Thursday, March 15, 2012

Scribe Post 3/13/12

Today in class we:
- Watered and Measured the plants
- Took a Ch.16 Quiz
- Finished Ch.28 Notes

Homework:
- Complete Ch.28 Study Guide due 3/19
- UP pg.41-54 due 3/19
- UP pg.19-34 read and prep lab for tom.
- Wildland project
- Ch.28 Quiz Tuesday 3/20
- BRING TEXTBOOK TOMORROW!

Plant Reproduction


This diagram shows the reproductive process of the male gametophyte (pollen) and the female gametophyte (embryo inside an ovule).

Process of Double Fertilization



The 2 diagrams above show the 4 steps to Double fertilization:
1. Pollination
- A pollen grain sticks to the stigma and germinates then,
- it travels down the pollen tube and stops midway to:
2. Form into 2 sperms
3. Travels rest of the way through the pollen tube to the ovule
4. Double fertilization occurs
- the first sperm fertilizes the egg, forming a normal 2n zygote.
- the second sperm fertilizes two polar bodies to form 3n or the tripod central wall, which later becomes the endosperm that nourishes the embryo.

Seed Formation

-Cotyledons are organs that absorb nutrients from endosperm for the developing embryo
-Embryos develop a tough protective seed coat when mature
-The seed stays dormant until environmental conditions are favorable

Fruit Formation

Fruit= mature ovary

Seed Germination


-The seed coat ruptures as it expands with water
- The embryos' roots emerge first then its' shoots which from a hook to protect it
- The plants' leaves starts to expand and photosynthesize
- Only a small number of seedlings are able to reproduce

Plant Growth
-
Some plants have indeterminate growth with means that plants can continue to grow as long as they live
- They have a finite life span
- Annuals mature and reproduce and die all in 1 season Ex.) wheat, corn, rice, impatients
- Biennials grow in the 1st year and reproduce during the second year Ex.) carrots
- Perennials live and reproduce for many years Ex.) trees, shrubs, some grasses
Primary Growth= lengthening
Meristem- are cells that divide to create new cells and tissues
Secondary Growth= thickening
wood= dead tissue
Vascular cambium- generates secondary xylem and phloem. Secondary xylem produced each year gives the thickness of perennial plants and wood= annual growth of rings
Cork cambium protects the stem when the plants' mature, then it dies.
Everything outside the vascular cambium: secondary phloem, cork cambium, cork = bark

Pollinators and flowers have a mutual symbiotic relationship
Flower benefit through seed dispersal and pollination
Pollinators benefit through nectar and pollen for food
Color and fragrance attract the pollinators
Birds see red/pink
Bees use smell

Sincerely,
Nazia

NEXT SCRIBE POST: ***Michael***

Tuesday, March 13, 2012

Scribe Post 3/13/12

Today in class we:
- Watered and Measured the plants

- Took a Ch.16 Quiz
- Finished Ch.28 Notes

Homework:

- Complete Ch.28 Study Guide due 3/19
- UP pg.41-54 due 3/19
- UP pg.19-34 read and prep lab for tom.

- Wildland project
- Ch.28 Quiz Tuesday 3/20
- BRING TEXTBOOK TOMORROW!


Plant Reproduction

This diagram shows the reproductive process of the male gametophyte (pollen) and the female gametophyte (embryo inside an ovule).

Process of Double Fertilization


There are 4 steps to Double fertilization:
1. Pollination
- A pollen grain sticks to the stigma and germinates then,
- it travels down the pollen tube and stops midway to:
2. Form into 2 sperms
3. Travels rest of the way through the pollen tube to the ovule
4. Double fertilization occurs
- the first sperm fertilizes the egg, forming a normal 2n zygote.
- the second sperm fertilizes two polar bodies to form 3n or the tripod central wall, which later becomes the endosperm that nourishes the embryo.

