SPATHIPHYLLUM HAVING REDUCED POLLEN CONTENT AND METHOD FOR THE PREPARATION THEREOF

Abstract

The invention relates to Spathiphyllum plants having reduced pollen content, obtained by a method, comprising the steps of providing a tetraploid Spathiphyllum parent and a diploid Spathiphyllum parent, and crossing these tetraploid and diploid parents to produce the Spathiphyllum plants having reduced pollen content. The invention also relates to a method for producing Spathiphyllum plants having reduced pollen content.

Claims

1) Spathiphyllum plant with reduced pollen content, obtained by a method, comprising the steps of a) providing a tetraploid Spathiphyllum parent, b) providing a diploid Spathiphyllum parent, c) crossing the parents of a) and b) to produce the Spathiphyllum plant with reduced pollen content.

2) Spathiphyllum plant of claim 1, the pollen content being less than 50% of the pollen of each the parents of steps b) and c), preferably less than 35%, more preferably more less than 25%, even more preferably less than 10%, 5%, 2% or even less than 1%.

3) Spathiphyllum plant of claim 1, being pollen free.

4) Spathiphyllum plant of claim 1, wherein the tetraploid Spathiphyllum parent of step a) is capable of developing at least 3, more preferably at least 4 shoots in a period of two months after the it reaches, as juvenile plantlet, a length of 5 cm and potted in potting soil and kept in the greenhouse at a temperature of 20-22 C. at a humidity of 50-80%.

5) Spathiphyllum plant of claim 1, wherein: the mature leaves of the tetraploid Spathiphyllum parent of step a) have a length to width ratio of at least 1.9; and/or the mature leaves of the tetraploid Spathiphyllum parent of step a) have a thickness of at least 0.23 mm, preferably of at least 0.25 mm, most preferably of at least 0.30 mm, and/or the width of each leaf of the tetraploid Spathiphyllum parent of step a) continuously increasing from the leaf tip to a maximum at about half the length of the leaf, measured from the leaf tip to the leaf stem, and continuously decreasing from the said maximum towards the said leaf stem.

6) Spathiphyllum plant of claim 1, wherein the tetraploid Spathiphyllum parent of step a) is obtained by: i) treating Spathiphyllum plantlets or plant parts with an antimitotic agent, ii) allowing the plantlets of step i) to grow in a first growth medium, iii) removing part of the plantlets of step ii), iv) allowing the plantlets parts of step iii) to grow in a second growth medium to generate plantlets with new shoots and leaves, v) repeating steps iii) and iv) for 0 to 4 times in the second or a further growth medium, vi) determining the ploidy of the plantlets obtained in step iv) and/or v), vii) selecting tetraploid plantlets of step vi), viii) allowing the selected plantlets of step vii) to grow to mature plants.

7) Spathiphyllum plant of claim 6, comprising selecting, after step iv) or v) or both, plantlets of a size of at least 3 cm from the plant base, having at least 3 leaves formed at the said plant base without internodes, the leaves being free of brown and yellow discolouring, the width of each leaf continuously increasing from the leaf tip to a maximum at about half the length of the leaf, measured from the leaf tip to the leaf stem, and continuously decreasing from the said maximum towards the said leaf stem.

8) Spathiphyllum plant of claim 1, wherein: the diploid Spathiphyllum parent of step b) is capable of developing at least 10, preferably at least 15 shoots in a period of two months after the it reaches, as juvenile plantlet, a length of 5 cm and potted in potting soil and kept in the greenhouse at a temperature of 20-22 C. at a humidity of 50-80%., and/or the leaves of the diploid Spathiphyllum parent of step b) have a length to width ratio of at least 2.5, and/or the mature leaves of the diploid Spathiphyllum parent of step b) have a thickness of less than 0.25 mm, preferably of less than 0.20 mm, and/or the width of each leaf of the diploid Spathiphyllum parent of step b) continuously increasing from the leaf tip to a maximum at about half the length of the leaf, measured from the leaf tip to the leaf stem, and continuously decreasing from the said maximum towards the said leaf stem.

9) Spathiphyllum plant of claim 1, is capable of developing at least 5 shoots in a period of two months after the it reaches, as juvenile plantlet, a length of 5 cm and potted in potting soil and kept in the greenhouse at a temperature of 20-22 C. at a humidity of 50-80%.

