Plants are multicellular eukaryotes that have cell walls made of cellulose and carry out photosynthesis. They go through life cycles of alternating diploid and haploid generations. Early plants evolved from multicellular green algae and the first plants were similar to modern mosses. Bryophytes like mosses reproduce using sperm and eggs that require water, while vascular plants like ferns have specialized tissues to transport water and nutrients throughout the plant.
A group of cells which are similar in Origin and function but of more than One type in structure.
Water conducting tissue
Along with phloem make vascular tissue
Provide support to plants
1)Tracheary elements
These are nonliving cells, provide support and conduct water. Two types,
(a)Tracheids: elongate, tube like cell, tapering, rounded or oval ends, hard lignified walls.
(b)Vessels members: long, cylindrical, tube-like structures with lignified walls.
(2)Fibres: thick walls, evolve from tracheids and provide mechanical strength. Two types,
(a)Fibre-tracheids: medium thickness walls, have reduced boardered pits.
(b)Libriform fibres: very thick walls, have reduced simple pits.
Parenchyma cells: living cells, in woody plants, store of food in starch form. Two types:
(a)Axial parenchyma: derived from fusiform initials, have tracheary elements and fibres.
(b)Ray parenchyma: derived from ray initials of cambium, xylem ray cells.
Developmentally, xylem have two types
(1)Primary xylem: derived from procambium, developing from embryo, non-woody plants.
(2)Secondary xylem: from vascular cambium, second stage of plant development, in woody plants.
A Powerpoint intended for the South African Grade 11 Life Sciences syllabus. Contains information on plant classification, diversity, reproduction, the plant 'life cycle' and more.
A group of cells which are similar in Origin and function but of more than One type in structure.
Water conducting tissue
Along with phloem make vascular tissue
Provide support to plants
1)Tracheary elements
These are nonliving cells, provide support and conduct water. Two types,
(a)Tracheids: elongate, tube like cell, tapering, rounded or oval ends, hard lignified walls.
(b)Vessels members: long, cylindrical, tube-like structures with lignified walls.
(2)Fibres: thick walls, evolve from tracheids and provide mechanical strength. Two types,
(a)Fibre-tracheids: medium thickness walls, have reduced boardered pits.
(b)Libriform fibres: very thick walls, have reduced simple pits.
Parenchyma cells: living cells, in woody plants, store of food in starch form. Two types:
(a)Axial parenchyma: derived from fusiform initials, have tracheary elements and fibres.
(b)Ray parenchyma: derived from ray initials of cambium, xylem ray cells.
Developmentally, xylem have two types
(1)Primary xylem: derived from procambium, developing from embryo, non-woody plants.
(2)Secondary xylem: from vascular cambium, second stage of plant development, in woody plants.
A Powerpoint intended for the South African Grade 11 Life Sciences syllabus. Contains information on plant classification, diversity, reproduction, the plant 'life cycle' and more.
Plant Diversity lecture covering Mosses, Ferns, Gymnosperms and Angiosperms, based on Chapters 29 and 30 from Campbell & Reece "Biology" 8th edition (International). For ACS Biology 10, Sofia Bulgaria. March 2010
What is Linux?
Command-line Interface, Shell & BASH
Popular commands
File Permissions and Owners
Installing programs
Piping and Scripting
Variables
Common applications in bioinformatics
Conclusion
The Superuser: Root
Disks and Partitions
Making New Partitions
Mounting Filesystems
Mounting a Filesystem: mount
Mounting Other Filesystems
Unmounting a Filesystem: umount
Sample /etc/fstab
Filesystem Types
Only green plants possess the amazing ability of trapping solar energy to produce food.
Photosynthesis is the process in which green plants absorb solar energy to make food from carbon dioxide and water.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
Safalta Digital marketing institute in Noida, provide complete applications that encompass a huge range of virtual advertising and marketing additives, which includes search engine optimization, virtual communication advertising, pay-per-click on marketing, content material advertising, internet analytics, and greater. These university courses are designed for students who possess a comprehensive understanding of virtual marketing strategies and attributes.Safalta Digital Marketing Institute in Noida is a first choice for young individuals or students who are looking to start their careers in the field of digital advertising. The institute gives specialized courses designed and certification.
