Other

property

Bitter

none

weak

strong

ingredient

Disease

resistance

Ingredients

Notes:

Circle shows the characteristics of ‘HKHM25’.

The R.H.S. Colour Chart of The Royal Horticultural Society of London (R.H.S.), fifth edition published in 2007, The R.H.S. contact: R.H.S. Membership Department The Royal Horticultural Society PO Box 313 London, SW1P 2PE

Claims

1. A new, distinct variety of Bunashimeji Mushroom as substantially illustrated and described in the specification.