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Medicinal Plants: Basic Knowledge and Precautions





Medicinal Plants: Basic Knowledge and Precautions

Medicinal Plants: Basic Knowledge and Precautions

This article provides basic knowledge about medicinal plants, including their structure, characteristics and some additional information.

Note:

This article is for informational purposes only. To use herbs safely and effectively, consult a healthcare professional.

1. Plant Structure:

  • Root:
    • Primary structure: Root hair layer, primary cortex, central cylinder.
    • Tuberous root: Formed from the main root, e.g. carrot.
    • Adventitious root: Grows from the stem node to help the plant cling to other plants or trellises.
    • Pneumatophores: Found in many plants living in swamps, helping the plant absorb oxygen.
    • Fibrous root: The main root branches into many rootlets, e.g. rice plant.
    • Tap root: The main root develops strongly, growing deep into the soil, e.g. grapefruit tree.
  • Stem:
    • Primary structure: Epidermis, cortex, central cylinder.
    • Secondary structure: Phellogen, phellem, endodermis, phloem, xylem.
    • Tuber: Formed from the main stem, e.g. potato.
    • Bulb: Formed from leaf sheaths stacked on top of each other, e.g. onion.
    • Rhizome: An underground stem growing horizontally, e.g. ginger.
    • Stolon: Stem growing horizontally above ground, e.g. cucumber.
    • Vine: Stem climbing up using tendrils or hooks, e.g. pumpkin.
  • Leaf:
    • Leaf structure: Leaf blade, petiole, leaf sheath, leaf veins.
    • Parallel venation: Leaves have veins running parallel to each other, commonly seen in monocots.
    • Net venation: Leaves have veins branching to form a network, commonly seen in dicots.
    • Simple leaf: Leaf with one blade, e.g. orange leaf.
    • Compound leaf: Leaf with multiple blades, e.g. tamarind leaf.
  • Flower:
    • Flower structure: Sepals, petals, stamens, pistil.
    • Unisexual flower: Flower has only stamens or pistil.
    • Bisexual flower: Flower has both stamens and pistil.
    • Regular flower: Petals have the same shape and size.
    • Irregular flower: Petals have different shapes and sizes.
    • Inflorescence: Includes many flowers growing together on a common axis.
    • Inflorescence type: Raceme, spike, umbel, cyme, head…
  • Fruit:
    • Fruit structure: Pericarp, flesh, seed.
    • Simple fruit: Fruit formed from one flower.
    • Aggregate fruit: Fruit formed from many flowers.
    • Dry fruit: Fruit with hard skin, dry flesh.
    • Berry: Fruit with soft skin, soft flesh.
    • Drupe: Fruit with a hard seed covered by a hard shell.
    • Legume: Fruit with hard skin, splitting along a suture.

2. Plant Tissues:

  • Meristematic tissue: Tissue with the ability to divide to produce new cells.
    • Apical meristem: Located at the tip of the stem and root, helping the stem and root to grow in length.
    • Lateral meristem: Located in the cortex and central cylinder, helping the stem and root to grow in width.
  • Parenchyma tissue: Tissue consisting of thin-walled cells, with the function of connecting other tissues, storing nutrients.
    • Assimilation parenchyma: Containing many chloroplasts, helping plants photosynthesize.
    • Storage parenchyma: Containing many starch, helping plants store energy.
  • Collenchyma tissue: Tissue consisting of thick-walled cells, with the function of supporting the plant.
    • Angular collenchyma: Thick tissue concentrated at the corners of the stem, e.g. plants in the mint family.
    • Aerenchyma: Thick tissue with air-filled intercellular spaces, e.g. duckweed.
  • Sclerenchyma tissue: Tissue consisting of thick-walled, lignified cells, with the function of protecting and supporting the plant.
  • Secretory tissue: Tissue consisting of cells that secrete nutrients, toxins…
    • Glandular trichomes: Formed by one or many cells that secrete substances, e.g. essential oil-secreting trichomes.
    • Secretory sacs: Chambers containing secreted substances, e.g. latex sacs.
    • Secretory ducts: Conduits containing secreted substances, e.g. essential oil ducts.
  • Vascular tissue: Tissue consisting of specialized cells with the function of transporting nutrients in the plant.
    • Phloem: Transports organic substances from the leaves to other parts of the plant.
    • Xylem: Transports water and minerals from the roots to other parts of the plant.

3. Characteristics of Some Plant Families:

  • Mint family (Lamiaceae): Plants have square stems, opposite leaves, irregular flowers, 2 prominent stamens, fragrant essential oils. Example: mint, perilla, basil…
  • Aster family (Asteraceae): Plants have capitulum flowers, with reduced calyx and often developing into a pappus, small fruits, fragrant essential oils. Example: marigold, sunflower, dandelion…
  • Gourd family (Cucurbitaceae): Plants have creeping or climbing stems, large berries, often with tendrils. Example: pumpkin, cucumber, squash…
  • Carrot family (Apiaceae): Plants are herbaceous, stems often hollow, compound leaves with sheaths, compound umbels of flowers, fragrant essential oils. Example: celery, parsley, fennel…
  • Pea family (Fabaceae): Plants have legumes, racemes of flowers, compound leaves often with stipules. Example: mung bean, black bean, peanut…
  • Knotweed family (Polygonaceae): Plants have simple leaves, alternate arrangement, sheaths often clasping the stem. Example: knotweed, Chinese knotweed…
  • Nightshade family (Solanaceae): Plants have racemes or solitary flowers, berries or drupes. Example: tomato, eggplant, potato…
  • Aralia family (Araliaceae): Plants have compound leaves, umbels of flowers, berries. Example: ginseng, aralia…

4. Latin Names of Some Medicinal Plants:

  • Betel nut: Areca catechu
  • Carrot: Daucus carota
  • Wedelia chinensis: Wedelia chinensis
  • Orange: Citrus sinensis
  • Chinese knotweed: Polygonum multiflorum
  • Job’s tears: Coix lachryma-jobi
  • Stemona: Stemona tuberosa
  • Orchid: Orchidaceae
  • Plantain: Plantago major
  • Leonurus sibiricus: Leonurus sibiricus
  • Garlic: Allium sativum
  • Star anise: Illicium verum
  • Betel leaf: Piper betle

5. Some Additional Information:

  • Arecolin: A substance found in betel nut, stimulating the nervous system, helping to stay alert, and increasing muscle strength.
  • Bract: A leaf growing in the axil of a flower, which can have different colors and shapes.
  • Bud: The stage before a flower blooms, the flower will go through various bud stages such as spiral, valve, overlapping…
  • Parenchyma tissue: Non-specialized tissue, with the function of connecting other tissues, storing nutrients, participating in metabolic processes.
  • Chlorenchyma tissue: Type of assimilation parenchyma, containing many chloroplasts, helping plants photosynthesize.
  • Plant conservation: There are many methods of plant conservation such as in situ, ex situ, on-farm conservation, field gene bank, in vitro gene bank.

Note:

  • Information in this article is for informational purposes only, not a substitute for professional medical advice.
  • Using herbs should follow the appropriate dosage and usage methods.
  • Always check the source and quality of herbs before using them.


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