Patent Publication Number: US-2020275629-A1

Title: Methods for plant seed production

Description:
This application claims priority to U.S. Provisional Application No. 61/093,131, filed on Aug. 29, 2008, which is incorporated herein by reference in its entirety. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates to the field of seed production and, more specifically, to methods of producing seeds of watermelon and other species. 
     BACKGROUND OF THE INVENTION 
     Watermelons are natural diploids, referred to as 2N (N=11). Many plants, including watermelons, can undergo a duplication of their entire set of chromosomes and exist as tetraploids 4N (4N=44). Watermelon tetraploids can be produced routinely in the laboratory using cell biology techniques. 
     A tetraploid parent can be crossed with a diploid parent to produce triploid seeds (3N=33). A hybrid triploid plant produces watermelon fruit which is “seedless,” meaning that it very rarely produces mature seeds, and only rarely produces immature seeds with hard seed coats, but no embryo. To obtain triploid watermelon seed, a cross between a tetraploid and diploid line is made. The tetraploid female flower is used as the ‘seed parent’ and the diploid male flower is used as the pollen donor. Seeds obtained from this cross bear triploid embryos. A tetraploid seed parent typically produces only 5 to 10% as many seeds as a typical diploid plant. If female diploid flowers are pollinated with pollen coming from tetraploid flowers the result is empty seeds. 
     When production of triploid hybrids is done by open pollination, there is no control on the source of pollen that reaches the stigma of the tetraploid flower, and thus both tetraploid and triploid seeds may be found in the same fruit. In the absence of selection methods, hybrid seeds produced in this manner may therefore be contaminated with seeds resulting from self-pollination. 
     SUMMARY OF THE INVENTION 
     In one aspect, the invention provides a method of producing hybrid watermelon seed comprising: (a) obtaining a first watermelon plant, wherein the plant has been grafted onto a rootstock that exhibits resistance to at least one biotic and/or abiotic stress when under stress conditions; (b) allowing the grafted first watermelon plant to be pollinated by a second watermelon plant to produce a hybrid watermelon seed; and (c) allowing hybrid watermelon seed to form. In one embodiment, the first watermelon plant is a tetraploid watermelon plant that produces triploid (3N) hybrid seeds after being pollinated by a second watermelon plant that is diploid. In another embodiment, the first watermelon plant is a diploid watermelon plant that produces a diploid (2N) hybrid seed after being pollinated by a second diploid watermelon plant. In some embodiments, the second diploid watermelon is grafted onto a rootstock that exhibits a selected desirable phenotype. 
     A rootstock used in accordance with the invention may exhibit any type of stress resistance. In one embodiment, the rootstock exhibits tolerance to an abiotic stress selected from the group consisting of cold tolerance, heat tolerance, drought tolerance, and salt tolerance. In another embodiment, the rootstock exhibits biotic stress tolerance selected from the group consisting of disease resistance, insect resistance, and nematode resistance. Disease resistance includes resistance to bacterial, fungal, and viral diseases. In specific embodiments, the rootstock may be obtained from a plant selected from the group consisting of watermelon, squash, pumpkin, wax gourd, and bottle gourd. In further embodiments, the seed parent may or may not be grown under stress conditions. 
     Grafting carried out in accordance with the invention may be performed by any method known to one of skill in art. In one embodiment, grafting is performed by a method selected from the group consisting of splice grafting, bud grafting, cleft grafting, side grafting, approach grafting, and hole insertion grafting. Pollination may be carried out in accordance with standard methods, including pollination by insects and hand-pollination. 
     In another aspect of the invention, methods are provided for producing triploid seed, wherein the triploid seeds are rendered conspicuously distinguishable from the seeds of the tetraploid parent, such as based on size and/or shape, particularly when seed parent is exposed to stress conditions during cultivation. Thereby, the invention allows selecting the seeds of one ploidy category from the seeds of other ploidy categories based on size and/or shape. In one embodiment, the selection may be performed manually. In another embodiment, the selection may be performed mechanically by an automated machine. 
     The invention further permits producing increased number of fruits, increased number of seeds per fruit, and increased total seed weight per fruit in a grafted seed parent relative to a non-grafted seed parent. In specific embodiments, the seed yield per fruit, including diploid and tetraploid plants, may be defined as, for example, at least about 5, 10, 25, 50, at least about 75, at least about 100, at least about 125, at least about 150, at least about 175, at least about 200, at least about 225 or at least about 250 seeds per fruit, including from about 5 to about 150, from about 34 to about 100, from about 60 to about 120, from about 50 to about 150, from about 100 to about 200, from about 125 to about 250, and from about 150 to about 200, seeds per fruit produced by using a grafted seed parent with a diploid pollen donor plant. In the case of diploid watermelon plants, the seed yield per fruit may be defined in specific embodiments as at least about 150, 200, 250, 300, 350 or at least about 400. 
     In yet another aspect, the invention provides seeds and plants produced by a process that comprises crossing a first parent plant with a second parent plant, wherein at least one of the first or second parent plants is a plant grafted on a rootstock. In one embodiment of the invention, seed and plants produced by the process are first generation (F 1 ) hybrid seeds and plants produced by crossing a plant in accordance with the invention with another, distinct plant. Therefore, certain exemplary embodiments of the invention provide an F 1  hybrid seed and plant thereof. In specific embodiments of the invention, a diploid watermelon variety is used as the seed parent and the pollen donor is a second diploid watermelon plant. In other embodiments, the seed and pollen parents are a plant species selected from the group consisting of hot pepper, sweet pepper, tomato, squash, cucumber, pumpkin, gourd, melon, eggplant, and okra. 
     In still yet another aspect, the invention provides a population of seed parent and pollen donor parent plants in accordance with the invention. In one embodiment, a population of plants is provided planted in pollinating proximity in a field comprising a) tetraploid watermelon seed parent plants, wherein the plants have been grafted onto a rootstock that exhibits stress tolerance when under stress conditions; and b) diploid watermelon pollen donor plants. In specific embodiments, the tetraploid watermelon seed parent plants and diploid watermelon pollen donor plants are planted in alternating rows, and may be planted in a ratio of rows of tetraploid watermelon seed parent plants to diploid watermelon pollen donor plants of, for example, 1:1, 2:1, 3:1, 4:1 or 5:1. 
