Plant Parts

Petiole. The petiole attaches the leaf to the stem. Sometimes the petiole can look like a stem, but it is actually part of the leaf. Petioles can be long or short, wide or narrow!

Lamina. The lamina is the surface part of the leaf. It has the most area of any leaf part.

Midrib. The midrib supports the leaf from the middle. It is important for helping the leaf keep its shape!

Vein. Every leaf has a system of veins, and this system can look very different among leaves from different plants. Leaf veins have different patterns, but all leaf veins do the same job. Leaf veins are responsible for moving the nutrients and water that come up from the stem around the leaf. Leaf veins are also responsible for moving the sugars (created by the leaf during photosynthesis) to the stem.

Cuticle. The cuticle is a waxy layer that covers the outside of the leaf, and cloaks it in a protective layer. This protective layer acts as a sort of armor for the leaf.

• Node- Nodes are the point of attachment for leaves, buds, roots, and other stems. Nodes help plants form buds, roots, leaves, and branches.

• Internode- Internodes are the space between the nodes on the stem and are the connection between nodes. Internodes transport water, nutrients, and sugars and can be very short or very long depending on the plant species.

• Bud- Buds can be either terminal/apical or lateral/axillary. Apical buds are at the end of a stem, and they are the primary growth point of the plant. Buds produce hormones that affect how the buds, leaves, and roots grow. Axillary buds develop at the nodes and give rise to new stems or flowers. Axillary buds help the plant grow outward (laterally) and develop leaves and flowers.

• Leaf petiole- Leaf petioles are thin stalks that attach the leaf blade to the stem at a node. They support the leaf and help the leaf orient to maximize light interception. Petioles also help to transport water, nutrients, and food to the cells in the leaf.

• Germination- Inside each radish seed, there is a tiny root called a radicle. In germination, the primary root descends into the earth.

• Growing downward- The taproot grows downward and other roots branch off. The root tip on each of these roots absorbs nutrients.

• Photosynthesis- The leaves are above ground and are starting to photosynthesize. The plant now has access to the sugar it makes from sunlight.

• Storage in the root- The plant uses some of these sugars to help it grow bigger, and stores the extra sugars in the root.

• The fattening of the root- The root gets fatter and juicier as more and more water, sugar, and nutrients get stored in the root.

• Maximal juiciness- If we were harvesting this radish for food, we would want to pull it up from the ground at this stage. This stage is when the root has stored as much sugar, water, and nutrients as it is going to.

• Using the stored resources- Growing flowers and fruit takes a lot of energy! The radish transports sugar, water, and nutrients up the stem to help the plant grow the flowers it needs for reproduction.

• All used up- Now that the radish has shot its stem upward and grown flowers, its root is tough. The root still draws in nutrients and it still anchors the plant in the earth, but it no longer stores extra sugar, water, and nutrients for the plant.

• Perianth- The perianth consists of the sepals/calyx and the petals/corolla. These terms vary based on the type of flower; for example, lilies have indistinguishable sepals and petals. The corolla is also referred to as a cluster of petals. Collectively these parts are typically used to attract pollinators.
• Pistil- The pistil is the collective female flower parts made up of the stigma, style, and ovary. The stigma is the receptor for pollen grains to begin fertilizing the flower. The style connects the stigma and ovary and is where the pollen tube extends through to reach the ovules in the ovary and to create a plant zygote. In some plants, individual ovules are visible to the naked eye, but in many plants, they are not visible without magnification.
• Stamen- The stamens are the male reproductive parts of the flower. The stamen consists of the filament and the anther. The anther is the pollen sac where pollen is held. The filament orients the anther so that pollen is transferred when pollinators visit the flower.
• Peduncle- Attaching the flower to the stem/node is the peduncle, which helps orient the flower. The receptacle is attached to the peduncle and holds all the flower parts we traditionally think of when we talk about flowers.

• Seeds contain the genetic material of a new plant. The parts of the seed are the embryo, endosperm, and seed coat. The embryo is a potential new plant that is ready to begin growing once the environmental conditions are ideal. The seed coat is the outermost layer of the seed and protects the embryo inside the seed and prevents it from drying out or being damaged by seed predators and pests. The endosperm provides sugar and nutrients for the embryo. In this image, only the seed coat is visible.
• The epicarp is the outermost tissue of the fruit, like the rind of an orange or the skin on an apple. The epicarp is part of the pericarp.
• The mesocarp is the fleshy and edible part of a fruit and typically contains a lot of water, like the flesh of a mango or peach. The mesocarp is part of the pericarp.
• The endocarp is the inner part of the fruit usually surrounding the seed. For example, the endocarp in peaches is the outer coating surrounding the pit. The endocarp is part of the pericarp.