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Introduction to AI for Nonprofits with Tapp NetworkTechSoup
Dive into the world of AI! Experts Jon Hill and Tareq Monaur will guide you through AI's role in enhancing nonprofit websites and basic marketing strategies, making it easy to understand and apply.
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
3. What Is a Plant?
–Plants are multicellular
eukaryotes that have cell walls
made of cellulose.
–Plants develop from multicellular
embryos and carry out
photosynthesis using the green
pigments chlorophyll a and b.
4. What Is a Plant?
• Plants include trees, shrubs, and
grasses, as well as other organisms,
such as mosses and ferns.
• Most plants are autotrophs, although
a few are parasites or saprobes that
live on decaying materials.
5. The Plant Life Cycle
•Plant life cycles have two
alternating phases, a diploid
(2N) phase and a haploid (N)
phase, known as alternation of
generations.
7. The Plant Life Cycle
• During the two phases of the life cycle, mitosis
and meiosis alternate to produce the two types of
reproductive cells—gametes and spores.
• The diploid (2N) phase is called the
sporophyte, or spore-producing plant.
• The haploid (N) phase is called the
gametophyte, or gamete-producing
plant.
8. The Plant Life Cycle
• Plant spores are haploid (N)
reproductive cells formed in the
sporophyte by meiosis.
• The spores can grow into new organisms
called gametophytes.
• A gamete is a reproductive cell
produced by mitosis, and it can fuse with
another gamete to produce the sporophyte.
9. What Plants Need to Survive
–In order to survive, plants need:
•sunlight
•water and minerals
•gas exchange
•transport of water and nutrients
throughout the plant body
10. – Sunlight
• Plants use energy from sunlight to
carry out photosynthesis.
• Photosynthetic organs such as
leaves are broad and flat to
maximize light absorption.
What Plants Need to Survive
11. –Water and Minerals
• All cells require a constant supply of
water.
• Water is used up quickly when the
sun is shining. As a result, plants
have structures that limit water loss.
What Plants Need to Survive
12. • As they absorb water, plants also
absorb minerals.
• Minerals are nutrients in the soil
needed for plant growth.
What Plants Need to Survive
13. –Gas Exchange
• Plants require oxygen to support
cellular respiration as well as carbon
dioxide to carry out photosynthesis.
• They must exchange these gases with
the atmosphere without losing
excessive amounts of water through
evaporation.
What Plants Need to Survive
14. –Movement of Water and Nutrients
• Plants take up water and minerals through their
roots, but they make food in their leaves.
• Most plants have specialized tissues that carry
water and nutrients from the soil and distribute
products of photosynthesis throughout the
plant body.
• Simpler plants carry out these functions by
diffusion.
What Plants Need to Survive
15. Early Plants
• Early Plants
• When plants first appeared, life on Earth
changed.
• As plants colonized the land, they
changed the environment so other
organisms could develop.
• New ecosystems arose, and organic
matter began to form soil.
16. Early Plants
• The first plants evolved from an
organism similar to the multicellular
green algae living today.
17. Early Plants
• Multicellular green algae have the size,
color, and appearance of plants.
• They have reproductive cycles similar to
those of plants.
• Green algae also have cell walls and
photosynthetic pigments that are
identical to those of plants.
18. Early Plants
–The First Plants
•DNA sequences confirm that
plants are closely related to
certain groups of green algae,
suggesting that the ancestors of the
first plants were indeed algae.
19. Early Plants
• The oldest known plant fossils, about 450
million years old, are similar to today’s
mosses.
• They had a simple
structure and grew
close to the ground.
20. Early Plants
• Fossils suggest that the first plants needed
water to complete their life cycles.
• The demands of life on land favored the
evolution of plants that were:
• more resistant to the drying rays of the
sun.
• more capable of conserving water.
• more capable of reproducing without water.
21. Early Plants
From these plants, several major groups of
plants evolved.
• One group developed into the mosses and
their relatives.
• Another group gave rise to all other
plants.
All plants have evolved different adaptations
for a variety of terrestrial environments.
22. Overview of the Plant Kingdom
Overview of the Plant Kingdom
• Plants are divided into four groups based on
these features:
–water-conducting tissues
–seeds
–flowers
Plants are also classified by other features,
including reproductive structures and body
plan.