10) Spathiphyllum plant of claim 1, the mature plant having leaves with a length to width ratio of 2.2 or more.

11) Spathiphyllum plant of claim 1, the mature leaves of the plant having a thickness of below 0.25 mm.

12) Spathiphyllum plant of claim 1, the width of each leaf thereof continuously increasing from the leaf tip to a maximum at about half the length of the leaf, measured from the leaf tip to the leaf stem, and continuously decreasing from the said maximum towards the said leaf stem.

13) Spathiphyllum plant of claim 1, wherein the tetraploid parent of step a) and the diploid parent of step b) are chosen from the group, consisting of the Spathiphyllum species S. floribundum, S. wallisii, S. cochlearispathum, S. montanum and S. silvicola.

14) Progeny of the Spathiphyllum plant of claim 1.

15) Method for the preparation of a Spathiphyllum plant, comprising the steps of: a) preparing a tetraploid parent, comprising the steps of: i) treating Spathiphyllum plantlets or plant parts with an antimitotic agent, ii) allowing the plantlets of step a) to grow to a mature plant, b) crossing the tetraploid parent of step a) with a diploid parent, to produce the Spathiphyllum plant with reduced pollen content.

Description

DESCRIPTION OF FIGURES

[0060] FIG. 1A: Diploid Spathiphyllum Bingo Cupido Spapril (CPVO file nr. 20131221) used for the preparation of a tetraploid parent.

[0061] FIG. 1B: Diploid Spathiphyllum Cco Cupido Spajuni, (CPVO file nr. 20121216) used for the preparation of a tetraploid parent.

[0062] FIG. 2: Single shoots of the Spathiphyllum of FIG. 1.

[0063] FIG. 3: plantlets developed from shoots of FIG. 2.

[0064] FIG. 4: plantlets derived from parts of the plantlets of FIG. 3.

[0065] FIG. 5: Selected plantlets of FIG. 4.

[0066] FIG. 6A: Juvenile tetraploid plants derived from Bingo Cupido Spapril.

[0067] FIG. 6B: Mature tetraploid plant KP07-4-92 derived from Bingo Cupido Spapril.

[0068] FIG. 6C: Mature tetraploid plant KP08-4-97 derived from Cco Cupido Spajuni.

[0069] FIG. 7: Diploid Spathiphyllum parent Cupido Compacto Sparanke (CPVO file nr. 20081387).

[0070] FIG. 8: Triploid pollen free Spathiphyllum plant KP13-3-28.

[0071] FIG. 9A: Triploid pollen free Spathiphyllum plant KP15-3-39.

[0072] FIG. 9B: Detail of the plant of FIG. 9.

EXPERIMENTAL

EXAMPLE 1

[0073] Preparation of a Tetraploid Parents

[0074] It is to be noted that Several diploid Spathiphyllum plants were taken as parent or as starting plant for the preparation of a tetraploid patent plants, parents were selected based on the above desired requirements of shoot number and leaf form. Techniques known in the art can be used. As few of many possibilities, diploid Spathiphyllum Bingo Cupido Spapril (FIG. 1A) and Cco Cupido Spajuni (FIG. 1B) were used for the preparation of tetraploid plants. Said mature plants have more than 15 shoots starting from the base, the leaves having a regular form, a length to width ratio of about 2.5, and a leaf thickness of about 2.0 mm. Major shoots of 1.5 cm in height were cut from the mature plant and incubated for 10 hours in a sterile aqueous 1 w/w % colchicine solution and rinsed twice with sterile water at ambient temperature.

[0075] The thus treated shoots were placed in petridishes on a MS gel medium containing 30 g/l sucrose, 2 g/l gellan gum (Gelrite, Duchefa, Netherlands) 0.5-2.5 mg/l benzylaminopurine and 0.1-0.5 mg/l indole-3-butyric acid, see FIG. 2. The shoots were kept at 22-24 C. and allowed to develop into plantlets with leaves, small clumps of new shoots at the base and roots, see FIG. 3.

