Dicots: Difference between revisions
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Dicots have one main “taproot” off of which smaller roots branch off. This structure allows the root to grow down further rather than expending energy spreading outwards. | Dicots have one main “taproot” off of which smaller roots branch off. This structure allows the root to grow down further rather than expending energy spreading outwards. | ||
http://soil.geology.buffalo.edu/images/5/5c/Dicots.png | |||
'''Pollen Structure''' | '''Pollen Structure''' | ||
Monocots retain the first angiosperm’s pollen structure which contained a single pore through it’s outer layer, known as monosulcate. Dicots descended from a plant which contained three pores in it’s pollen, known as triporate. | Monocots retain the first angiosperm’s pollen structure which contained a single pore through it’s outer layer, known as monosulcate. Dicots descended from a plant which contained three pores in it’s pollen, known as triporate. | ||
Revision as of 23:40, 7 March 2018
Definition
A dicotyledon (commonly referred to as a dicot) is an angiospermous plant with two cotyledons and having an exogenous manner of growth. Cotyledons are the “seed leaves” that absorb nutrients within the seed until the plant can produce true leaves and begin photosynthesis. The term dicotyledon refers to the group containing seeds with two cotyledons, rather than one. Monocotyledons are the remaining group that contains seeds with only one cotyledon
History
Angiosperms have traditionally been divided into two major classes, the Magnoliopsida (Dicots), and the Liliopsda (Monocots). Botanists have not always recognized these as the two fundamental groups of angiosperms. Theophrastus was first credited with recognizing the difference between the two groups around 370 BC, but classification of the plants based on overall growth form was not established until the 1600s.
Differentiation from Monocots
While the primary difference between these two groups lies in their seed structure, there are several additional differences that designate a flowering plant as either mono or dicot.
Roots The roots of monocots branch off in many different directions resembling a fibrous web. Monocot roots remain primarily in the upper level of soil and do not dig as deep down as do dicot roots. Dicots have one main “taproot” off of which smaller roots branch off. This structure allows the root to grow down further rather than expending energy spreading outwards.
Pollen Structure Monocots retain the first angiosperm’s pollen structure which contained a single pore through it’s outer layer, known as monosulcate. Dicots descended from a plant which contained three pores in it’s pollen, known as triporate.
Stems The vascular bundles in monocots are arranged sporadically throughout the stem in no particular pattern. Dicots all contain vascular bundles that are arranged in a ring around the outer edge of the vascular tissue. Vascular tissue can be thought of as the circulatory system of a plant, and therefore the distinction in bundles is important to note.
Leaves In monocot plants, leaves are characterized by parallel veins and typically thin leaves. The leaf structure of dicots is branched or webbed veins throughout the leaf structure
Flowers