     These and other features and advantages of this invention are described in, or are apparent from, the following detailed description of various exemplary embodiments of the devices and methods according to this invention. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The invention overcomes limitations in the art by providing improved methods for producing watermelon seeds. In one embodiment of the invention, the inventors surprisingly found that production of triploid seeds can be substantially improved by crossing a diploid pollen donor line with a tetraploid seed parent that has been grafted to a rootstock exhibiting resistance to biotic or abiotic stress when under stress conditions, and that these benefits are observed even in the absence of exposure of the seed parent to stress to which the rootstock confers resistance. For example, use of a disease resistant rootstock was found to confer improved seed production even in the absence of disease pressure. Significantly, the inventors also found that triploid seeds produced by the grafted seed parents exhibited a morphology that was more distinct from tetraploid seeds relative to ungrafted plants. The improved distinctions in seed morphological characteristics is of great importance due to the difficulty that can occur in distinguishing the tetraploid seeds also found in fruits of the seed parent from triploid seeds. By improving the distinctions between triploid and tetraploid seeds, such as in thickness and weight, the invention allows easy separation of the triploid seeds by manual or automated screening. Seed quality and the efficiency of seed production is thereby increased, benefiting seed producers and farmers alike. 
     In accordance with the invention, grafted seed parents may also be used to improve seed yield and quality. The inventors surprisingly found that increased numbers of seeds per fruit could be obtained in grafted seed parents relative to non-grafted seed parents, and even more surprisingly the effect was found even in the absence of stress to which the rootstock confers resistance. One embodiment of the invention therefore comprises crossing a grafted seed parent, which may be a diploid or tetraploid watermelon plant, with a grafted or ungrafted pollen donor plant. Examples of diploid seed lines that may be used as seed parents or pollen donors in accordance with the invention are well known in the art and include, but are not limited to, Allsweet, Crimson Sweet, Jubilee, Dixie Lee, Sugar Baby, Calsweet, Charleston Grey, and Minilee. 
     The techniques of the invention are also applicable to other species which are amenable to grafting. Therefore the invention provides, in one embodiment, a method of producing plant seed comprising: crossing a first plant that has been grafted onto a rootstock that exhibits stress tolerance when under stress conditions, allowing the first plant to be pollinated by a second plant of the same species, and allowing seed to form on the first plant, wherein the first plant is grown in the absence of said stress conditions. Examples of species applicable to the method include hot pepper, sweet pepper, tomato, squash, cucumber, pumpkin, gourd, melon, eggplant, and okra. In one embodiment, the rootstock confers resistance to bacterial, fungal and/or viral disease. 
     In another embodiment, a seed parent used in accordance with the invention is a tetraploid plant that is crossed to a diploid pollen donor to produce triploid hybrid seed. Examples of tetraploid seed parents that may be used are known in the art. Methods for producing tetraploid watermelon plants are also known in the art and are described in, for example, see Kihara, 1951 and Eigsti, 1971. To develop a tetraploid, chemicals that alter mitosis of a diploid inbred line may be used so that unusual numbers of chromosomes are obtained. For example, colchicine is a chemical that alters the mitotic spindle fibers of diploid cells resulting in a number of cells that are tetraploid. The diploid line used to create a tetraploid may be selected based on the traits desired for the tetraploid line. Traits that are desired for a tetraploid line may therefore first be introgressed into the diploid inbred lines that will be used to develop the tetraploid lines by breeding methods well known to one of skill in the art. Thus, the diploid and tetraploid parent lines may be bred separately for the desired traits. 
     Two generations of self-pollination and selection may be needed to “fix” the 4N condition because, after the colchicine treatment, chromosomal aberrations are often encountered that affect seed fertility, and must be eliminated. Once the stable tetraploid containing the desired characteristics is verified, it then can be used as a stable female parent for the production of the triploid hybrid. 
     Crossing two different tetraploids followed by recombination breeding can also result in new tetraploid lines. A longer breeding period is required to develop a stable tetraploid line using this approach. This is due to the larger number of genetic combinations and the fewer seed that tetraploids produce. 
     Seed parents may also be propagated by tissue culture. The use of tissue culture to propagate watermelon plants is exemplified in Zhang et al., 1994a. 
     Selection and Use Rootstock 
     In another aspect, the invention provides methods involving selecting and using a rootstock having a desired phenotype comprising tolerance to stress when under stress conditions. In one embodiment it may be desirable to select rootstock exhibiting desirable traits lacking in the seed parent. For instance, if a tetraploid seed parent is susceptible to a soil borne disease, a rootstock that is resistant to the soil borne disease may be selected for grafting. 
     Examples of abiotic stress that rootstock may confer resistance to include, but are not limited to, cold, high temperature, salt, drought, and flood. Examples of biotic stress include, but are not limited to, plant pathogens, insects, and nematodes. Rootstocks may be from plants of any ploidy level, including diploid and tetraploid plants. Examples of known rootstocks include, but are not limited to, RS-841, Shintoza, Shogun, Charmtoza, FR Couple, and FR Strong. 
     It is not necessary that the rootstock be from the same species from which the scion is derived. Rootstocks of other plants that are compatible with the scion may also be used. Examples of such compatible rootstocks for use with watermelon and other species include, but are not limited to, bottle gourd ( Lagenaria Siceraria  var.  hispida ), wax gourd ( Benincasa hispida ), pumpkin ( Cucurbita pepo ), squash ( Cucurbita moschata ), African horned cucumber ( Cucumis metuliferus ),  Cucurbita maxima , interspecific  Cucurbita maxima×Cucurbita moschata  and bur-cucumber  Sicyos angulatus . (See e.g., Zhang et al., 1994a). 
     Rootstock may also be a progeny of an interspecific cross. In a particular embodiment, the rootstock is a progeny of interspecific cross between  Cucurbita maxima  and  Cucurbita moschata . An example of such progeny is Shintoza. 
     Grafting methods for watermelon and other species are known in the art. Examples of grafting methods include, but are not limited to, splice grafting, side grafting, approach grafting, hole insertion grafting, bud grafting, and cleft grafting. (See e.g., Cushman 2006). The grafting may be performed manually or by an automated machine. 
     Selecting Diploid Pollen Donors and Crossing with Seed Parents 
     In particular embodiments of the invention, diploid pollen donor plants are selected for use as a male parent in a cross with a grafted tetraploid or diploid plant. A stable diploid inbred may be selected. Adequate viable pollen supply from the diploid pollen donor may be needed for the female flowers to set and develop into regular fruit. In some embodiments, a diploid pollen donor is grafted onto a selected rootstock. In other embodiments, the diploid pollen donor is a non-grafted plant. In one non-limiting embodiment, the diploid pollen donor plant may be a publicly available line such as, for example, Crimson Sweet, Jubilee, Sugar Baby, Dixie Lee, Allsweet, Calsweet, Charleston Grey, and Minilee. Generally pollen donors will be selected that produce progeny with desirable phenotypes when crossed with the corresponding seed parent. 
