Filetype PDF | Posted on 14 Sep 2022 | 3 years ago
Authentication
digital resources
233x Filetype PDF File size 2.42 MB Source: mastergardener.extension.wisc.edu
chapter 19
Plant Propagation
UW-EXTENSION MASTER GARDENER MANUAL: FOUNDATIONS IN HORTICULTURE
Introduction Plant breeding
any gardeners plant seed The terms “plant breeding” and
In a nutshell… in the ground and watch “genetic engineering” are often
• Propagating plants is a fun way it grow. Others browse confused. Both are methods of
to create new plants. Mthe garden center for developing new plants with desirable
• You have to think about plants varieties of plants with little thought characteristics. Genetic engineering is
in a different way if you plan on to where they came from. Some divide essentially a type of breeding.
saving seeds. plants in their gardens to improve Plant breeding has been practiced
vigor or to share with a neighbor. In for thousands of years. It involves
• We’re talking plant sex: You studying plant propagation you will pollinating the flowers of a chosen
need to understand how learn how to affect a plant’s growth by plant with pollen from another
plants reproduce to be able to manipulating environmental growing chosen plant, both with desirable
effectively propagate them. conditions, resulting in more plants. characteristics. The seeds produced
• For issues not covered in this In gardening, plant propagation refers are then planted and the resulting
chapter, contact your county to the many ways of starting new plants are evaluated for their quality.
Extension office: plants. These various processes of Promising plants are “selected” for
counties.uwex.edu multiplying or perpetuating a plant their desirable characteristics or to be
species may be by natural or artificial used for further breeding. With plant
means. This chapter introduces breeding, the same pollination could
concepts and techniques for growing theoretically occur naturally; human
new plants from seed and by asexual involvement directs which two plants
methods. are combined.
Learning Genetic engineering is a relatively new
technology that involves manually
objectives inserting the DNA from one organism
into the cells of another. In some
Understand the biology involved in cases, the gene inserted into a plant
1plant propagation. is not from another plant, but from
Know the conditions for starting a different organism altogether.
2seeds. For example, Bacillus thuringiensis
Demonstrate techniques for is a bacterium whose DNA is often
3asexual propagation. inserted into plants to provide pest
control. Genetic engineering involves
a recombination of genes that could
not occur in nature without human
involvement.
Scan or go to http://goo.gl/ygkkAt for more chapter materials. 331
UW-Extension Master Gardener Manual: Foundations in Horticulture
Patents, trademarks, and trade Propagation basics
names Plants can be propagated in two main ways:
Plants developed through traditional breeding sexually and asexually. Sexual propagation
or genetic engineering have a unique, desirable is the recombination of plant genetic material
characteristic that can be patented by the to form a genetically unique individual. This
government. A patent gives the recipient generally involves the floral parts of a plant,
the right to exclude others from asexually pollination that results in the formation of seeds,
reproducing, selling, or using the plant for a set and starting plants from seed.
time, usually 20 years. Patent holders can sell Asexual propagation produces new plants
licenses to producers who are authorized to that are genetically identical to the parent plant
propagate the plant, and it is illegal for those by taking a vegetative part of the parent plant
without a license to reproduce and sell the plant. (stems, roots, leaves, or other non-reproductive
Of the hundreds of thousands of plants available, plant parts) and causing it to regenerate into a
only a small number of them are patented. For new plant.
a plant to be patented, it must be distinctly
different from existing cultivars. Patents are not Sexual propagation:
awarded for plants found in the wild. from seeds
Trademarks are words, acronyms, phrases, logos,
or symbols that identify the source or origin of Propagation by seed is a common method of
a plant or type of plants. A trademark does not producing new plants. Sexual propagation may be
give exclusive rights to the plant as a patent does, cheaper and quicker than other methods, and it is
but it prevents others from using the trademark. a way to obtain new cultivars and hybrid vigor.
Trade names identify a company name, but do Seed propagation results in a lot of genetic
not specifically identify a plant or product. variability, so offspring may not have the exact
characteristics of the parent plant. Seedling
variation is quite high in some plants; many
ornamental plants do not come “true” from
seed. Other plants are more true to type. Many
All-America selections vegetables and annual flowers are easily grown
All-America Selections (AAS) is a non-profit from seed. Some perennials can also be grown
organization that tests and introduces from seed, but may not flower the first season.
significantly improved new flowers, Pollination and fertilization
bedding plants, and vegetables grown Pollination and fertilization are processes that
from seed. AAS tests are conducted at trial result in the formation of new seeds.
grounds throughout North America with • Pollination is transfer of pollen to the female
official AAS judges supervising the trial and flower parts by wind or pollinators, such as
evaluating each entry. AAS Winners have bees or other insects.
been tested for home garden performance • Fertilization is the union of the male and
and are quite reliable because of these female reproductive material.
unbiased, independent tests. AAS Display
Gardens in the U.S. and Canada are open • The stamen is the male portion of the flower
to the public to provide gardeners with that produces the pollen.
opportunities to view the most recent AAS • The dust-like pollen is contained in the
Winners. anthers, the sacs at the end of the filament.
• The typical female pistil consists of an enlarged
ovary (containing the egg) at the base, a
columnar style and the stigma, the organ that
receives the pollen on the end.