23. in the Plant Kingdom
Evolutionary Relationships
Flowering plants
Cone-bearing plants
Ferns and
their relatives
Mosses and
their relatives
Flowers; Seeds
enclosed in fruit
Water-conducting (vascular)
tissue
Seeds
Green algae
ancestor
24. Overview of the Plant Kingdom
• Today, scientists can classify plants
more precisely by comparing the
DNA sequences of various species.
26. • Mosses and their relatives are
called bryophytes, or
nonvascular plants.
• They do not have vascular
tissues, or specialized tissues
that conduct water and
nutrients.
Bryophytes
27. Bryophytes have life cycles that
depend on water for reproduction.
Bryophytes draw up water by
osmosis only a few centimeters
above the ground.
28. • During one stage of their life cycle,
bryophytes produce sperm that
swim through water to reach eggs of
other individuals.
• Therefore, bryophytes must live
where there is rainfall or dew for
part of the year.
Bryophytes
29. • Bryophytes are low-growing
plants found in moist, shaded
areas.
30. The three groups of bryophytes
are:
•mosses
•liverworts
•hornworts
31.
32.
33.
34. The most common bryophytes are
mosses.
Mosses:
–are adapted to life in wet habitats and
nutrient-poor soils.
–can tolerate low temperatures.
–are clumps of gametophytes growing
together.
35. • The
Structure
of a Moss
Stalk
Capsule
Sporophyte
Gametophyte
Stemlike
structure
Leaflike
structure
Rhizoid
36. • Each moss plant has a shoot that
looks like a stem with leaves. These
are not true stems or leaves,
because they do not contain
vascular tissue.
37. Groups of Bryophytes
• When mosses reproduce, they produce
thin stalks, each containing a capsule.
• This is the sporophyte stage.
38. • The “leaves” of mosses are one cell
thick, so they lose water quickly if the
surrounding air is dry.
39. Life Cycle of Bryophytes
–Bryophytes reproduce and develop by
alternation of generations.
–For bryophytes, the gametophyte
is the dominant stage of the life
cycle and is the stage that carries out
most of the plant's photosynthesis.
40. Life Cycle of Bryophytes
–Life Cycle of a Moss
• The life cycle of a moss illustrates how
bryophytes reproduce and develop.
43. • 420 million years ago, mosslike plants
on land were joined by taller plants.
• Evidence shows that these plants had
vascular tissue, which is specialized
to conduct water and nutrients
throughout the plant.
Evolution of Vascular Tissue
44. Evolution of Vascular Tissue
• The first vascular plants contained
tracheids which are cells specialized
to conduct water.
•Tracheids make up xylem, a
transport subsystem that
carries water from the roots to
every part of a plant.
45. • Tracheids are hollow with thick cell
walls that resist pressure.
• They connect end to end to allow water
to move efficiently.
46. Evolution of Vascular Tissue
• Vascular plants have a second
transport subsystem composed of
vascular tissue called phloem.
• Phloem transports solutions
of nutrients and
carbohydrates produced by
photosynthesis.
47. Evolution of Vascular Tissue
–Both xylem and phloem can move
fluids through the plant body,
even against the force of gravity.
48. Evolution of Vascular Tissue
• Together xylem and phloem move
water, nutrients, and other materials
throughout the plant.
• Xylem and lignin (a substance
that makes cell walls rigid)
enable some plants to grow
upright and tall.
49. Ferns and Their Relatives
–Seedless vascular plants
include:
•club mosses
•horsetails
•ferns
50.
51. Ferns and Their Relatives
• The most numerous phylum is
the ferns.
•Ferns and their relatives
have true roots, leaves,
and stems.
52. Plant Organs
• Roots are underground organs that absorb
water and minerals.
• Leaves are photosynthetic organs that contain
one or more bundles of vascular tissue. Tissue is
gathered into veins made of xylem and phloem.
• Stems are supporting structures that connect
roots and leaves, carrying water and nutrients
between them.
53. Ferns and Their Relatives
– Club Mosses
• Ancient club mosses grew into
trees and produced forests.