     In accordance with the invention, processes are provided for crossing a seed parent with a pollen donor. These processes may, in specific embodiments, be further exemplified as processes for preparing hybrid watermelon seed or plants, wherein a seed parent is crossed with a pollen donor watermelon plant of a different, distinct line to provide a hybrid that has a grafted watermelon plant as one of its parents. In these processes, crossing will result in the production of seed. The seed production occurs regardless of whether the seed is collected. 
     In one embodiment of the invention, the first step in “crossing” comprises planting of seed parents and pollen donors in proximity so that pollination will occur, for example, mediated by insect vectors. In some embodiments, pollen may be transferred manually. The desired ratio of seed parents and pollen donors for watermelon hybrid seed production is well known to one of skill in the art. In one example, the seed parents and pollen donors are planted at a ratio of 2:1. Examples of other ratios of seed parents and pollen donors include, but are not limited to, 1:1, 3:1, 4:1, and 5:1. In a particular embodiment, seed production fields may be planted at the ratio of 2 rows of female line and 1 row of diploid male line. 
     A second step may comprise cultivating or growing the seeds of seed parent and pollen donor watermelon plants into plants that bear flowers. A third step may comprise preventing self-pollination of the plants, such as by emasculating the male portions of flowers, (i.e., treating or manipulating the flowers to produce an emasculated parent watermelon plant). Self-incompatibility systems may also be used in some hybrid crops for the same purpose. Self-incompatible plants still shed viable pollen and can pollinate plants of other varieties but are incapable of pollinating themselves or other plants of the same line. In some embodiments, all the male flower portions may be manually removed from the female plants. This process is known as de-budding or emasculation. In other embodiments, a male-sterile seed parent line may be used that may not require the de-budding process. 
     A fourth step for a hybrid cross may comprise cross-pollination between the seed parent and pollen donor watermelon plants. In one embodiment, the pollen of the diploid pollen donor parent is transferred to a female diploid or tetraploid seed parent flower by manual methods well known to one of in the art. In another embodiment, the pollen is transferred by insect vectors. In a particular embodiment, the crossing of seed parents may involve self-pollination, which may occur manually or without any human intervention. 
     Yet another step comprises harvesting seeds from the seed parent. All or a portion of the fruit set on the seed parent can be harvested, and seeds are isolated. (U.S. Pat. No. 6,018,101). The harvested seed can be used for any desired purpose, including grown to produce watermelon plants and sold to farmers. 
     Recovery of Seeds 
     Seeds may be recovered from matured fruits using methods known to one of skill in the art. In some embodiments, an open pollinated tetraploid seed parent may produce tetraploid seeds in addition to triploid seeds. For example, in order to reduce the cost and labor involved in hand pollination, the transport of the pollen may be left to bees in the field of open pollinated seed parents. Under these conditions, since there is no control on the source of pollen that reaches the stigma of the tetraploid flower, tetraploid and triploid seeds may be found in the same fruit. 
     In one example, a grafted tetraploid seed parent of the invention produces triploid seeds that are conspicuously distinguishable from tetraploid seeds based on size and/or shape. In specific embodiments, the grafted seed parent yields seeds with improved distinctions in seed thickness and/or seed weight between triploid and tetraploid seeds relative to a non-grafted seed parent. The grafted seed parent, even if raised under a stress condition, yields triploid seeds that are distinguishable from tetraploid seed and can be selected, for example, as being thinner than tetraploid seeds, weighing less than tetraploid seeds, and/or otherwise exhibiting morphological distinctions. 
     The triploid seeds may therefore be separated from the tetraploid seeds based on differences in morphological characteristics. In one embodiment, the seeds are manually separated. In another embodiment, the seeds are mechanically separated using an automated machine. The automated machine may separate the seeds in accordance with their thickness and/or weight. 
     In a further embodiment, the invention provides a plant of a grafted and hybridized seed parent that exhibits an average seed number of at least 50 seeds per fruit. In specific embodiments, the seed number may be further defined as, for example, at least about 50, at least about 75, at least about 100, at least about 125 or at least about 150 seeds per fruit, including from about 50 to about 150, from about 34 to about 100, and from about 60 to about 120 seeds per fruit produced by using a grafted seed parent with a diploid pollen donor plant. 
     In another embodiment, the invention provides a plant of a grafted and hybridized seed parent that exhibits an average seed weight of at least 8 grams (gms) per fruit. In specific embodiments, the seed weight may be further defined as, for example, at least about 0.5 gms, at least about 2 gms, at least about 5 gms, at least about 8 gms, at least about 10 gms, at least about 20 gms or at least about 50 gms per fruit, including from about 5 to about 50, from about 8 to about 40, and from about 8 to about 15 gms per fruit produced by using a grafted seed parent with a diploid pollen donor plant. 
     Male Sterility 
     In certain aspects, a seed parent plant may be a male sterile (i.e., comprise a male sterile scion). For example, a grafted tetraploid watermelon scion as described herein maybe male sterile. In certain aspects, a seed parent may be rendered male sterile by physical removal of male plant tissues such as removal of pollen producing flowers. In some aspects, a seed parent may be rendered male sterile by application of a gametocide, for example as described in U.S. Pat. No. 4,936,904. In still further aspects, a seed parent may comprises a male sterility trait such as genetic or cytoplasmic male sterility. For example, tetraploid watermelon plants comprising a recessive gene for male sterility were described by Love et al., 1986. A stable male recessive watermelon line, G17AB, has also been described (Zheng et al., 1994b; Zheng et al., 1996). Watermelon plants comprising a male sterility gene, such as the G17AB line, or progeny of such a plant or line of plants may also be used according to the methods described herein. 
     EXAMPLES 
     Example 1 
     Effect of Grafting of Seed Parent on Seed Numbers and Hybridity 
     Scions were obtained from the tetraploid watermelon hybrid variety TML 110-1440 and grafted onto the rootstocks Charmtoza, Shintoza, and Shogun. Grafting was carried out by side grafting. The grafted tetraploid was planted in a field together with non-grafted tetraploid plants and the diploid variety 110-6433 to serve as a male parent plant. The plants were grown under conditions in which the plants were not subject to disease pressure or other stress of note. 
     Insect-mediated pollination was allowed to occur between the diploid and grafted tetraploid plants and seeds were allowed to form. Seeds were then harvested from the tetraploid parent and measurements taken of seed weight, seed number, and hybridity (% hybridity represent the % of triploid seed in the fruit of the tetraploid parent). The results are presented in Table 1 
     