332
PLANT PROPAGATION
When pollen grains land or are placed on the The embryo is a new plant resulting from the chapt
stigma, they germinate to form a pollen tube that union of pollen and egg during fertilization.
grows down the style to the ovary, allowing the Cotyledons, or seed leaves, are attached to the
male reproductive material to move to the egg embryo. Monocotyledons (monocots), such
(figure 1). Once the male reproductive material as grasses, have one cotyledon; dicotyledons
fertilizes the egg, seeds can be produced. To (dicots), such as beans, have two cotyledons.
understand these processes, it is important to A mature seed contains enough stored food (or
know the parts and functions of a flower (see energy source) for seed germination and early
chapter 1, Botany). seedling growth. The cotyledons of dicots usually
FIGURE 1. The parts and functions of a flower contain this food reserve, while some seeds like er 19
stamen pistil monocots have a mass of food reserve called an
endosperm.
Seed coverings are the seed coat and parts of
anther stigma the fruit or seed pod. These structures protect
filament style the embryo and food reserve inside the seed and
sometimes prevent germination until conditions
are suitable.
ovary Selective pollination
petal Four seed types can be produced by selectively
pollinating plants with specific parents: inbred
lines, F1 hybrids, F2 hybrids, and seed mixtures.
Inbred lines
sepal Inbred lines are created when plants from a single
parent line are self-pollinated or interpollinated
Anatomy of a seed so they become nearly identical after several
generations. These flowers or vegetables are
A seed is usually made up of three basic parts often easier and faster to breed and produce.
(figure 2): Common self-pollinated, non-hybrid, and
• The embryo purebred annuals and vegetables are suitable
• A food supply candidates for saving seed.
• The outer protective covering • Some vegetable seeds that can be easily
saved include lettuce, beans, peas, herbs, and
FIGURE 2. Anatomy of a seed heirloom tomatoes.
• Annual flower seeds that can often be
plumula successfully saved include cleome, salvia, and
hypocotyl embryo nicotiana.
radical
micropyle
cotyledon
seed coat
333
UW-Extension Master Gardener Manual: Foundations in Horticulture
F1 hybrids Seed saving
F1 hybrids are created by crossing two inbred Seed left over in a package after planting can be
parent plants—often that differ in several saved for next year’s garden, usually with little
important traits—resulting in uniform, often very loss in germination, if stored properly (see “seed
prolific plants. Control of the cross-pollination of storage”).
these plants is critical for hybrid seed production. You may also choose to save seed from plants
These crosses are made to develop qualities like you grow in your garden from one year to the
good vigor, heavy yields, uniformity, disease next. Saved seed may not produce plants that are
resistance, and other desirable traits. Hybrids the same as the parent plant. Cross-pollination
are often more vigorous than either parent, in some crops may result in altered genetic
but cannot breed true. Seeds collected from F1 characteristics, so new plants grown from these
hybrids will not produce plants identical to those seeds might have any combination of new
from which they were collected. characteristics, such as fruit size, blossom color,
F2 hybrids shape, or flavor. Some vegetables that are self-
F2 hybrids are the result of self-pollination or pollinated and therefore are good seed-saving
indiscriminate pollination of F1 hybrids. These bets include beans, eggplant, peas, and tomato.
plants are more variable than the original hybrid Seed storage
but may maintain some of the characteristics of It is important to store seeds properly to maintain
their parents. Plants grown from seed saved from their viability. Seed is a living product that, once
F2 hybrids can be variable and unpredictable. harvested, is constantly in decline. The storage
Seed mixtures life of seed depends on both environmental
Seed mixtures contain seeds collected from conditions and the plant species. Most flower and
plants—generally flowers—that vary only in a vegetable seeds will keep for one year without
single trait, such as color. Field grown mixtures special protection, and many will remain viable
come from plants of different colors growing for up to 5 years if stored properly (table 1). The
together, which can result in slightly variable and best conditions for seed storage are just the
unpredictable color mixtures. Formula mixtures opposite of those required for germination—
blend seed in predetermined proportions cool, dark, and dry.
from plants of different colors that were grown In general, the drier the seeds, the longer they
separately to produce a constant and predictable will last. A relative humidity of 30% is ideal. The
balance of colors. highly variable environment in the average
Obtaining seeds home allows far too much (or too little) moisture
exchange for long-term storage in paper
Seed selection envelopes, cloth bags, or cardboard boxes. Place
Purchase good quality seed from reputable seed seeds in an airtight container such as tight-
companies that produce seed with controlled sealing glass jars or resealable plastic bags. To
genetics and store seed properly. help reduce moisture in the container, you can
TABLE 1. Storage life of flower and vegetable seeds
LONG-LIVED SEEDS MEDIUM-LIVED SEEDS SHORT-LIVED SEEDS
(5 OR MORE YEARS) (UP TO 5 YEARS) (1 TO 2 YEARS)
beets, broccoli, Brussels sprouts, basil, beans, calendula, carrot, alyssum, aster, blanketflower,
cabbage, cauliflower, cilantro, celery, chard, dianthus, dill, coleus, corn, cosmos, delphinium,
cucumber, lavender, lettuce, eggplant, forget-me-not, lupine, leek, onion, pansy, parsnip, phlox,
melons, mustard greens, oregano, marigold, nasturtium, parsley, spinach, strawflower
peppers, radish, sunflower, tomato, peas, pumpkin, sage, snapdragon,
turnip squash, sweet pea, thyme, zinnia
334
no reviews yet
Please Login to review.
