Periosteum
No, mosses do not have secondary growth. Secondary growth takes place in vascular plants. Mosses are non-vascular.
The primary growth in vascular plants takes place with the differentiation of vascular tissue from parenchymatous cells and the secondary growth takes place when the intra-vascular and inter vascular cambium adds to the secondary phloem and secondary xylem.
no there is no cambium present in monocot roots.
Vascular Endothelial Growth FactorVasular Endothelial Growth Factor, or VEGF, is a signaling protein that is involved in the formation of the embryonic circulatory system and the growth of blood vessel from those that already exist.VEGF has been associated with poor prognosis in breast cancer, making anti-VEGF treatments important in the treatment of breast cancer.
Vascular cambium is responsible for secondary growth in a stem.
i think it is vascular cambium layer............ :)
The function of vascular cambium in dicots is to give rise to new vascular tissue.
A plant's vascular system consists of vascular tissue. The vascular tissue is made up of xylem (transports water) and the phloem (transports sugars and other nutrients). Another component of the vascular system is the meristems: the vascular meristem and the cork cambium, both of which are sites of growth.
A plant's vascular system consists of vascular tissue. The vascular tissue is made up of xylem (transports water) and the phloem (transports sugars and other nutrients). Another component of the vascular system is the meristems: the vascular meristem and the cork cambium, both of which are sites of growth.
The addition of phospholipids
Vascular bundle during secondary growth
transporting water and dissolved particles