       
         
           
               
             
               
                 TABLE 1 
               
             
            
               
                   
               
               
                 Increased seed weight per fruit, seed number per fruit 
               
               
                 and hybridity resulted from grafting of seed Parents. 
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                   
                 Total 
                 Total 
                 Clean/ 
                   
                   
                 Number 
                   
               
               
                   
                 Number 
                 Seed 
                 sized 
                 Total 
                 Grams 
                 of seeds 
               
               
                   
                 of 
                 Weight 
                 Wt. 
                 Number 
                 per 
                 per 
                 Hybridity 
               
               
                   
                 Fruits 
                 (Gms.) 
                 (Gms.) 
                 of seeds 
                 fruit 
                 fruit 
                 (%) 
               
               
                   
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Non Grafted 
                 35 
                 348.53 
                 347.80 
                 5,015 
                 9.96 
                 143 
                 65.40 
               
               
                 Grafted (all) 
                 60 
                 689.90 
                 691.20 
                 9,753 
                 11.50 
                 163 
                 81.83 
               
               
                 Grafted 
                 15 
                 166.30 
                 166.50 
                 2,488 
                 11.09 
                 166 
                 78.70 
               
               
                 Charmtoza 
               
               
                 Grafted 
                 32 
                 372.34 
                 373.10 
                 5,359 
                 11.64 
                 167 
                 87.20 
               
               
                 Shintoza 
               
               
                 Grafted 
                 13 
                 151.26 
                 151.60 
                 1,906 
                 11.64 
                 147 
                 79.60 
               
               
                 Shogun 
               
               
                   
               
            
           
         
       
     
     As shown, in Table 1, the grafted plants yielded the total seed weight per fruit of 11.50 gms, but the non-grafted plants yielded the total seed weight per fruit of only 9.96 gms. Also, the grafted plants yielded an average of 163 seeds per fruit, but the non-grafted plants yielded an average of only 143 seeds. The grafted plants yielded the hybridity of 81.83%, but the non-grafted plants yielded the hybridity of only 65.40%. 
     Example 2 
     Effect of Grafting of Seed Parent on Fruit Yield, Seed Weight and Hybridity 
     The tetraploid seed parent TML 110-1440 was grafted on the rootstocks, Shintoza, Shogun, Charmtoza, FR Couple, and FR Strong by side grafting. The grafted tetraploid plants, non-grafted tetraploid and the diploid pollen donor line 110-6433 were planted in a field and cultivated to maturity. Diploid pollen donors were planted along with the grafted tetraploid seed parents, with spacings of 16″×16″, 32″×32″, 48″×48″, and 24″×24″. 
     The tetraploid seed parents were open-pollinated by insects and seeds were allowed to form. Seeds were harvested and the seed weight, seed number, and hybridity measured. The results are provided in Table 2. 
     
       
         
           
               
             
               
                 TABLE 2 
               
             
            
               
                   
               
               
                 Increased seed weight per fruit, and hybridity resulted from grafting of seed parents. 
               
