Use of Plant Hormones by Humans
Higher Tier Only
- Plant hormones can be extracted or artificially made and used by gardeners and farmers in horticulture and agriculture to usefully control plant growth to obtain larger yields
- Auxins, ethene and gibberellins are commercially used plant hormones in the food and decorative plant industry
- However, the everyday use of hormones as weed killers can have a negative effect on biodiversity; as the growth of unwanted but natural plants such as weeds is inhibited
- Many different species of plants are classed as weeds commercially, but to other organisms they are a food source and potential habitat, so destroying them can have negative effects on other organisms in the ecosystem
Auxins
- Auxins can be used as selective weed killers; negatively affecting the growth of broad-leaved plants which are weeds in comparison to the narrow-leaved grasses and cereals grown as crops for food production (which are desired)
- The growth of weeds is controlled by farmers who don’t want their yields to be smaller as a result of competition between crops and weeds for space and nutrients from the soil
- Selective weed killers disrupt the growth of weeds only, causing them to die
- However once applied to a crop their spread cannot be controlled, and they could affect other plant species negatively
- If a gardener or farmer wants to easily and cheaply produce lots of clones of a desirable plant, then they can take cuttings of the plant and dip the tips in auxins which are sold as ‘rooting powders’ as they encourage the rapid development of roots
- The same principle as above can be used to clone plants in the lab; auxins in this way are used to promote growth in tissue culture where scrapings of cells can be taken from a desirable plant and used to produce clones in a petri dish that are then planted and allowed to grow in soil
Ethene (also known as ethylene)
- Ethene is used in the food industry to control ripening of fruit during storage and transport
- It is far more effective to transport unripe fruit, as ripe fruit is softer and therefore more easily damaged and spoiled
- The production of ethene can be inhibited to delay ripening of fruits in storage; this can either be achieved directly by adding chemicals that prevent ethene from being produced, or by reacting ethene in the air around fruit with substances that can remove it
- When ripening needs to be encouraged (e.g. when fruit is in the supermarket), artificially produced ethene gas can be released to speed up the process
Gibberellins
- Gibberellins can be used to:
- End seed dormancy - a high concentration of gibberellin, promotes seed germination.
- Gibberellin levels naturally rise after a period of dormancy (exposure to cold and dry conditions) - usually, dormancy ends with an intake of water into the seed and warmer weather
- Promote flowering - regardless of the weather conditions the plant is in
- Increase fruit size - higher levels of gibberellin promote the development and growth of fruit
- Produce seedless fruit (parthenocarpic fruit development) - normally, fruit with seeds in the middle only grows on flowering plants that have been pollinated.
- If gibberellins are applied to the unpollinated flowers of some plants, the fruit grows but no seeds develop within it
- End seed dormancy - a high concentration of gibberellin, promotes seed germination.
Plant Hormones and their Commercial Uses Table
