Plant Disease & Defence - Physical Plant Defences (GCSE Biology)
Physical Plant Defences
Plant Defences
As in humans, plants have also developed natural defence systems to fight against infection. They can be physical, chemical or mechanical.
The adaptations described below may develop over many generations through natural selection and evolution. If a mutation leads to a plant developing a useful protective feature, the plant likely to survive and pass on its alleles.
Physical Defences
- Cellulose cell walls resist infection. Cellulose cell walls form a physical barrier between the cells and pathogens, thus protect against infection. Remember, animal cells just have a cell surface membrane, whereas plant cells have a cell surface membrane and a cellulose cell wall.
- Cuticles protects the leaves. Leaves have a thick, waxy cuticle. This cuticle prevents entry of pathogens into the leaf, and has other jobs, including preventing water loss. The cuticle is found on leaves, so is especially important in protecting the photosynthesising cells of the plant.
- Bark protects the stems. Plants have layers of dead cells around their stems. This is used to protect against infection as it again stops the passage of pathogens.
Plant diseases are conditions that affect the health and growth of plants. They can be caused by a variety of factors, including pathogens (such as viruses, bacteria, and fungi), environmental stressors (such as drought or extreme temperatures), and nutrient imbalances.
Physical plant defences are the structures and processes that plants use to protect themselves from disease and damage. These can include things like tough or waxy skin, thorns, and defensive chemicals.
Plant cuticles are waxy layers that cover the surface of leaves and stems. They help to protect plants from water loss and disease by preventing pathogens from penetrating the plant’s tissues.
Thorns are sharp structures that grow on the stems and branches of some plants. They serve as a physical defence against herbivores (such as deer or rabbits) that might otherwise eat the plant’s leaves and stems.
Tannins are compounds that are produced by some plants as a defence mechanism against pathogens and herbivores. They have a bitter taste and can prevent pathogens from colonizing the plant’s tissues, and can also deter herbivores from eating the plant’s leaves and stems.
When a plant cell is attacked by a pathogen, it triggers a response called the plant immune response. This response involves the activation of defence genes, the production of defensive chemicals, and the formation of physical barriers that prevent the pathogen from spreading.
Phytoalexins are compounds that are produced by plants in response to an attack from a pathogen. They are toxic to the pathogen, helping to prevent it from colonizing the plant’s tissues and causing disease.
Plants defend themselves against viruses through a combination of physical and chemical defences. For example, plant cuticles can prevent viruses from entering the plant’s tissues, while phytoalexins can help to kill the virus once it has entered. Additionally, some plants are genetically resistant to certain viruses, which can also provide protection.
The roots of a plant play an important role in defence by absorbing water and nutrients from the soil, and by serving as a physical barrier that can prevent pathogens from spreading. In addition, some plants produce compounds that are toxic to pathogens and can help to keep the soil around the roots free of disease.
Plants defend themselves against environmental stressors by developing physical and chemical defences. For example, they can produce tough or waxy cuticles to prevent water loss, or they can produce compounds that protect their cells from damage caused by extreme temperatures or UV radiation. Additionally, some plants can adapt to changes in their environment by adjusting their growth patterns or shifting their resource allocation, which can help them to cope with stressors and maintain their health.
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