            
           
           
               
               
               
               
               
               
               
            
               
                   
                   
                   
                   
                 TSW 
                   
                   
               
               
                 Female parent, 
                   
                   
                   
                 (Thousand 
                   
                 Extended 
               
               
                 TML 110-1440 
                 Spacing 
                   
                 # of 
                 Seed Weight) 
                   
                 Yield 
               
               
                 plus Rootstock 
                 (inches) 
                 Gr./plant 
                 fruit/plant 
                 gms 
                 Hybridity 
                 Kg/Ac 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
            
               
                 TML 110-1440 
                 16 
                 9.2 
                 1.15 
                 70 
                 87.2 
                 60 
               
               
                 w/o rootstock 
                 32 
                 15.1 
                 1.69 
                 71 
                 85 
                 49 
               
               
                   
                 48 
                 18.5 
                 1.57 
                 70 
                 89 
                 40 
               
               
                   
                 24 
                 13 
                 1.35 
                 70 
                 83.7 
                 56 
               
               
                   
                 Manually 
                 4.2 
                   
                 85 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 7.6 
                   
                 72 
               
               
                   
                 cross- 
               
               
                   
                 pollinated. 
               
               
                 Shintoza 
                 16 
                 14.5 
                 1.45 
                   
                 83 
                 94 
               
               
                   
                 32 
                 30 
                 2.5 
                 67.95 
                 88 
                 98 
               
               
                   
                 48 
                 43 
                 3.83 
                 67.7 
                 88 
                 93 
               
               
                   
                 24 
                 15.9 
                 2.32 
                   
                 95.7 
                 69 
               
               
                   
                 Manually 
                 N/A 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 6.4, 8.2 
               
               
                   
                 cross- 
               
               
                   
                 pollinated 
               
               
                 Shogun 
                 16 
                 12.8 
                 1.4 
                 74 
                 84 
                 83 
               
               
                   
                 32 
                 20.6 
                 2.3 
                 72 
                 86 
                 67 
               
               
                   
                 48 
                 N/A 
                 N/A 
               
               
                   
                 24 
                 N/A 
                 N/A 
               
               
                   
                 Manually 
                 4.3, 7.8 
                   
                 76 &amp; 80 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 20.9 
                   
                 72 
               
               
                   
                 cross- 
               
               
                   
                 pollinated 
               
               
                 Charmtoza 
                 16 
                 16 
                 1.7 
                 72.05 
                 83 
                 104 
               
               
                   
                 32 
                 28.9 
                 2.4 
                 68 
                 89 
                 94 
               
               
                   
                 48 
                 29.3 
                 3.2 
                 72.1 
                 87 
                 63 
               
               
                   
                 24 
                 19.6 
                 2.25 
                 65.55 
                 83.5 
                 85 
               
               
                   
                 Manually 
                 N/A 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 8.4, 8.0 
               
               
                   
                 cross- 
               
               
                   
                 pollinated 
               
               
                 FR Couple 
                 16 
                 17.6 
                 1.75 
                   
                 70.7 
                 114 
               
               
                 (TW 1) 
                 32 
                 23.2 
                 2.53 
                 73.5 
                 85 
                 75 
               
               
                   
                 48 
                 32.6 
                 3.3 
                 73.2 
                 82 
                 71 
               
               
                   
                 24 
                 20.6 
                 2.1 
                 68.7 
                 88.9 
                 89 
               
               
                   
                 Manually 
                 3.5 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 10.7, 8.8  
               
               
                   
                 cross- 
               
               
                   
                 pollinated 
               
               
                 FR Strong 
                 16 
                 15.7 
                 1.6 
                 73.1 
                 83.9 
                 102 
               
               
                 (TW 2) 
                 32 
                 25 
                 2.3 
                 74.15 
                 80 
                 81 
               
               
                   
                 48 
                 41.4 
                 3.29 
                 72.6 
                 86 
                 90 
               
               
                   
                 24 
                 21.5 
                 2.38 
                 67.75 
                 83.3 
                 93 
               
               
                   
                 Manually 
                 N/A 
               
               
                   
                 self- 
               
               
                   
                 pollinated 
               
               
                   
                 Manually 
                 12.8, 9.1  
               
               
                   
                 cross- 
               
               
                   
                 pollinated 
               
               
                   
               
            
           
         
       
     
     As shown in Table 2, the seed parents grafted on the rootstocks Shintoza, Shogun, Charmtoza, FR Couple, and FR Strong yielded increased number of fruits, seed yield, total seed weight, and hybridity. 
     Example 3 
     The Effect of Grafting on Seed Numbers and Seed Yield 
     Tetraploid watermelon lines TML110-1440, TML110-0064, TCS110-1009, and TCS110-1018 were crossed as seed parent lines with a diploid pollen donor line. Prior to crossing tetraploid seed parents were grafted onto the interspecific rootstock  Cucurbita maxima×Cucurbita moschata  (Shintoza) by side grafting. The diploid pollen donor plants were ungrafted. 
     Grafted and non-grafted tetraploid seed parent plants were transplanted on the same day into a field that was subject to normal (no stress noted) conditions during cultivation. The diploid pollen donor WAS110-6433 was planted with the tetraploid seed parent plants. The plants were grown to maturity with bee-mediated pollination of the tetraploid plants taking place. Fruits were harvested in different days considering the relative maturity to allow full development of seed parts. Seeds were extracted and the number of fruits, total seed weight, average seed weight per fruit, total seed numbers, and average seed number per fruit determined. The results are presented in Table 3. 
     
