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FEATURES
Plant breeding: Induced mutation
technology for crop improvement
Scientists at the IAEA's Seibersdorf Laboratories are helping
breeders to develop crops having more desirable traits
present forms of life are the product of found suitable for domestication; humans have by F.J. Novak
three factors: used about 3000 of these for food, fibre, spices, and
mutation, the fundamental source of heritable etc., with 200 ultimately domesticated as crops. H. Brunner
variation, Today, only 15-20 of these are food crops of
environmental factors, which influence the major importance.
selection of those mutations that survive and The means of developing new plant varieties
reproduce, and for cultivation and use by humans has come to be
time, during which the genotype and environ- called plant breeding. Early on, it primarily in-
ment constantly interact and evolutionary volved selection, the choice between good and
change is realized. bad plants. People learned not to eat all the "best
Genetic variation found in nature does not fruit" but to plant the seed from some of them.
represent the original spectrum of spontaneous Genetics became a fundamental science of
mutations. Rather, this is the result of genotypes plant breeding after the Moravian monk J.G.
recombining in populations and continuously in- Mendel discovered the laws of heredity in the
teracting with environmental forces. mid-19th century. Plant breeding further ad-
Green plants are the ultimate source of vanced when the methodology of hybridization
resources required for human life, food, clothing, was developed. Its aim was to combine various
and energy requirements. Prehistoric people, desirable properties of many plants in one plant,
who depended on their skills as hunters, drew instead of just choosing between good and bad
upon abundant natural vegetation to collect plants. This method, often supplemented by
nutritious and nonpoisonous fruits, seeds, tubers, germplasm derived from induced mutation, has
and other foods. As human populations in- become the most common one for breeding
creased, greater and safer supplies of food had to plants through sexual reproduction.
be found, and gradually production systems However, some crops—including bananas,
based on plant domestication were developed. apples, cassava, and sugar cane—reproduce
The domestication of crops historically has vegetatively, especially those that are fully
been influenced by ecological and agricultural sterile without seeds. For this important group,
conditions, as well as by food gathering alternative approaches had to be developed,
preferences. Genotypes that have adapted to a namely techniques of manipulation with somatic
wide range of climatic and edaphic conditions tissue: mutation breeding and biotechnology.
typically have been selected for cultivation. The
achievement of higher yielding crops facilitated
population growth, sedentary settlements, and Mutation breeding
further development. Which crops were domes-
ticated depended not only on the number of Plant breeding requires genetic variation of
seeds or the size of fruits, but also on taste, useful traits for crop improvement. Often, how-
palatability, and other factors. ever, desired variation is lacking. Mutagenic
Only a small fraction of the world's ap- agents, such as radiation and certain chemicals,
proximately 200 000 plant species have been then can be used to induce mutations and
generate genetic variations from which desired
Dr Novak is Head of the Plant Breeding Unit at the IAEA's mutants may be selected.
Seibersdorf Laboratories, and Dr Brunner is a senior scientist Mutation induction has become a proven
in the Unit. way of creating variation within a crop variety.
IAEA BULLETIN, 4/1992 25
FEATURES
One natural evolutionary
product of genetic
variation: a mutant of
dwarf coconut palm.
It offers the possibility of inducing desired at- Major efforts were devoted during this initial
tributes that either cannot be found in nature or phase of mutation induction to define optimal
have been lost during evolution. When no gene, treatment conditions for reproducibility. Re-
or genes, for resistance to a particular disease, or search focused on changing "random" mutation
for tolerance to stress, can be found in the avail- induction into a more directed mutagenesis to
able gene pool, plant breeders have no obvious obtain more desirable and economically useful
alternative but to attempt mutation induction. mutations. However, it did not lead to the desired
Treatment with mutagens alters genes or alterations in the mutant spectrum. Limitations
breaks chromosomes. Gene mutations occur were the concomitant increase of plant injury
naturally as errors in deoxyribonucleic acid with increasing radiation dose and the low fre-
(DNA) replication. Most of these errors are quency of economically useful mutations. This
repaired, but some may pass the next cell led scientists to search for potentially better
division to become established in the plant off- mutagens. As a result, new methods of radiation
spring as spontaneous mutations. treatment, as well as chemical agents with
Although mutations observed in a particular mutagenic properties, were found.