Seed Formation
-Cotyledons are organs that absorb nutrients from endosperm for the developing embryo
-Embryos develop a tough protective seed coat when mature
-The seed stays dormant until environmental conditions are favorable


Fruit Formation

Fruit= mature ovary

Seed Germination


-The seed coat ruptures as it expands with water
- The embryos' roots emerge first then its' shoots which from a hook to protect it
- The plants' leaves starts to expand and photosynthesize
- Only a small number of seedlings are able to reproduce

Plant Growth
-
Some plants have indeterminate growth with means that plants can continue to grow as long as they live
- They have a finite life span
- Annuals mature and reproduce and die all in 1 season Ex.) wheat, corn, rice, impatients
- Biennials grow in the 1st year and reproduce during the second year Ex.) carrots
- Perennials live and reproduce for many years Ex.) trees, shrubs, some grasses
Primary Growth= lengthening
Meristem- are cells that divide to create new cells and tissues
Secondary Growth= thickening
wood= dead tissue
Vascular cambium- generates secondary xylem and phloem. Secondary xylem produced each year gives the thickness of perennial plants and wood= annual growth of rings
Cork cambium protects the stem when the plants' mature, then it dies.
Everything outside the vascular cambium: secondary phloem, cork cambium, cork = bark

Pollinators and flowers have a mutual symbiotic relationship
Flower benefit through seed dispersal and pollination
Pollinators benefit through nectar and pollen for food
Color and fragrance attract the pollinators
Birds see red/pink
Bees use smell

Sincerely,
Nazia

NEXT SCRIBE POST: ***Michael***




Monday, March 12, 2012





Scribe Post 3-12-12

Today in Class We:
~Watered and Measured Fast Plants
~Notes (Ch. 28: Flowering Plants)

Know Monocots vs. Dicots for Lab!!


*Memorize these characteristics below*


Roots: Root hairs-increase
surface area of root for
absorption.
Large taproots - store food
such as starch for plant (Ex:
carrots, turnips, sugar beets,
sweet potatoes................................Monocot Root --->

<--- Dicot Root









.................................................................................................................................
Stems - Terminal bud is at apex of stem
when plant stem is growing in length.
Axillary buds, in angle formed by a leaf
(and stem) are dormant.
Terminal bud produces hormones
inhibiting growth of axillary buds = apical
dominance, so plant can grow up to sun.
Axillary buds begin growing and develop
into branches under certain conditions.
Types of Stems
Runner in a strawberry plant = horizontal
stem - new plants emerge from tip of
runner = asexual reproduction
Rhizome of an iris plant =horizontal
underground stems = store food, & can
bud new plants
Tubers are rhizomes ending in enlarged
structures (potatoes). Eyes of potato are
axillary buds, can grow when planted.
Leaves - flat blades (for light collection) and
petioles (joins leaf to stem.) Celery is a big
petiole.
Tendrils = modified leaves for climbing
and support .
Spines of a cactus = modified leaf parts
protecting plant. Cactus stem is
photosynthetic.

2 Plant Vascular Tissues:
1. Xylem - contains water conducting cells -
move water & minerals up stem
2. Phloem -contains food conducting cells -
transport sugars from leaves or storage tissue
to other parts of plant
3 Tissue Systems continuous throughout
plant:
1. Dermal-covers, protects, waxy coating
(epidermis)
2. Vascular- xylem and phloem; support,
transport
3. Ground - bulk of young plant, fills spaces
between epidermis and vascular.
Photosynthesis, storage, support.
Types of ground tissue:
Cortex - in root,cells store food, take up
water & minerals.
Endodermis - selective barrier in cortexdetermines which substances pass between
cortex and vascular tissue.
Pith - fills center of stem in dicots, food
storage.

***NEXT SCRIBE**: NAZIA


Sunday, March 11, 2012

Scribe Post 3/9/12

Today in class we:

-Measured/watered Fast Plants
- Researched in IMC for Wildlands project

HW: 1. Read CH 28 by Monday
2. bring TEXTBOOK to class ALL next week!
3. wildland project
4. STUDY


Chapter 16 Overview:

*The required pages for Chapter 16 are pages 320-334 & 340-341

Why should we study plants?
Provide us with Oxygen, food, clothing, paper, supplies, energy, and sustain life.