       
         
           
               
             
               
                 TABLE 3 
               
             
            
               
                   
               
               
                 Increased seed weight and seed numbers per fruit 
               
               
                 resulting from grafting of seed parents 
               
            
           
           
               
               
               
               
               
               
            
               
                   
                   
                 Total 
                 Avg. seed 
                   
                   
               
               
                   
                   
                 Seed 
                 Wt. Per 
                 Total 
                 Average Seed 
               
               
                 Experimental 
                 Number 
                 Weight 
                 fruit 
                 Seed 
                 Number per 
               
               
                 Material 
                 of Fruits 
                 (Gms) 
                 (Gms) 
                 Count 
                 fruit 
               
               
                   
               
            
           
           
               
               
               
               
               
               
            
               
                 B64 NG 
                 20 
                 172.86 
                 8.64 
                 2,432 
                 121 
               
               
                 B64 G 
                 19 
                 182.59 
                 9.61 
                 2,825 
                 148 
               
               
                 1440 NG 
                 27 
                 324.17 
                 12 
                 4,078 
                 151 
               
               
                 1440 G 
                 20 
                 267.63 
                 13.38 
                 3,677 
                 184 
               
               
                 1009 NG 
                 19 
                 176.82 
                 9.3 
                 2,297 
                 121 
               
               
                 1009 G 
                 15 
                 121.02 
                 8.07 
                 1,854 
                 124 
               
               
                 1018 NG 
                 24 
                 191.32 
                 7.97 
                 2,521 
                 105 
               
               
                 1018 G 
                 15 
                 130.67 
                 8.71 
                 1,807 
                 120 
               
               
                   
               
               
                 NG—Non-grafted; 
               
               
                 G—Grafted 
               
            
           
         
       
     
     As shown in Table 3, grafted seed parents yielded greater weight and seed number per fruit relative to non-grafted seed parents. For example, the grafted B64 seed parent yielded 9.61 gms of seed per fruit, but the non-grafted B64 yielded only 8.64 gms of seed per fruit. Likewise, the grafted 1440 and 1018 plants yielded more seed weight per fruit relative to their non-grafted plants. The seed weight for grafted 1009 plants was lower than non-grafted plants, possibly because the trait controlling seed number per plant was segregating in this line and was unevenly represented between those plants selected for grafting relative to nongrafting. In addition, the grafted B64 seed parent yielded 148 seeds per fruit, while the non-grafted B64 yielded only 121 seeds per fruit, and each of the grafted 1440, 1009, 1018 plants yielded more seeds per fruit relative to their non-grafted plants. 
     Example 4 
     Seed Production in Melon and Watermelon Using Grafting 
     An analysis was also carried out on the effect on seed production (in grams per plant) using grafting with melon and watermelon varieties and varying rootstocks relative to nongrafted checks. The results of the analysis are presented below. 
     
       
         
           
               
               
               
               
               
               
               
               
               
             
               
                   
               
               
                   
                 Grafted Scion 
                   
                 FPO 
                   
                   
                   
                   
                   
               
               
                   
                 145-22182 
                   
                 863991 
                   
                 Number 
                 Seed 
               
               
                 Rootstock/ 
                 Trial 
                 Hectares 
                 Planned 
                 Hectares 
                 plants that 
                 production 
                 Grams seed 
                 % 
               
               
                 Chilsung Shintoza 
                 Identification 
                 planned 
                 plants 
                 planted 
                 worked 
                 in kilograms 
                 per plant 
                 germination 
               
               
                   
               
             
            
               
                   
               
            
           
           
               
               
               
               
            
               
                   
                 Melon Grafting 
                   
                   
               
            
           
           
               
               
               
               
               
               
               
               
               
            
               
                 Graft 
                 S6V1 
                 0.34 
                 5440 
                 0.3 
                 4790 
                 92.72 
                 19.3 
                 94-97 
               
               
                 Non-graft check 
                 S7V5,6 
                   
                   
                 0.3 
                 4790 
                 77.82 
                 16.25 
                 94-98 
               
               
                 Gourd/ 
                 145-23190 
                   
                 FPO 
               
               
                   
                   
                   
                 895010 
               
               
                 Graft 
                 S5V1 
                 0.46 
                 7360 
                 0.06 
                 1000 
                 3.68 
                 3.68 
                 87-96 
               
               
                 Non-graft check 
                 L2V4 
                   
                   
                 0.28 
                 4602 
                 42.07 
                 9.14 
                  95-100 
               
               
                 Chilsung Shintoza 
                 145-23269 
                   
                 FPO 
               
               
                   
                   
                   
                 884417 
               
               
                 Graft 
                 S6V1 
                 0.59 
                 9440 
                 0.38 
                 6043 
                 7.24 
                 1.2 
                 42-84 
               
               
                 Non-graft check 
                 S3V5,6 
                   
                   
                 0.38 
                 6043 
                 73.61 
                 12.18 
                 71-94 
               
               
                 Shintoza 
                 145-23206 
                   
                 FPO 
               
               
                   
                   
                   
                 897683 
               
               
                 Graft 
                 L6V3 
                 0.33 
                 5280 
                 0.1 
                 1628 
                 22.03 
                 13.53 
                 1628 
               
               
                 Non-graft check 
                 S9V4,5 
                   
                   
                 0.1 
                 1628 
                 18.66 
                 11.46 
                 1628 
               
               
                 Shintoza 
                 145-23304 
                   
                 FRO 
               
               
                   
                   
                   
                 880342 
               
               
                 Graft 
                 S5V1 
                 0.16 
                 2560 
                 0.13 
                 2136 
                 31.1 
                 14.56 
                 73-93 
               
               
                 Non-graft check 
                 L5V3,4 
                   
                   
                 0.13 
                 2136 
                 36.5 
                 17.08 
                 96-99 
               
