Growth Regulators

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Transcript Growth Regulators

Growth Stimulants, Retardants, and
Rooting Hormones
Growth regulators

Hormones

Organic chemicals that act and interact
to affect growth rate

Auxins – accelerate growth by
stimulating cell enlargement
Gibberellins

Stimulate growth in stem and leaf by cell
elongation

Stimulates premature flowering, growth
of young fruits and breaking of dormancy
Cytokinins

Stimulate cell division
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Work along with auxins
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Will not work without auxins present
Inhibitors
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Abscisic Acid and Ethylene Gas
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inhibits seed germination
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Inhibits stem elongation
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Hasten ripening of fruit – ethylene gas
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Auxins and Gibberellins promote cell
enlargement

Cytokinins stimulate cell division
Growth Hormones

Organic chemicals produced by actively
growing plant tissue

Shoot tips and young leaves

Move throughout the plant and can be
found in most tissues

These chemicals react with one another in a very
complex system in the plant

In some cases a concentration of one hormone
stimulates growth and a different concentration
restricts growth
Apical Dominance
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Dominance of the terminal bud
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Apical dominance exists there
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Terminal bud secretes chemicals that inhibit
or prevent the growth of axillary buds on the
same shoot
Apical Dominance
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Axillary buds are found in the axil – angle between a
leaf and the stem.

Causes the plant to grow tall and not branch

Once the plant reaches flowering age and the
terminal bud becomes a flower, the chemicals are
no longer secreted
Apical Dominance
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The plant then starts to send out side branches

This allows the plant to grow above competing
plants

Once height and access to sunlight are secured,
the plant spreads out over its competitors
Apical Dominance

Pinching off terminal buds removes the
hormone and causes branching to happen
faster

Common practice in greenhouses and
nurseries to produce bushier plants with
many flower buds
Stimulants

Allow plants to grow taller

Most common is Gibberellic Acid (GA)
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Causes stems of plants to stretch out
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Nodes are farther apart
Growth Stimulants
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Natural growth stimulants have been found in
alfalfa

It causes stimulation of growth
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It is the alcohol called Triacontanol

Stimulation is brought about by mulching plants
with alfalfa hay

Or watering plants with a “tea” made from
soaking alfalfa feed pellets in water
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Amount needed is very small

Also sold commercially
Chemical Retardants

Chemicals are used to retard growth of plants causing them to
be shorter and more compact
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Plants are more attractive and the plants themselves are
stronger
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Used commercially
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B-Nine is commonly used on Azaleas
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Newest uses of Plant Growth Retardants (PGR) is the
application to lawns
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After first mowing in the spring “Limit” is applied and
absorbed by the roots
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Restricts growth for 6-8 weeks

“Embark” is absorbed by the leaves and also
restricts growth

PGR’s absorbed by the leaves move to the growing
point where it interrupts cell division, stem
elongation and seed head formation
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Roots continue to grow

Applied after first or second mowing
Sumagic
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New growth retardant
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Reduces height of plants by inhibiting production of
GA
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Chemical is taken up by leaves and moves through
the plant to the terminal bud
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Used to control growth of shrubbery and hedges
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PGR Atrimmic applied after pruning can last an entire
season

Reduces or eliminates the need to prune
Atrimmic
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A systemic
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Penetrates the plant, enters the plant sap, and
moves through the plant
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Blocks plant hormones that stimulate growth
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Applied as a foliar spray
Rooting Hormones
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Important when propagating plants by cutting
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Helps cuttings to develop more roots faster than without a
rooting hormone
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Indoleacetic Acid (IAA) naturally occurring, causes roots to form
on plant stems
IBA – Indolebutyric Acid
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Most widely used rooting hormone
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Most effective rooting hormone
Rooting Hormones
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Either mixed with talc and used as a powder or dissolved in water
and used as a wet dip
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Liquid can be slightly more effective
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All rooting hormones should contain a fungicide
Fungicide
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Helps prevent cuttings from rotting
Dwarfing Rootstock
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Used in fruit trees
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Shorter trees enable you to pick fruit without using a
ladder
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First research done to prevent apple trees from
growing very tall
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Trees growing from certain types of roots didn’t grow
as tall
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These trees also bore fruit at an earlier age
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Complete series of rootstock known as malling
rootstock developed in England
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Controls size and rate of growth or apple trees

Stock has also been developed for peach
and pear trees as well
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Dwarf trees can be purchased
commercially
Chemical Blossom Set
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Used on tomato blossoms early in the season
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Causes earlier development of fruit
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Causes seedless tomatoes to set on first
blossoms and results in tomatoes ready to eat as
much as 10 days earlier than normal
Plant Biostimulants
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Natural products
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Organic
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Work to stimulate soil microbial activity and improve soil cation
exchange capacity, stimulate plant growth and promote
disease resistance
Humic Acid
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Product of rotting organic matte is an example of
a soil microbial stimulant
Root growth biostimulants
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Improve water and nutrient uptake
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Increase number of fibrous roots
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High levels found in kelp plants
Biostimulants
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Greatly reduce the need for fertilizers,
especially N
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Saves money, reduces pollution
Methanol
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A form of alcohol
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Speeds plant growth
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Research in California showed an increase in plant
yield of 36-100%
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Works by blocking photrespiration
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Plants use water for growth rather than transpiring it
into the air
Methanol
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Works best on plants frown in full summer sun
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Water use reduced by as much as 50% in some
plants
Allelopathy
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Production of a chemical compound in one plant
that slows or stops the growth of another plant
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Natural herbicide
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Black Walnut, Millet