Examples of basal angiosperm in the following topics:
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- Angiosperms are classified in a single phylum: the Anthophyta.
- Modern angiosperms appear to be a monophyletic group, which means that they originated from a single ancestor.
- Basal angiosperms are a group of plants that are believed to have branched off before the separation into monocots and eudicots because they exhibit traits from both groups.
- The Magnoliidae (magnolia trees, laurels, and water lilies) and the Piperaceae (peppers) belong to the basal angiosperm group .
- Examples of basal angiosperms include the Magnoliidae, Laurales, Nymphaeales, and the Piperales.
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- Earlier traces of angiosperms are scarce.
- A few early Cretaceous rocks show clear imprints of leaves resembling angiosperm leaves.
- Paleobotanists debate whether angiosperms evolved from small woody bushes, or were basal angiosperms related to tropical grasses.
- A few other angiosperm groups, known as basal angiosperms, are viewed as primitive because they branched off early from the phylogenetic tree.
- Basal angiosperms, such as water lilies, are considered more primitive because they share morphological traits with both monocots and eudicots.
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- Angiosperms undergo two fertilization events where a zygote and endosperm are both formed.
- Together, these two fertilization events in angiosperms are known as double fertilization .
- The zygote divides to form two cells: the upper cell (terminal cell) and the lower cell (basal cell).
- After fertilization, the zygote divides to form an upper terminal cell and a lower basal cell.
- The basal cell also divides, giving rise to the suspensor.
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- One of the most intensively studied functions of the basal ganglia (BG) is its role in controlling precise eye movements.
- The basal ganglia (or basal nuclei, ) are a group of nuclei of varied origin in the brains of vertebrates that act as a cohesive functional unit.
- Two schematic drawings of coronal sections of human brain labelling the basal ganglia.
- The basal nuclei are often referred to as the basal ganglia.
- The main components of the basal nuclei are labeled in purple.
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- The adult, or sporophyte, phase is the main phase of an angiosperm's life cycle .
- As with gymnosperms, angiosperms are heterosporous.
- The life cycle of an angiosperm is shown.
- Double fertilization is a process unique to angiosperms.
- After fertilization and some growth in the angiosperm, the ripened ovule is produced.
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- Basal ganglia disease refers to physical dysfunctions that occur when basal ganglia fail to suppress unwanted movements.
- An example of a hypokinetic basal ganglia disease is Parkinsonism.
- An example of a hyperkinetic basal ganglia disease is Huntington's Disease.
- The basal ganglia is a collective group of structures in the brain .
- This is a diagram of the main circuits of the basal ganglia.
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- The basal ganglia (or basal nuclei) are a group of nuclei of varied origin in the brains of vertebrates that act as a cohesive functional unit.
- Currently popular theories hold that the basal ganglia play a primary role in action selection.
- One of the most intensively studied functions of the basal ganglia is their role in controlling eye movements.
- This diagram shows the main circuits of the basal ganglia.
- Two coronal slices have been superimposed to include the involved basal ganglia structures.
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- As with angiosperms, the life cycle of gymnosperms is also characterized by alternation of generations.
- Gymnosperm reproduction differs from that of angiosperms in several ways.
- Double fertilization is a key event in the life cycle of angiosperms, but is completely absent in gymnosperms.
- The male and female gametophyte structures are present on separate male and female cones in gymnosperms, whereas in angiosperms, they are a part of the flower.
- Although many angiosperms are also wind-pollinated, animal pollination is more common.