               
                 Shintoza 
                 145-23249 
                   
                 FRO 
               
               
                   
                   
                   
                 872648 
               
               
                 Graft 
                 S5V1 L6V3 
                 0.33 
                 5280 
                 0.11 
                 1829 
                 18.26 
                 9.98 
                 84-86 
               
               
                 Non-graft check 
                 L2V2 
                   
                   
                 0.11 
                 1829 
                 28.85 
                 15.77 
                 84-98 
               
               
                 Shintoza 
                 145-22189 
                   
                 FRO 
                 Etapa 14 
               
               
                   
                   
                   
                 909292 
               
               
                 Graft 
                 L6V4 
                 0.59 
                 9440 
                 0.25 
                 4053 
                 67.95 
                 16.76 
                 90-93 
               
               
                 Non-graft check 
                 LB,CV 
                   
                   
                 0.25 
                 1750 
                 16.7 
                 9.5 
                 82-94 
               
               
                   
                 18;18,19 
               
               
                 Shintoza 
                 145-22189 
                   
                 FRO 
                 Etapa 15 
               
               
                   
                   
                   
                 909292 
               
               
                 Graft 
                 DV19;S11V4,5 
                 0.2 
                 3200 
                 0.11 
                 1697 
                 20.3 
                 11.96 
                 8445 
               
               
                 Non-graft check 
                 CV20,21,22 
                   
                   
                 0.11 
                 1697 
                 20.4 
                 12.02 
                 6340 
               
               
                   
                 Gal 
               
               
                 Graft 
                 L6V4 
                 0.19 
               
               
                 Shintoza 
                 145-23377 
                   
                 FPO 
               
               
                   
                   
                   
                 897686 
               
               
                 Graft 
                 L6V3,4 
                 0.44 
                 7040 
                 0.18 
                 2873 
                 25.68 
                 8.94 
                 8841 
               
               
                 Non-gaft check 
                 S 10V4,5 
                   
                   
                 0.18 
                 2873 
                 18.09 
                 6.3 
                 4845 
               
               
                 Shirrtoza 
                 145-23269 
                   
                 FPO 
               
               
                   
                   
                   
                 897686 
               
               
                 Graft 
                 S2V2,3;DV19 
                 0.14 
                 2240 
                 0.09 
                 1411 
                 15.7 
                 11.12 
                 8844 
               
               
                   
                 Gal 
               
               
                 Non-graft check 
                 CV27 Gal 
                   
                   
                 0.09 
                 1411 
                 22.53 
                 15.96 
                 6844 
               
               
                 Shintoza 
                 145-311134 
                   
                 FPO 
               
               
                   
                   
                   
                 909289 
               
               
                 Graft 
                 DV19 Gal 
                 0.1 
                 1600 
                 0.08 
                 1267 
                 15.25 
                 12 
                 9345 
               
               
                 Non-graft check 
                 CV27 Gal 
                   
                   
                 0.08 
                 1267 
                 24.51 
                 19.34 
                 9445 
               
               
                 Shintoza 
                 145-297888 
                   
                 FPO 
               
               
                   
                   
                   
                 917028 
               
               
                 Graft 
                 S2V2,3;DV18 
                 0.36 
                 5760 
                 0.27 
                 4103 
                 49.29 
                 12 
                 96-95 
               
               
                   
                 Gal 
               
               
                 Non-graft check 
                 Galmo DV18 
                   
                   
                 0.27 
                 4103 
                 60.78 
                 14.81 
                 85-93 
               
               
                 Rootstock/ 
                 145-23269 
                   
                 FPO 
               
               
                   
                   
                   
                 925514 
               
               
                 Charmtoza 
                 S11V4,5 
                 0.07 
                 288 
                 0.007 
                 111 
                 0.67 
                 6 
               
               
                 Chilsung Shimtoza 
                 S11V4,5 
                   
                 480 
                 0.012 
                 205 
                 0.54 
                 2.63 
               
               
                 Shimtoza 
                 S11V4,5 
                   
                 460 
                 0.01 
                 169 
                 0.09 
                 0.53 
               
               
                 Non-graft check 
                 S11V4,5 
                   
                   
                   
                 34023 
                 494.32 
                 14.53 
               
               
                 Rootstock/ 
                 145-23269 
                   
                 FPO 
               
               
                   
                   
                   
                 925514 
               
               
                 Hwangtoza 
                 S10V2,3 
                 0.59 
                   
                 0.05 
                 726 
                 5.32 
                 7.32 
               
               
                 Shimtoza (0) 
                 S10V2,3 
                   
                   
                 0.02 
                 311 
                 1.77 
                 5.69 
               
               
                 Shimtoza (1) 
                 S10V2,3 
                   
                   
                 0.008 
                 138 
                 1.55 
                 11.23 
               
               
                 145-22182 (IMPAC) 
                 S10V2,3 
                   
                   
                 0.11 
                 1717 
                 23.2 
                 13.5 
               
               
                 Non-graft check 
                 S10V2,3 
                   
                   
                   
                 34023 
                 494.32 
                 14.53 
               
            
           
           
               
               
               
               
            
               
                 Watermelon Grafting 
                   
                   
                   
               
            
           
           
               
               
               
               
               
               
               
               
               
            
               
                 Chilsung Shintoza/ 
                 177-21153 
                   
                 FPO 
                   
                   
                   
                   
                   
               
               
                   
                   
                   
                 880345 
               
               
                 Graft 
                 S4V1 
                 0.58 
                 9280 
                 0.33 
                 5284 
                 201.83 
                 38 
                 98-99 
               
               
                 Non-graft check 
                 L9V14 Gal 
                   
                   
                 0.33 
                 5284 
                 50.4 
                 9.5 
                 95-98 
               
