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BOTANY : COURSE MINDMAP, Transport Processes # (Long distance transport…
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Diffusion 
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Osmosis
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Active Transport
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Cell and Water Movement #
water moves from regions where it is relatively concentrated to regions where it is less concentrated
A cell's water potential can be made more negative depolymerizing polymers to monomers pumping solutes such as potassium ions & sucrose
at the incipient plasmolysis, the chloroplasts has lost just enough water that is no longer present against the wall & water pressure equals zero
Water Potential
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matric potential
water adhesion to non solved structures such as cell walls, membranes & soil
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Short distance intercellular transport
apoplast- most small molecules can move easily through bot the wall and the intercellular space; two together
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Long distance transport Phloem
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in some species, phloem is loaded with polymer trap mechanism
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specific mass transfer
to make comparison easy, mass cell can be divide by cross sectional area of phloem
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long distance transport Xylem
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Energy Metabolism: Photosynthesis : #
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Light Independent Reaction #
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Flowers & Reproduction # #
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Flower Structure
complete flower
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incomplete flower
Embryo & Seed Development #
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Nonvascular Plants: Mosses, Liverworts & Hornworts
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Division of Bryophyta: Mosses
Gametophyte Generation
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Development
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protonemata are perennial & can grow extensively, producing many buds
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Sporophyte Generation
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Metabolism & Ecology
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have stems, leaves & rhizoids
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Division of Anthocerotophyta: Hornworts
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Community Ecology
Concepts
population biology focus of member of a single species, their growth, interbreeding, survival & so on
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Predator- Prey Interaction #
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Competition Between Species
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if they actually, consume or reduce the resources, it is expoitation competition
if one merely interferes with access to resource by other species, it is interference competition
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Diversity & Latitude
higher the latitude, severe the conditions
near equator, temperatures are always warm; freezing are only on the highest mountain
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in Antarctica, two species of angiosperms survive
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ROOTS
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structure of Individual roots
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root apical meristem is located at the apex of root proper, buried under the root cap
mucigel- a complex polysaccharide secrete by dicotysomes roots that helps to moves the roots in the soil
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Internal Structure of Roots #
Root Apical Meristem
grow in a solution of tritiated thymidine , a radioactive precursor of DNA
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Structure of Woody Plant
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Secondary Xylem
growth ring
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reaction wood
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wood formed due to the response of gravity so, the cambium cells are oriented vertical
heartwood
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it is a dead, inner wood, which often comprises the majority of a stem's cross-section.
sapwood
it is the living, outermost portion of a woody stem or branch
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brings water and nutrients up from the roots through tubes inside of the trunk to the leaves and other parts of the tree
outer bark
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cork and cambium
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pith- soft & spongy tissue
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Leaves # #
Advantages of leaves
They provide protection, support and storage of water and nitrogen. Also help in photosynthesis.
External structure of Foliage leaves
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Initiation and Development of leaf
as leaf primordium grows upward, it increases in thickness , forming a bulk of midrib & 2 small wings
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at the base of meristem, a cell grow outward forming a protrusion called leaf primordium
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Internal Structure of Foliage Leaves
Mesophyll II
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lower portion of leaves is spongy and aerenchyma permits CO2 to diffuse rapidly into interior part of leaf
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Vascular tissue #
edict leaf usually have one large midrib called mid vein from which lateral veins emerge into narrow vein
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Epidermis
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leaf epidermis are of hairy& trichomes. they help to deflect excessive sunlight & provide shade to the leaf
Petiole
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stipules- two small flaps at base the petiole tissue which protect the shoot apical meristem and contribute in photosynthesis
part of leaf, transition between the stem and lamina
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Replication of DNA
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during DNA replication, the double stranded DNA helix separate
helicase- an enzyme that helps in unwinding of DNA strands at the begining and the synthesis of new strand
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After replication, each cell have double stranded DNA
Dihybrid Cross
cross between two different genes that differs in two traits. the individuals in this type of cross are homozygous for a specific trait.
Self-pollination in the F1 generation plants results in offspring (F2 generation) that exhibit a 9:3:3:1 phenotypic ratio in variations of seed color and seed shape
Independent Assortment- This law states that alleles are transmitted to offspring independently of one another. Alleles separate during meiosis, leaving each gamete with one allele for a single trait. These alleles are randomly united upon fertilization.
Monohybrid Cross
genetic mix between two individuals having homozygous genotypes or genotypes which have completely dominant or or completely recessive alleles that result in opposite phenotypes for a certain genetic traits
Mendel's rule of segregation- an organism inherits gene factors from their parents, one from each. These factors are transmitted from generation to generation as a discrete, unchanging unit. when gametes are formed, the factors separate and are distributed as units to each gamete.
Basic information
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Homozygous
a genotype carrying two dominant or two recessive alleles. One allele is inherited from the father, and the other, from the mother.
Phenotypes
physical appearance of a specific genetic trait that signals the inheritance of certain genetic codes.
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Multiple Alleles
With multiple alleles for a single character, numerous types of crosses become possible
Mutation # #
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causes
some factors like chemicals, ultraviolet lights, x-rays, radiation from radioactive substances
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nsertion mutation- caused by cutting of DNA by a enzyme and
rejoining with a foreign DNA as repair process
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Seed Plant: II Angiosperms #
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Commeliniod Monocots
Poales
they include most food
wheat, barely, oats, rye, corn, rice
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Zingiberales
contains Maranta, Calathea, cana lilies, ginger
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Dioscoreales
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Synapomorphies include tuberous roots, glandular hairs, seed coat characteristics
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Asterid Clade
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contains plants like sunflower, periwinkle, petunia, & morning glory
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Basal Eudicots
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Caryophalles
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contains group of cacti, ice plant, four o' clock
Vascular Plants Without Seeds # # #
Early Vascular Plants
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Zosterophyllophytes
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sporangia were lateral, not terminal
sporangia were naked, branched dichotomously
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Population Genetics And Evolution #
Population Genetics
- factors that cause the gene pool to change
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- situation in which natural selection does not operate
- deals with the abundance of different alleles
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- multiple selection pressure
Rates of Evolution
- most population are relatively well adapted to their habitat, or they would not exist
- at the extremes, many seedless plants like lycopods, fern have perished for 10 millions of years without diverting into new species
- very rapid speciation has occur in a group of asters in Hawaii
- any new mutation results in a more adaptive structure only if the effects of new allele fits in
- evolutionary changes result in the loss of structure due to the disadvantageous character/structure
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Speciation
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Pollen Transfer
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wind, animal, birds contribute to distribute pollen
Seed Dispersal
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seeds are carried by wind, flood, stream feather of migratory birds
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Vegetative Propagation
if a species produces small, mobile pieces that reproduces vegetatively
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Convergent Evolution
if two distinct, unrelated species occupy the same or similar natural selection may favor the same phenotypes in each. as a result, two may evolve to the point that they resemble each other strongly and are said to be undergone convergent evolution
Population and Ecosystem #
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Tissue and Primary Growth of Stems #
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