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.
Botany diagram (plant biology) show structure of lignocellulose in biomass and pretreatment for cellulose, hemicellulose and lignin in biorefinery process
Light micrograph of a section through sunflower tissue showing spiral tracheids, a type of xylem
Xylem and phloem vector illustration. Labeled water, nutrient and mineral transportation scheme. Educational graphic with biological translocation process explanation. Living tissue in vascular plants
Ferulic acid, coniferic acid, C10H10O4 molecule. It is phenolic acid, an antioxidant, an anti-inflammatory agent, an apoptosis inhibitor, a cardioprotective agent. Vector illustration
A crude mechanical devise to crush and extract juice from sugar cane. Bagasse after the extraction of cane juice.
Chlorogenic acid herbal molecule 3D rendering Atoms are represented as spheres with conventional color coding
Light micrograph of a section through sunflower(helianthus annuus) tissue showing spiral tracheids, a type of xylem
Shoulder view of a bundle of banana fibre extracted from the leaf sheath of banana tree. New natural textile material for fabrics.
Light micrograph of pear's cells
Background Oil palm fiber, Close up Oil palm fiber under the microscope for Chemical analysis in Lab.
Cross-section leaf Plant of under the microscope for classroom education.
Willow bark - the most valuable thing in this tree . It contains vitamin C , carbohydrates , cellulose, glycoside salicin , lignin , anthocyanins , flavones , catechins , tannins .
Illustration of a plant cell
Banana leaves contain an antioxidant called polyphenols, as well as lignin, hemicellulose, proteins, and aloe vera
Caffeic acid molecule. Intermediate in the biosynthesis of lignin. 3D rendering. Atoms are represented as spheres with conventional color coding: hydrogen (white), carbon (grey), oxygen (red).
Close up Plant epidermis with stomata or Leaf Epidermis (Stomata) under microscope.
Cross-section leaf Plant of under the microscope for classroom education.
Original scanning electron microscope images of sugarcane bagasse
Ferulic acid herbal antioxidant molecule. 3D rendering. Atoms are represented as spheres with conventional color coding: hydrogen (white), carbon (grey), oxygen (red).
A crude mechanical devise to crush and extract juice from sugar cane. Bagasse after the extraction.
Wooden lignin deep rough pattern template
Wooden lignin deep rough pattern template
Light micrograph of pear fruit cells
Coconut husk high lignin waste is used to make compost in organic garden. Coco coir producing process from coconut. Organic gardening. Recycling materials. Organic farming. Sustainable agriculture.
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
Close up Plant epidermis with stomata or Leaf Epidermis (Stomata) under microscope.
White rot fungi are a group of fungi known for their ability to break down lignin, a complex organic polymer found in the cell walls of plants
Different biology cells on a white background
Science Research leaves of Mitragyna speciosa (kratom) and Chemical analysis in Lab.
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
Aloe vera contains 75 potentially active constituents: vitamins, enzymes, minerals, sugars, lignin, saponins, salicylic acids and amino acids. Vitamins: It contains vitamins A (beta-carotene), C and E
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush
Pear fruit stone cells in light micrograph
lignin and moss growing on a tree in the forest in the australian bush. university student researching fungus and fungal decomposition in the bush in australia
Outdoor photo of simulates more than 69,000 possible editing strategies on the computer for the 21 genes involved in lignin synthesis.
Corkwood background macro detailed image. Buoyant material from the Cork Oak tree (Quercus suber) that is used for a number of applications.
Sclereid cells in pear (Pyrus) fruit under the microscope - 200x magnification
Petrified or silicified wood was formend through the replacement of woody lignin with silica during burial stages by soils or rock in thousand or milliion years
It is an organic material – a natural composite of cellulose fibers that are strong in tension and embedded in a matrix of lignin that resists compression. decoration wood wall.
It is an organic material – a natural composite of cellulose fibers that are strong in tension and embedded in a matrix of lignin that resists compression. wood
Science Research leaves of Mitragyna speciosa (kratom) and Chemical analysis in Lab.
Science Research leaves of Mitragyna speciosa (kratom) and Chemical analysis in Lab.
Lignin structure isolated in black background 3d illustration
Caffeic acid molecule. Intermediate in the biosynthesis of lignin. Skeletal formula.
Structure of xylem vessel secondary thickening with lignin. thickening shown is annular, spiral and reticulate.
The late hour afternoon sun light casts golden stripes onto the bark trunk of oak trees standing confidently amongst herbaceous shrubs at the edge of a forest
Fungi live by taking food substances such as cellulose, glucose, lignin, protein and starch compounds from other organisms.
Sclereid cells in pear (Pyrus) fruit under the microscope - 100x magnification
Illustration of the plant cells on a white background
Ganoderma curtisii white rot fungi, which means they can break down cellulose and lignin, the structural components of wood
lllustration of the animal and plant cells on a white background
Lignin structure isolated in background 3d illustration
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Science Research leaves of Mitragyna speciosa (kratom) and Chemical analysis in Lab.
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
ISO 9706 acronym, paper quality concept,describes the criteria for paper permanent as follows. High quality pulp, with a low level of remaining lignin.
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Close up Plant epidermis with stomata or Leaf Epidermis (Stomata) under microscope.
Durian skin waste in the yard is used as fertilizer. Durian skin contains starch, pectin, essential oils, flavonoids, saponins, cellulose, lignin, and ethanol compounds
Close up detail of three compressed wood pellets on white made from sawdust waste during the milling process and an economical biofuel source
Lignoceric or tetracosanoic acid. It is found in wood tar, various cerebrosides, and in small amounts in most natural fats. 3d illustration
Caffeic acid molecule. Intermediate in the biosynthesis of lignin. Skeletal formula.
signed by the weather as old wood background
Ferulic acid herbal antioxidant molecule. Atoms are represented as spheres with conventional color coding: hydrogen (white), carbon (grey), oxygen (red).
Particles embedded in biopolymer gel - 3d illustration top view
Wood pellets - 6mm high-quality form of fuel. Made from recycled wood waste - wood shavings, sawdust. They are shredded, hammer milled, compressed under high pressure and wood’s natural glue - lignin.
Dry rot or brown rot is a wood-decay fungus, showing a brown discoloration, and cracks into roughly cubical pieces, a phenomenon termed cubical fracture.
Bulrush trees have narrow-slender leaves about 50-120 centimeters long. Elephant grass grows in wetlands. Typha angustifolia L. leaves commonly used for basketry,roofing, rope. Narrow-leaved Cat-tail
signed by the weather as old wood background
Wooden lignin deep rough pattern template
Phaeotellus griseopallidus, small inedible mushroom
Background Oil palm fiber, Close up Oil palm fiber under the microscope for Chemical analysis in Lab.