[0076] After 6 weeks of growth, small clumps (circled in FIG. 3) of said new shoots were taken, separated and individually placed on a second medium, being identical to the first medium, however containing two to six times less benzylaminopurine and indole-3-butyric acid. FIG. 4 shows plantlets after 4 weeks of growth on the second medium. After 6 weeks of growth, again newly developed shoots were taken and grown on a third growth medium, identical to the second growth medium now free of benzylaminopurine but containing 5 to ten times more indole-3-butyric acid. The plantlets were selected on the presence of at least 3 leaves, a height as measured from the base (i.e. where the shoots start growing up and the roots start growing down) of at least 3 cm, absence of discoloration and absence of internodes, see FIG. 5. Samples were taken and the ploidy was determined by flow cytometry, as described in Stechelman, supra. A plurality of tetraploid plantlets were allowed to develop into juvenile plants by transferring the plantlets into potting soil and kept in a greenhouse at a temperature of 20-22 C. and a humidity of 50-80% for two months. Numerous tetraploid offspring was found that developed at least 5 shoots in a period of two months after reaching, as juvenile plantlet, a length of 5 cm and being potted in potting soil and kept in the greenhouse at a temperature of 20-22 C. at a humidity of 50-80%, having a leaf length-to-width ratio of about 2, and a leaf thickness about 0.3 mm. See e.g. FIG. 6A for juvenile tetraploid plants derived from Bingo Cupido Spapril For crossing purposes, a plurality of tetraploid juvenile plants were allowed to develop into mature plants with an increased number of shoots and carrying flowers, e.g. of Bingo Cupido Spapril being designated KP07-4-92 (FIG. 6B) and of Cco Cupido Spajuni being designated KP08-4-97 (FIG. 6C).

[0077] A plurality of tetraploid plants were obtained with the characteristics described herein, also by different diploid starting lines.

EXAMPLE 2

[0078] Preparation of Spathiphyllum Plants with Reduced Pollen Content

[0079] Tetraploid (4) plants of example 1 were crossed with diploid (2) Spathiphyllum. Mature diploid plants were chosen having about 20 shoots starting from the base, the leaves having a regular leaf form, a length to width ratio of about 2.6, and a leaf thickness of about 2.0 mm. Amongst others the following crosses were performed:

[0080] The tetraploid originating from Cco Cupido Spajuni, KP08-4-97 (4, FIG. 6C) was used as female parent and crossed with diploid Cupido Compacto Sparanke (2) (FIG. 7A). Crossings of male gametes and female gametes were performed in a usual manner as follows. Pollen were taken from a male spadix and contacted with a female spadix using a fine paint brush. A selection on the triploid progeny was made on at least one of the following criteria or a combination of two or more thereof: developing at least 5 shoots in a period of two months after it reaches, as juvenile plantlet, a length of 5 cm and potted in potting soil and kept in the greenhouse at a temperature of 20-22 C. at a humidity of 50-80%, the mature plant having leaves with a length to width ratio of 2.2 or more, a thickness of below 0.25 mm, and regular leaf form (i.e. the width of each leaf continuously increasing from the leaf tip to a maximum at about half the length of the leaf, measured from the leaf tip to the leaf stem, and continuously decreasing from the said maximum towards the said leaf stem). A plurality of triploid offspring was generated, such as KP15-3-39 (FIGS. 9A and 9B). Said offspring was pollen free, i.e. the spadix of the mature flowers being void of pollen. It developed more than 5 shoots after reaching a length of 5 cm as described above, the leaves of the mature plant had a regular form, having a length to width ratio of more than 2.2 and a thickness of less than 0.25 mm.

[0081] In another crossing, the tetraploid originating from Bingo Cupido Spapril, KP07-4-92 (4, FIG. 6B) was used as female parent and crossed with diploid Cco Cupido Spajuni, (2, FIG. 1B), using the same selection criteria as described above for the selection of triploid offspring. A plurality of triploid offspring was generated, such as pollen-free KP13-3-28 (FIG. 8). Said offspring was pollen free, i.e. the spadix of the mature flowers being void of pollen. It developed more than 5 shoots after reaching a length of 5 cm as described above, the leaves of the mature plant had a regular form, having a length to width ratio of more than 2.2 and a thickness of less than 0.25 mm.

[0082] Similar results were obtained with other parental lines, also when reciprocal crossings was performed, i.e. using a female tetraploid parent and a diploid male parent.