Xylem stock illustrations

Diagram showing xylem and phloem of plant illustration

Xylem and phloem vector illustration. Labeled water, nutrient and mineral transportation scheme. Educational graphic with biological translocation process explanation. Living tissue in vascular plants

Section of the stem plant. Xylem, phloem

Water enters the root hairs by osmosis, moving from high water concentration to low water concentration. Minerals dissolve easily in water and move into the root by diffusion - either by passive transport or by active transport. Water moves across the ground tissue and into xylem tissue. Water is then transported up the plant.

Plants contain a vast network of conduits, which consists of xylem and phloem tissues. The xylem and phloem tissues extend throughout the plant. These conducting tissues start in the roots and transect up through the trunks of trees, branching off into the branches and then branching even further into every leaf

The primary components of vascular tissue are the xylem and phloem. These two tissues transport fluid and nutrients internally. There are also meristem associated with vascular tissue: the vascular cambium and the cork cambium

Xylem and phloem water and minerals transportation system outline diagram. Educational labeled anatomical scheme with vessel side cross section, structure and process explanation vector illustration.

Diagram showing xylem and phloem plant illustration

Leaf anatomy vector illustration diagram. Biological macro scheme poster with leaf inner layers, veins and breathing oxygen exchange.

Root structure. Plant anatomy. The cross-section of the root with area of dividing cells, Xylem, Phloem, cap, epidermis, and hairs. Vector illustration for biological, science, and educational use

Types of plant tissues. Anatomy of a Plant Body. Cross section of Root, stem and leaf of a green plant. Vector illustration. Poster for education and biology

Diagram showing xylem and phloem in plant illustration

Wood is a complex biological structure, a composite of many chemistries and cell types acting together to serve the needs of a living plant.

Anatomy of tree trunk illustration

Metabolism and transport in plants. Transpiration

Plant cohesion vector illustration. Labeled water upward motion explanation with educational scheme. Biological structure diagram with xylem, cortex, epidermis and ground tissue cross section view.

Internal structure of stem diagram illustration

Plant structure and cross section diagrams, botanical microbiology vector illustration schemes collection. Stem and leaves labeled closeup drawings with layers and cells. Educational biology poster.

Plant Tissue Systems vector illustration. Labeled biological structure scheme. Anatomical diagram with leaf, stem and root microscopic graphic. Plant inner vascular, dermal and ground cross section.

The only tissue present in ground tissue of monocot leaf is mesophyll. Mesophyll is present between the upper and lower epidermis and is not differentiated into palisade and spongy parenchyma. They are made up of chlorenchyma (chlorophyll containing parenchyma) cells and form the photosynthetic tissue of the leaf.

Plant vascular tissue Phloem. Cross section showing vascular bundles. Translocation in vascular plants

Plant diagram xylem and phloem

Leaf structure for school and education. Leaf tissue, cells and trasport in and out leaf

Xylem and phloem. biological structure scheme of inner vascular in Plant. cross section. function of xylem is to transport water and nutrients from roots to stems and leaves. phloem for transport organic compounds made during photosynthesis

Internal structure of root diagram illustration

Internal structure of stem diagram illustration

Internal structure of root diagram illustration

The waxy cuticle forms a protective layer over both the upper and lower epidermis. Column-shaped cells form a layer below the upper epidermis. Palisade mesophyll cells contain chloroplasts, which assist with photosynthesis. Below the palisade mesophyll cells are the spongy mesophyll cells. These cells are loosely packed and covered in a thin layer of water. There are large intercellular air spaces between the spongy mesophyll cells. The center of the leaf has a large vascular bundle.

Plant vascular tissue. Xylem and phloem. Cross section showing vascular bundles. Translocation in vascular plants

Parts of a green leaf. Epidermis, mesophyll, veins

air embolism. gas embolism is a blood vessel blockage

Bean Seed Structure. Anatomy of grain. Dicot seed diagram.

Animal cells are generally smaller than plant cells. Animal cells range from 10 to 30 micrometers in length, while plant cells range from 10 and 100 micrometers in length. Animal cells come in various sizes and tend to have round or irregular shapes. Plant cells are more similar in size and are typically rectangular or cube shaped.

photosynthesis. Diagram of the process of photosynthesis, showing the light reactions and the Calvin cycle. photosynthesis by absorbing water, light from the sun, and carbon dioxide from the atmosphere and converting it to sugars and oxygen. Light reactions occur in the thylakoid. Calvin Cycle occurs in the stoma.

Cross section cut of plant stem. Xylem, phloem

This figure illustrates in a schematic way what goes on in a leaf through the processes of photosynthesis and respiration

The structure of the bean seed in dicots and monocots

Structure of the slice of the tree layers in cross section. Tree trunk different layers scheme. Cross section of woody stems infographics. Education biology, dendrochronology poster, illustration. Stock vector

Transpiration is the loss of water from a plant in the form of water vapor

Wooden boat with sail stencil icon, vector illustration on white background

Plant anatomy with structure and internal side view parts outline diagram. Educational labeled botany explanation with cross section for flower and leaves layers under microscope vector illustration.

Transpiration is the process of water movement through a plant and evaporation from aerial parts (leaves, stems and flowers). Roots take up water from the soil, water travels up through plant, and lost by transpiration

A leaf is made of many layers that are sandwiched between two layers of tough skin cells (called the epidermis)

Detailed botanical illustration of a dicot stem cross section showing vascular bundles, xylem, phloem, and cambium. Flat cross section and a 3D cylinder view.

Chloroplasts are critical organelles that perceive and convey metabolic and stress signals to different cellular components, while remaining the seat of photosynthesis and a metabolic factory

Photosynthesis leaf vector illustration. Labeled educational scheme where light energy converts to chemical sugars. Natural botanic process visualization with stages explanation. Closeup plant system.

Illustration of a leaf anatomy on a white background

Plant tissue is a collection of similar cells performing an organized function for the plant. Each plant tissue is specialized for a unique purpose, and can be combined with other tissues to create organs such as leaves, flowers, stems and roots.

The fine scale structure of a leaf featuring the major tissues; the upper and lower epithelia (and associated cuticles), the palisade and spongy mesophyll and the guard cells of the stoma. Vascular tissue (veins) is not shown. Key plant cell organelles (the cell wall, nucleus, chloroplasts, vacuole and cytoplasm) are also shown.

Root structure. monocot and dicot stems. cross sections of plants roots. Vector diagram for educational, biological, and scientific use

Anatomy of tree trunk illustration

Fern life cycle vector illustration. Labeled educational development process scheme. Different plant stages examples with gametophyte, rhizoids, sorus and spores. Self reproduction explanation scheme.

3D Isometric Flat Vector Conceptual Illustration of Meristematic Tissue, Educational Scheme

Anatomy of tree trunk illustration

Internal structure of stem diagram illustration