I'm not sure but chloroplasts (i think) control the cell activities so probably control the cambium!:)
A layer of cambium cells separates the xylem and phloem tubes.
Cork cambium is used for secondary growth.Cork cambium produces new dermal tissues that replace the epidermal tissues from protoderm. Cork cambium is consisted of cork cambium and cork.
vascular cambium produces secondary phloes and secondary xylem. interfascicular cambium are been between vascular bundles in near stems.
cork cambium, apical meristem, and vascular cambium.
cambium doesn't really produce anything. it just separates the xylem from the phloem.
A layer of cambium cells separates the xylem and phloem tubes.
The cambium produces the new phyloem and xylem.
Cambium is not a country.
Cork cambium is used for secondary growth.Cork cambium produces new dermal tissues that replace the epidermal tissues from protoderm. Cork cambium is consisted of cork cambium and cork.
cambium
vascular cambium produces secondary phloes and secondary xylem. interfascicular cambium are been between vascular bundles in near stems.
woody stems have more xylem than soft stems
The vascular cambium adds to secondary xylem and secondary phloem while the cork cambium gives rise to cork and secondary cortex. The vascular cambium is a remnant of the apical meristem while the cork cambium is a true secondary meristem which develops outside the vascular tissues.
no there is no cambium present in monocot roots.
No, the vascular cambium produces xylem and phloem. It is the cork cambium which produces the bark and secondary cortex.
cork cambium, apical meristem, and vascular cambium.
Vascular cambium cells get energy from food supplied by ploem cells