1. Normal type of secondary growth in the cortical and vascular regions adding to the secondary xylem ,secondary phloem and periderm at their proper places
2. Various types of anomalous secondary growth putting paches of xylem & phloem abnormally.
Monocots exhibit two main types of growth patterns: primary growth, which includes elongation of the stem and root tips, and secondary growth, which involves an increase in thickness due to the activity of lateral meristems (vascular cambium and cork cambium). This growth pattern differs from dicots, which show more pronounced secondary growth.
Herbaceous stems lack woody tissue and growth rings unlike woody xylem. Wood is a composite of cellulose fibers which require the the process of phloem in the bark to contain nutrients unlike herbaceous stems that rely on xylem that contains vessel and vascular elements.
Two types of secondary meristems are the vascular cambium and the cork cambium. The vascular cambium is responsible for producing secondary xylem (wood) and secondary phloem, contributing to the growth in thickness of stems and roots. The cork cambium generates cork cells, which replace the epidermis and provide protection to the plant. Both types of meristems play crucial roles in the secondary growth of dicotyledonous plants.
Dicots typically have reticulate or netted veination in their leaves. This pattern consists of a network of veins that branch and interconnect throughout the leaf surface, providing support and transporting water and nutrients.
Yes. Different plants will have the same types of cells in them, unless the difference is such as between monocotyledonous (monocots) trees or dicotyledonous (dicots) trees. Dicots have two types of mesophyll cells- Palisade and Spongy while Monocots have only one type of mesophyll cell, which looks like a spongy cell but has more chloroplasts. But all dicots will have same cells as each other, and all the monocots will have same cells as each other. best answer: ferns only have one type of cell, its called arrogant-bitch!
Monocots exhibit two main types of growth patterns: primary growth, which includes elongation of the stem and root tips, and secondary growth, which involves an increase in thickness due to the activity of lateral meristems (vascular cambium and cork cambium). This growth pattern differs from dicots, which show more pronounced secondary growth.
Mangoliids, eudicots, Dilleniidae, and Caryophyllidae
Herbaceous stems lack woody tissue and growth rings unlike woody xylem. Wood is a composite of cellulose fibers which require the the process of phloem in the bark to contain nutrients unlike herbaceous stems that rely on xylem that contains vessel and vascular elements.
Two types of secondary meristems are the vascular cambium and the cork cambium. The vascular cambium is responsible for producing secondary xylem (wood) and secondary phloem, contributing to the growth in thickness of stems and roots. The cork cambium generates cork cells, which replace the epidermis and provide protection to the plant. Both types of meristems play crucial roles in the secondary growth of dicotyledonous plants.
primary, secondary, tertiary and quaternary
Dicots typically have reticulate or netted veination in their leaves. This pattern consists of a network of veins that branch and interconnect throughout the leaf surface, providing support and transporting water and nutrients.
Rancid edema secondary to tobacco abuse
primary, secondary and tertiary
A fox, A lion, and A tiger
Yes. Different plants will have the same types of cells in them, unless the difference is such as between monocotyledonous (monocots) trees or dicotyledonous (dicots) trees. Dicots have two types of mesophyll cells- Palisade and Spongy while Monocots have only one type of mesophyll cell, which looks like a spongy cell but has more chloroplasts. But all dicots will have same cells as each other, and all the monocots will have same cells as each other. best answer: ferns only have one type of cell, its called arrogant-bitch!
no
The two types of cotyledon are monocotyledons (monocots) and dicotyledons (dicots). Monocots have one cotyledon in their seeds, while dicots have two cotyledons. These structures provide nutrients to the emerging seedling before it can photosynthesize on its own.