               
                 Chilsung Shintoza/ 
                 177-25423 
                   
                 FRO 
               
               
                   
                   
                   
                 892024 
               
               
                 Graft 
                 S4,3V1;1 
                 0.24 
                 3840 
                 0.15 
                 2367 
                 41.29 
                 17.4 
                  99-100 
               
               
                 Non-graft check 
                 L12V4 Gal 
                   
                   
                 0.15 
                 2367 
                 19.26 
                 8.1 
                  99-100 
               
               
                 Shintoza/ 
                 177-152185 
                   
                 FRO 
               
               
                   
                   
                   
                 897682 
               
               
                 Graft 
                 S3V1 
                 0.08 
                 1280 
                 0.05 
                 863 
                 3.45 
                 3.99 
                 96-99 
               
               
                 Non-graft check 
                 L9V8,9 Gal 
                   
                   
                 0.05 
                 863 
                 6.12 
                 7.09 
                 97-99 
               
               
                 Shintoza/ 
                 177-268382 
                   
                 FRO 
               
               
                   
                   
                   
                 926134 
               
               
                 Graft 
                 L8V7 Gal 
                 0.1 
                 1600 
                 0.05 
                 810 
                 8.63 
                 10.65 
                 99-99 
               
               
                 Non-graft check 
                 L8V7,8 Gal 
                   
                   
                 0.05 
                 810 
                 4.07 
                 5.02 
                 99-99 
               
               
                 Shintoza 
                 177-261691 
                   
                 FRO 
               
               
                   
                   
                   
                 909287 
               
               
                 Graft 
                 L8V9 Gal 
                 0.1 
                 1600 
                 0.06 
                 981 
                 8.53 
                 8.69 
                 98-99 
               
               
                 Non-graft check 
                 L8V9,10 Gal 
                 0.5 
                 8000 
                 0.06 
                 981 
                 1.16 
                 1.18 
                 99-99 
               
               
                 Shintoza 
                 178-295191 
                   
                 FRO 
               
               
                   
                   
                   
                 909287 
               
               
                 Graft 
                 L8V5 Gal. 
                 0.01 
                 166 
                 0.01 
                 166 
                 0.29 
                 1.75 
               
               
                 Non-graft check 
                 L8V5,6 Gal. 
                   
                   
                 0.01 
                 166 
                 0.29 
                 1.75 
               
               
                 Shintoza 
                 178-213828 
                   
                 FRO 
               
               
                   
                   
                   
                 926141 
               
               
                 Graft 
                 L8V2,3 Gal. 
                 0.17 
                 2720 
                 0.06 
                 998 
                 0.41 
                 0.41 
               
               
                 Non-graft check 
                 L8V4,5 Gal. 
                   
                   
                 0.06 
                 998 
                 0.38 
                 0.38 
               
               
                   
               
            
           
         
       
     
     Example 5 
     Further Analysis of the Effect of Grafting on Seed Production 
     Grafted diploid watermelon varieties Starbrite and Susanita were grafted on rootstock varieties Charmtoza, Chilsung Shintoza, FR-Couple, and Hwangtoza. Seed yield per plant was measured in grams and indicated an increase in the seed yield per plant for most grafted combinations in comparison with the ungrafted check. 
     
       
         
           
               
               
               
               
               
             
               
                   
               
               
                   
                   
                 FRUIT 
                   
                 YIELD/ 
               
               
                 VARIETY 
                 ROOTSTOCK 
                 COUNT 
                 YIELD 
                 PLANT 
               
               
                   
               
             
            
               
                   
               
            
           
           
               
               
               
               
               
            
               
                 STARBRITE 
                 CHARMTOZA 
                 7 
                 451 
                 64.43 
               
               
                   
                 CHECK 
                 57 
                 2145 
                 37.63 
               
               
                   
                 CHILSUNG SHINTOZA 
                 28 
                 1643 
                 58.68 
               
               
                   
                 FR-COUPLE 
                 56 
                 2118 
                 37.82 
               
               
                   
                 HWANGTOZA 
                 47 
                 2407 
                 51.21 
               
               
                 SUSANITA 
                 CHARMTOZA 
                 60 
                 1314 
                 21.90 
               
               
                   
                 CHECK 
                 69 
                 1170 
                 16.96 
               
               
                   
                 CHILSUNG SHINTOZA 
                 67 
                 1584 
                 23.64 
               
               
                   
                 FR-COUPLE 
                 64 
                 1376 
                 21.50 
               
               
                   
                 HWANGTOZA 
                 55 
                 1409 
                 25.62 
               
               
                   
               
            
           
         
       
     
     Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity and understanding, it will be obvious that certain changes and modifications may be practiced within the scope of the invention, as limited only by the scope of the appended claims. 
     All references cited herein are hereby expressly incorporated herein by reference. 
     REFERENCES 
     The following references, to the extent that they provide exemplary procedural or other details supplementary to those set forth herein, are specifically incorporated herein by reference:
     U.S. Pat. Nos. 4,936,904; 6,018,101   Cushman,  Univ. of Florida, Extension Publication, HS 1075, 1-5, 2006.   Eigsti,  HortScience,  6:1-2, 1971.   Kihara,  Proceedings of American Society for Horticultural Science,  58:217-230, 1951.   Kurata,  HortScience  29(4):235-239, 1994.   Love et al.,  Euphytica,  35:633-638, 1986.   Zhang et al.,  Cucurbit Genetics Coop.,  17:111-115, 1994a.   Zheng et al.,  J. Heredity,  85(4):279-285, 1994b.   Zheng et al.,  HortScience,  31(1):29-57, 123-126, 1996.