Term
| why is parenchyma important |
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Definition
| allows cells to be designated as necessary, develops callous formation, develops adventitious structures |
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Term
| where do herbaceous adventitious roots form |
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Definition
| outside and between vascular bundles |
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Term
| where do woody adventitious roots form |
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Definition
| parenchyma, secondary phloem, vascular rays, vascular cambium, phloem, calluses |
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Term
| Types of adventitious roots |
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Definition
| preformed/latent, de novo/wound induced |
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|
Term
| steps in wound induced adventitious roots |
|
Definition
1 dedifferentiation
2 differentiation
3 differentiated cells become organized root primordia
4 growth/emergence of root primordia through vascular tissue |
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Term
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Definition
| chemicals produced in small concentrations that regulate plant physiological processes |
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Term
| location of auxin synthesis |
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Definition
| root/shoot meristems, young leaf primordia, vascular tissues, reproductive organs/seed |
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Term
| types of natural cytokinin |
|
Definition
| from coconut milk, zeatin (from corn endosperm) |
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|
Term
| types of synthetic cytokin |
|
Definition
| kinetin (from autoclaved fish sperm), benzyladenine (plant growth regulator) |
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|
Term
| cytokin synthesis location |
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Definition
| root tips, seeds, developing leaves |
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Term
|
Definition
| stem, root, leaf, petiole and leaf, culm |
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