Plant Kingdom is: -Multicellular
-Eukaryotic
-Autotrophic (by photosynthesis)

Land Adaptations: 

1. Mycorrhizae: root-fungus combinations-fungi absorb water and minerals from soil, plant sugar nourishes fungi

2. Stomata: Microscopic pores through leafs surface exchange CO2 and O2

3. Cuticle: Waxy layer coating leaves and other aerial parts to help retain water

4. Lignin: Chemical which hardens cell walls

5. Roots and Shoots

6. Xylem tissue: (transports water up) and Phloem tissue (transports food around)

7. Protected Embryo: gametangia -a jacket of protective cells surrounding a moist chamber where gametes can develop without drying out

8. Seed Dispersal: Rely on wind or animals

Origin of Plants from Green Algae
Charophyceans: group of multicellular green algae; closest to plants (in evolution)

Four Major Periods of Plant Evolution:
1. Bryophytes (mosses)
2. Ferns
3. Gymnosperms (conifers)
4. Angiosperms (flowering)





1. Bryophytes- Mosses (many plants growing in a tight pack)

Key Characteristics:

  • No cuticle
  • Need water to reproduce 
  • Flagellated sperm
  • No vascular tissue
  • Like damp/shady places
Green Spongy plant = Gametophyte (male & female are separate plant shoots)(n)
Taller brown shoot with a capsule; grows out of gametophyte = Sporophyte (2n)
Alternation of Generations:





  • 2 Generations that "take turns" producing each other
  • Gametophytes produce eggs and sperm; unite to form zygote which then forms new sporophytes
  • Sporophytes produce spores
  • Spores develop new organism without uniting
  • New organism produces gametophytes again
  • Process repeats
  • ***Gametophyte = Larger more obvious plant in mosses
2. Ferns

Key Characteristics: 
  • most in tropics/temperate woodlands
  • vascular tissue present (Xylem and Phloem)
  • Sperm flagellated
  • ***seedless (have spores)
Alternation of Generations:

  • Sporophytes are diploid and gametophytes are haploid

  • ***Sporophyte is the dominant stage in ferns (Gametophyte for mosses)
  • Heart Shaped gametophyte = prothallus
3. Gymnosperms:


Key Characteristics: 
  • Cone Bearing
  • Life cycle on dry land
  • oldest organisms on earth
  • retain leaves throughout year
  • thick cuticle
  • source of wood and paper
Reproduction: 
  • Pollen contains cells that develop into sperm
  • Wind carries pollen to female cones
  • Eggs develop in female cones
  • ***Evolution of a seed- a plant embryo packaged along with a food supply without a protective coat
  • Bear seeds naked on cone scales
  • Seeds germinate under favorable conditions
  • 2 types of cones
  • Female cone is most familiar (hard, woody, scaly)
  • Male cone is smaller; lower on the tree; release pollen
4. Angiosperms:



Key Characteristics:
  • Dominate most regions
  • 250,000 Species
  • Vascular tissue
  • ***Evolution of a flower = Responsible for unparalleled success
  • Flowers display male + female parts
  • insects/animals transfer pollen
  • Flower: Short stem with modified leaves: sepals, petals, stamens, carpels
Parts Of A Flower + Function:


Sepals: green, enclose flower before it opens
Petals: Attract insects 
Stamen: Filament (stalk) bearing a sac called anther (male organ in which pollen develops)
Carpel: Sticky tip traps pollen (stigma), 
Ovary: Eggs develop here

Angiosperm Life Cycle:
  • Pollen lands on stigma, tube goes down to ovule
  • Deposits 2 sperm nuclei within female gametophyte = double fertilization
  • One sperm cell fertilizes egg making zygote, developing into embryo
  • Second sperm cell fertilizes another female gametophyte cell which develops into a nutrient-storing tissue called endosperm


Hope this helps summarize chapter 16 and the notes we did in class.

See you in class,
Mark
Next Scribe:
 Charlie