yes, as noted in the works or Wayne king, paul migroin, and Phil mcrackin, there are 12 others, the apos, haryin, toteus, and mastius, are some of them
yes, as noted in the works or Wayne king, paul migroin, and Phil mcrackin, there are 12 others, the apos, haryin, toteus, and mastius, are some of them
yes, as noted in the works or Wayne king, paul migroin, and Phil mcrackin, there are 12 others, the apos, haryin, toteus, and mastius, are some of them
yes, as noted in the works or Wayne king, paul migroin, and Phil mcrackin, there are 12 others, the apos, haryin, toteus, and mastius, are some of them
because it has broad leaves and a network of veins
All leaves have veins
A dicotyledon has leaves with a network of veins, and also, the seed contains an embryo that contains two seed leaves
Eudicots typically have reticulate venation, where the veins form a network pattern in the leaves, with several main veins branching out into smaller ones.
Grape vine leaves have netted veins. The venation pattern in grape leaves is characterized by a network of interconnected veins, which provides structural support and helps in the transport of nutrients and water. This netted vein structure is typical of broadleaf plants, distinguishing them from those with parallel venation, like grasses.
corn leaves have parallel veins
Reticulate venation: The veins are in the form of a network. Leaves of dicotyledonous plants have reticulate venation.
It has netted leaves
1.The monocot leaves are identical on both sides (isobilateral) where as dicot leaves are dorsiventral (i. e. having palisade cells on the upper side and spongy parenchyma on the lower side). 2. Monocot leaves generally have parallel venation and dicot leaves have reticulate venation.
Elm has pinnate veins.
The venation of an apricot leaf is generally reticulate or pinnate, with veins branching out from a central midrib. Apricot leaves typically have a network of veins that supply nutrients and water to the leaf cells.
tap root system.