gene are rare, there are probably 100 000 genes
in a cell of a higher plant. This means that every
plant may carry one or more spontaneous muta- Plant biotechnology
tions into the next generation. Gene mutations
without phenotypic (visible) expressions are Breeding for improved plant cultivars is
usually not recognized. Consequently, genetic based on two principles: genetic variation and
variation appears rather limited, and scientists selection. The process is extremely labourious
have to resort to mutation induction. There are and time consuming with high inputs of intellec-
no other economic ways of altering genes, ex- tual and manual work. (See box.) However, the
cept to wait a long time for spontaneous muta- development of plant cell and tissue culture over
tions to occur. the last 20 years has made it possible to transfer
Artificial induction of mutations by ionizing part of the breeding work from field to laboratory-
radiation dates back to the beginning of the 20th conditions.
century. But it took about 30 years to prove that Extensive research has resulted in new areas
such changes could be used in plant breeding. of plant breeding, namely "plant biotechnology"
Initial attempts to induce mutations in plants and "genetic engineering". They are based on
mostly used X-rays: later, at the dawn of the cellular totipotency. or the ability to regenerate
"Atomic Age", gamma and neutron radiation whole, flowering plants from isolated organs
were employed as these types of ionizing radia- (meristems). pieces of tissue, individual cells.
tions became readily available from newly estab- and protoplasts. The isolated plant parts are
lished nuclear research centres. aseptically grown in test tubes on artificial media
26 IAEA BULLETIN, 4/1992
FEATURES
Some tools and products of plant breeding
(clockwise from top left): a mutant of paddy rice
induced by ionizing radiation; yams and other root
and tuber crops can be genetically improved by
mutation breeding; tissue culture and in vitro
mutagenesis are basic methods of biotechnology
for improving crops; "Golden Maidegg", an apple
mutant with improved market value, was induced
at the Seibersdorf Laboratories by irradiation of
cuttings from "Golden Delicious" apples;
mutation breeding has improved the tolerance to
environmental stress of Azolla, a water fern used
as biofertilizer in rice paddies.
IAEA BULLETIN. 4/1992 27
FEATURES
General scheme of
mutation breeding Breeding a new variety of crop takes anywhere from 12 to 15 years of intensive effort The steps in-
clude:
Generation Characterization
Seeds, pollen, vegetative parts, or tissue cultures
treated by physical (radiation) or chemical mutagens.
Mi(MiVi) Plants grown from treated seeds (Mi) or vegetative
propagula (MiVi).
M(MiV ) Population of plants grown from seeds (M ) or vegetative
2 2 2
parts (MiV2> harvested from Mi or MiVi respectively.
Selection of desired mutants may start in this generation
or later.
MS - MS Continuing selection, genetic confirmation, mulitphcation
(MiV - MiV ) and stabilization of field performance of mutant lines.
3 8
Next 2 - 3 generations Comparative analyses of mutant lines during different
years and in different locations.
Next 2 - 3 generations Official testing before release as a new variety.
Applications of
nuclear techniques
in plant breeding
Cross Breeding Mutation Induction
(using mutants)
Genetic Engineering
| | Mutation breeding
Tracer techniques
Both
Biochemical-and
DNA Markers
Crop improvement is
based on two basic
principles: genetic
variation and selection. Disease and Pest
Serving as invaluable Resistance
tools are mutagenic
irradiation and isotope
tracer techniques, which
are incorporated into the Yield (Photo-
various breeding synthesis Studies)
methods.
28 IAEA BULLETIN, 4/1992
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