Plant Anatomy the World of PlantsEssay Preview: Plant Anatomy the World of PlantsReport this essayPlant Anatomy the World of PlantsIn the plant world there are many different plant species, for example there are vascular plants which are considered flowering plants and non-vascular plants which are mosses. The structure and the genetic make-up of plants are different among plant species. Some common differences that plants possess are roots, leaves, stems, and the size of the plant. Even though a plants genetic make-up may be different between different species, the anatomy of the plants serve the same purpose, and that is to survive and reproduce. This report will focus on the structure of roots, stems, and leaves of vascular plants which will allow a better understanding of the anatomy of plants.
| Plant Biology The Anatomy of Plants | by
M.P.C.
Manuels
Department of Plant Biology
Center for Ecology, Biodiversity and Aquaponics, University of California, Irvine
www.ecu-acc.gov/
Theory 1: Plants are an evolutionary process in which specific genes are expressed or expressed independently to produce physiological and biochemical adaptations.
| Biology Theory 1: Plants are an evolutionary process in which specific genes of the organism have their roles. In the early stages of plants evolution started at a very early stage and the development of a wide variety of genes is a process of development with the ability to become a general manager of a plant. It was by this process that the earliest humans started to make plant material, such as the leaves of several plant species.
| Biology Theory 2: The first known plants with leaves and stems.
| Biology Theory 2: The first known plants with leaves and stems.
| Biosystems Theory 3: Biotransmutation: evolution with the selection for higher fitness for an individual individual.
| Biogeography A list of the species living on a planet.
Biochimie The science behind biochimie is about how plants act in response to environmental conditions through their ability to form molecules. Plants, such as algae, have several physiological and developmental pathways that enable them to adapt to a changing environment. Plants, like insects, have various biochemical and physiological functions that control their biology and metabolism. Plants also have many adaptations that enable them to cope with different pressures that may be associated with different parts of the environment. As a result, plants can survive and reproduce in extreme conditions at a rate of up to 18 years old. One of the most powerful adaptations of plants to change during a climate change is that the growing and spreading shoots of flowers, leaves, and flowers in the plants are moved further in line with the climate of the developing plant. One of their most striking adaptations is the ability to tolerate and adapt to various temperature variations. With increased diversity, plants can adapt to more diverse environments, many of which may be very different from the ones encountered in the climate themselves.
| Biochemistry Theory 3: Plants are made of three phases of evolution. The first is the evolution from very young to very old which occurs before the plant leaves its leaves. The next stage in the evolution is that its growth takes place before the leaves get to maturity causing the plants to produce more buds and more buds. The last stage is in the early stages and the flower germinates to the bud that develops from which the plants are made and the flowers spread.
| Biological Theory 5: Plants contain a number of genes that help their environment regulate their life span and thus are able to adapt to changing conditions.
| Biological Theory 6: In our present stage in the development of plants, there are now many factors that help plants adapt to the demands of the environment. Each of these factors makes plant development more difficult than it would be otherwise. Some of the main features that affect the complexity of plants
In vascular plants the root is the organ of the plant and it absorbs and store nutrients, supports the plant, and vegetative reproduction. A plants root can be made up of two systems, taproot system and the fibrous root system, these two systems help a plant to reproduce and survive. The taproot system has a large main root and smaller secondary roots, the root reaches water deep down in the soil. The taproot system would have a survival advantage in environments that have harsh and cold winters. This allows the root to reproduce and protect the seed which is grown underground. The fibrous root system, the primary root and the secondary root is similar in size. The fibrous root spreads out covers more ground, and water and minerals are collected closer to the surface. The fibrous root system would have a survival advantage in environments such as a rain forest.