• Fossilized remains of these exist
today as huge beds of coal.
55. Horsetails
• The only living
genus of Arthrophyta
is Equisetum.
• Equisetum has true
leaves, stems, and
roots.
• Equisetum is called
horsetail, or
scouring rush.
Ferns and Their Relatives
56. Ferns and Their Relatives
–Ferns
• Ferns probably evolved 350 million
years ago, when club moss forests
covered Earth.
• Ferns thrive in wet areas with little
light.
58. –Ferns and other vascular
plants have a life cycle in
which the diploid sporophyte
is the dominant stage.
Life Cycle of Ferns
59. • On the underside of fern fronds
diploid structures called
sporangia produce haploid
spores using meiosis.
• Sporangia are grouped into clusters
called sori.
Life Cycle of Ferns
65. • The antheridia and archegonia are
found on the underside of the
gametophyte.
• In ferns, fertilization requires
water, which allows the
sperm to swim to the eggs.
Life Cycle of Ferns
67. Life Cycle of Ferns
Mature
gametophyte
(N)
Mature
sporophyte
(2N)
68. Frond
Mature
sporophyte (2N)
Gametophyte (N)
Sporophyte
embryo (2N)
Developing
sporophyte (2N)
Sporangium
(2N) Life Cycle of Ferns
• The diploid zygote
formed by
fertilization,
develops into a
new sporophyte.
• As the sporophyte
grows, the
gametophyte
withers away.
72. Seed plants are the most dominant
group of photosynthetic
organisms on land.
73. Seed plants are divided into two
groups:
•Gymnosperms bear seeds directly
on the surfaces of cones.
•Angiosperms, or flowering plants,
bear seeds within a layer of tissue
that protects the seed.
74. • Gymnosperms include conifers,
cycads, & ginkgoes.
• Angiosperms include grasses,
flowering trees and shrubs, and
all species of flowers.
75. • Reproduction Free From Water
• Seed plants have a life cycle that
alternates between a gametophyte
stage and a sporophyte stage.
•Seed plants do not need water
for fertilization of gametes.
•Seed plants can live just about
anywhere.
76. Reproduction Free From Water
– Adaptations that allow seed plants
to reproduce without water include:
• flowers or cones
• the transfer of sperm by
pollination
• the protection of embryos in
seeds
77. –Cones and Flowers
• Gametophytes grow within sporophytes
called cones, which are the seed-
bearing structures of gymnosperms,
and flowers, which are the seed-bearing
structures of angiosperms.
• Gametophyte generations live inside
these structures.
78. –Pollen
• The male gametophyte is contained in a
tiny structure called a pollen grain.
• Sperm do not need water to fertilize eggs;
instead the pollen grain is carried to the
female reproductive structure by wind,
insects, or small animals.
• This transfer of pollen is called pollination.
79. –Seeds
• A seed is an embryo of a plant that is
encased in a protective covering and
surrounded by a food supply.
• An embryo is an organism in its early stage
of development.
• The seed coat surrounds and protects the
embryo and keeps contents of the seed
from drying out.
81. Reproduction Free From Water
• Seeds may have special tissues or
structures that aid in their dispersal
to other habitats.
• Some seed coats stick to the fur
or feathers of animals.
• Other seeds are within tissues
eaten and dispersed by animals.
82. Reproduction Free From Water
• After fertilization, the zygote grows into a
plant—the embryo.
• The embryo can stop growing while it is
within the seed, and it can remain this way for
a long time.
• When it grows, it uses nutrients from the
stored food supply.
• Seeds can survive extreme cold or heat, or
even drought.
83. Evolution of Seed Plants
• Evolution of Seed Plants
• The fossil record indicates that ancestors of
seed plants evolved adaptations enabling
them to survive where most mosses and
ferns could not.
• The most important of these adaptations was
the seed itself.
• A seed can survive dry conditions and
extreme temperatures.
87. –Flowers are an evolutionary
advantage because they attract
animals, which then transport pollen
from flower to flower.
–Flowers contain ovaries, which
surround and protect the seeds.
–After pollination, the ovary develops
into a fruit.
–A fruit is a wall of tissue that
surrounds a seed. A fruit protects the
seed and aids in its dispersal.