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Plant propagation • Definition: multiplication of a plant so as to preserve it’s unique trait(s) • Plant biology influences the propagation process in a number of ways Types of plant propagation • Sexual (seed) propagation • Asexual (vegetative) propagation Seed Propagation • Basic category: line - a population of seed-propagated plants in which genetic variability is controlled • Example: Phaseolus vulgaris 'Greencrop' green bean is uniform because it is homozygous • Homozygosity is achieved by self-pollination each generation for 5 to 6 generations Heterozygosity vs. Homozygosity Garden pea: a diploid, where D = tall and d = short, and D is dominant to d DD Dd dd DD (all tall) 1/4 DD (tall) 1/2 Dd (tall) 1/4 dd (short All dd (short) DD and dd (homozygous) individuals “breed true”; Dd (heterozygous) individuals segregate tall and short progeny How inbreeding “fixes” a trait Dd F1 (1/2 homozygous, 1/2 heterozygous) F2 (3/4 homozygous, 1/4 heterozygous) F6 (~96% homozygous seedlings) Vegetative Propagation • Basic category: clone - genetically uniform group of individuals derived originally from a single individual by asexual propagation • Example: Solanum tuberosum 'Russet Burbank' potato is uniform because each plant is a clone of the original (heterozygous) seedling • Uniformity is maintained by cutting tubers into pieces and growing new plants from each piece Why some plants don’t “breed true” • In most cases, a particular combination of genes are required • The probability is low of recreating that combination • For example: – AaBbCcDcEe (5 genes influencing a trait) – If this genotype is self pollinated, the chances of recreating this gene combination in the next generation is: (1/2)5 = 1/32 (1 seedling in 32 will be AaBbCcDdEe) – Individuals required for a 95% probability = 94 – Individuals required for a 99% probability = 145 Types of horticultural crops • • • • • Tree and small fruits Vegetables (annuals and perennials) Turfgrasses Landscape woody plants Flowering plants (annuals and perennials) Why are some horticultural plants propagated vegetatively and some by seed? • Predictability - how much variation will be present in the seedling progeny? • Cost - seeds are always cheaper, but they may not provide enough uniformity Types of crops that are seed-propagated • Vegetable crops, bedding plants, turfgrass species • Characteristics – – – – short-season (1-2 generations per year) diploids natural selfing species or crossers that are easily inbred seedling progeny are uniform for some trait(s) Types of crops that are vegetatively propagated • Small-fruit and tree-fruit crops, landscape woody plants, foliage plants, flowering perennials, cut-flower crops and some flowering potted plants • Characteristics – Are almost always heterozygous (causing segregation in seedling progeny) – Are often long-season crops – May be sterile – Individual plants are often highly valued Other biological terms/concepts relating to plant propagation • • • • Competency and determinism The 5 major plant hormones Plant life cycles and phase changes Species and cultivar concepts Competency and determinism • Competency - potential for specific development in cells (bud, flower, root) • Determinism - the degree of commitment to a certain pathway of development (i. e., to make a flower, root, or veg. bud) • Relevance to propagation – Development of flowers for seed production – Development of roots for vegetative propagation The 5 major plant hormones, relative to propagation • • • • • Auxins - important in rooting processes Cytokinins - important in shoot induction Gibberellins - seed development Abscisic acid - seed maturation, dormancy Ethylene - fruit ripening, rooting (minor effect) Plant life cycles and phase change • Generalization: annuals, biennials are usually easier (cheaper and/or more practical) to propagate by seed, perennials by vegetative means • Phase change – Juvenile - incapable of flowering, fruiting – Mature - perennials propagated vegetatively will usually flower/fruit precociously Concepts of species, cultivar, and propagation • True species can (usu.) be propagated by seed • The cultivar (cultivated variety) name is added at the end of a scientific name - Lycopersicon esculentum ‘Rutgers’ • The scientific name (with or without the cultivar designation) does not describe how the named plant is propagated (sexually or asexually)