PLANTS: Anatomy, Growth and Function
Plant Characteristics Plants need: energy, nutrients, water, gas exchange protection from herbivores and disease to reproduce.
Plant Characteristics Plants create their food (autotrophs) using the process of Photosynthesis: Carbon dioxide + water + sunlight glucose + oxygen Glucose is a carbohydrate (made of C, H, and O). Carbohydrates are used by plants to grow, maintain and develop.
Plant Characteristics Different plants can reproduce through sexual and/or asexual reproduction
Basic Tissue Types Dermal tissues Vascular tissues 2 types: epidermis and periderm Outermost cell layers Thick cell walls covered in waxy cuticle Protection against water loss, injury, disease Vascular tissues 2 types: xylem and phloem Xylem: thick walled cells, dead at maturity Phloem: thin walled cells, living at maturity Like tubes Transport water and nutrients
Basic Tissue Types Ground Tissues Meristematic Tissues 3 types: Parenchyma: thin-walled, living cells, support growth and development, stores carbs as starch. Collenchyma: thick-walled living cells, support growth and development, supports and protects plant body. Sclerenchyma: cells with lignin in cell wall, dead at maturity, supports and protects plant body Meristematic Tissues An area of actively dividing undifferentiated cells Eventually develop into specialized cells
Monocots and Dicots Angiosperms are the class of plants that produce flowers which can be further divided into monocots and dicots Monocots include grains, grasses Dicots include common plants like the daisy, tomato, maple Names are based on the structure of their seeds: made of a seed coat, embryo, endosperm, seed leaf (called a cotyledon) Monocots have one cotyledon, dicots have two. Cotyledons in the dicots contain the nutrients that nourish the embryo as it develops. In the monocots, the endosperm contains the nutrients
Dicots and Monocots